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Jeon BC, Kim YJ, Park AK, Song MR, Na KM, Lee J, An D, Park Y, Hwang H, Kim TD, Lim J, Park SK. Dynamic O-GlcNAcylation governs long-range chromatin interactions in V(D)J recombination during early B-cell development. Cellular & molecular immunology 2025 22(1) 39627609
Abstract:
V(D)J recombination secures the production of functional immunoglobulin (Ig) genes and antibody diversity during the early stages of B-cell development through long-distance interactions mediated by cis-regulatory elements and trans-acting factors. O-GlcNAcylation is a dynamic and reversible posttranslational modification of nuclear and cytoplasmic proteins that regulates various protein functions, including DNA-binding affinity and protein-protein interactions. However, the effects of O-GlcNAcylation on proteins involved in V(D)J recombination remain largely unknown. To elucidate this relationship, we downregulated O-GlcNAcylation in a mouse model by administering an O-GlcNAc inhibitor or restricting the consumption of a regular diet. Interestingly, the inhibition of O-GlcNAcylation in mice severely impaired Ig heavy-chain (IgH) gene rearrangement. We identified several factors crucial for V(D)J recombination, including YY1, CTCF, SMC1, and SMC3, as direct targets of O-GlcNAc modification. Importantly, O-GlcNAcylation regulates the physical interaction between SMC1 and SMC3 and the DNA-binding patterns of YY1 at the IgH gene locus. Moreover, O-GlcNAc inhibition downregulated DDX5 protein expression, affecting the functional association of CTCF with its DNA-binding sites at the IgH locus. Our results showed that locus contraction and long-range interactions throughout the IgH locus are disrupted in a manner dependent on the cellular O-GlcNAc level. In this study, we established that V(D)J recombination relies on the O-GlcNAc status of stage-specific proteins during early B-cell development and identified O-GlcNAc-dependent mechanisms as new regulatory components for the development of a diverse antibody repertoire.
O-GlcNAc proteins:
MPEG1, CUL4B, DHX8, RHG27, VIR, PNISR, FRPD1, RENT2, LAS1L, ITIH4, THOC2, MMRN1, PYR1, YTDC2, PTPRB, ANR44, RBM25, OSBL8, DAAF5, SAFB1, KI67, DESP, YTDC1, UBE4A, NUMA1, MORC3, HXK2, LEG9, KNG1, UBE3A, DCTN1, DIAP1, U5S1, RL21, PHB2, CPSF2, DHX15, EXOC4, STAG2, AP1B1, PININ, HNRH1, SP100, GP1BA, ITB3, RL35A, SPT5H, DHX9, E41L2, BAZ1A, ZFR, ROA2, PRS6A, FA5, AFAM, COR1A, SP1, C1QR1, COX2, AMY1, CO3, CO4B, B2MG, HBA, HBB1, K1C10, K2C1, CFAB, ALDOA, TBA1B, TBA3, ITAM, K1C18, LDHA, LCK, APOA4, PTPRC, CFAH, TTHY, ANXA2, ALBU, A1AT1, SPA3K, HS90A, TRFL, ENPL, APOE, MDHM, GNAI2, RPB1, ITB1, PDIA1, NUCL, APOA2, PTPRQ, CALM2, EF1A1, 4F2, PARP1, PERM, FINC, HS90B, K2C8, ITA5, ITB2, TCPA, RL7A, GELS, ICAM1, DNMT1, S10A6, RL27A, RS16, RL7, RSSA, LMNB1, ANXA6, RLA0, CD44, LEUK, H12, CN37, AMPE, HS71L, G3P, LAMP2, HSP72, ENOA, PTBP1, PPIA, TPIS, LYZ1, PCNA, PTPRA, BASI, KS6A1, KS6A3, COF1, FAS, THRB, RL13A, BIP, VIME, PLMN, VTDB, A1AT2, CBL, AP1G1, EIF3A, EST1C, ITAL, CD11B, MCM3, RS2, CD19, UBF1, TLN1, EZRI, MOES, KLKB1, H2AX, VAV, NCKP1, MUG1, KIF2A, DPP4, PTN6, FETUA, C5AR1, CEAM1, CD68, ANT3, SYWC, KIF4, DPOLA, RAB5C, RAB18, CD22, TSP1, CALX, RFC1, PRDX1, RL12, RL18, DNLI1, HSPA9, DYN2, RL28, MMP9, STAT1, STA5B, EPS15, TCPQ, MSH2, H14, H15, RAGP1, SIPA1, NSF, PRS7, BRCC3, NEDD4, CAPZB, RL6, RL5, RL13, RL36, KSYK, PERE, ROA1, MCM4, MCM5, SAHH, K2C6A, VATA, PA2G4, RAB7A, RL9, ADT2, IMA1, PON1, DPOD1, UBP10, KPYM, STAT6, RL10A, CEBPZ, PIPNB, MSH6, UBP5, ATPB, UBP25, NICA, ACTN4, EF2, OPA1, FOXP1, TPM2, WDHD1, ARPC4, RUVB1, PCBP1, ACTB, IF4A1, RS20, UB2D3, ARF3, RL26, RL27, RL37A, ARF4, HNRPK, RS7, PRS4, RS8, RS15A, RS14, RS23, RS18, RS11, RS13, SMD2, ARF6, PRS10, RS4X, RL18A, RL23A, RS6, H4, VATB2, RAB1A, RAN, RL23, RS24, RS25, RS26, RL30, RL31, RS3, RL8, PROF1, RL40, HSP7C, PHB1, RL22, RACK1, ACTS, TBA4A, TBB4B, 1433F, IMB1, M4K1, PKN1, STIM1, PYRG2, ROCK1, RAD50, PYRG1, TCPH, TCPB, TCPD, TCPE, TCPZ, TCPG, WNK1, RHOG, RL19, H33, BACH2, MCM2, MCM6, RS3A, ANX11, SMRC1, FUMH, ARVC, TBB5, APOA1, A1AT4, TYY1, HNRL2, LYAM3, TOP2A, APOH, TERA, UBA1, PLAK, ATPA, IKZF1, SPA3M, SMRCD, TOP1, RAC2, PYC, IF2P, CBG, ACADS, AMBP, PECA1, SSRP1, ZCH18, K2C80, PSA, PTCD3, NSUN2, EDEM3, MCM9, TMC5, HMHA1, HP1B3, GUAA, H2AV, SMCA4, PRC2C, MIDN, K1C26, K22E, PSMD1, BRE1B, ESYT1, AAK1, RHG17, EDC4, UBP19, GPD1L, ELNE, SC31A, IQGA2, K22O, ITB2L, C1TM, UN13A, PLCH1, PDS5B, CENPJ, DDX46, TR150, A16A1, EHMT1, MCTP2, RBM27, CYFP2, PSME4, MYO1G, LC7L3, PUR4, MYH1, LEO1, SIN3A, XRCC1, ODO1, HNRPD, SAMH1, HELLS, ARHG2, I17RA, PML, 2A5G, PPM1G, CFAI, CERU, CTCF, PRDX2, EZH2, HCFC1, PA1B3, ARHG1, PLSL, A2AP, HSP74, DSG1A, GSLG1, EWS, RAD21, FSCN1, GDIB, DDX5, HS105, ITIH2, ITA6, EI2BD, SERA, KINH, PDCD4, PZP, PRG2, MYH10, MCM7, NPM, PCBP2, CTR9, DDX3X, CD180, SPTB2, SPR1A, TIF1B, TFR1, RU17, SPT6H, NDUA4, IF4G2, MINT, RHG30, H2B1B, TOP2B, TPP2, AT2A3, H2A2C, VINC, PUR2, CLH1, SYMC, GNPTA, PDS5A, CDC5L, CE290, F120A, UBP7, JADE3, K1C42, K2C72, SR140, K2C73, S23IP, IF4G1, RBM26, P4R3A, U520, ABCF1, SMHD1, UGGG1, XPO1, ANO6, KIF15, KIF11, FHOD1, FKB15, PTN23, LPPRC, SMRC2, ECM29, CHD4, PK3C3, NUP98, GMIP, NFRKB, TEX2, UBE2O, KDM3B, CE162, CNOT1, CAND1, LARP1, VIP2, RS9, RL35, RS27L, 2AAA, SND1, ASAP2, IPO8, HUWE1, LC7L2, MBB1A, INT7, CTDP1, PP6R1, ELP1, DCAF1, CLAP1, SCRIB, PUM1, NU214, NAA15, FACD2, FBLL1, SYMPK, SIG10, DDX42, ANFY1, EFTU, TNPO1, ROA3, PLD4, SYAC, S2512, NU107, PTBP3, NRDC, ERC6L, GANAB, SP130, NUP93, SUN2, RCC2, IPO5, ODP2, RBGPR, SYLC, SYQ, ECHA, RL24, CLAP2, CNDH2, PB1, FLNA, SYIC, IFIX, CIP2A, GEMI5, UBP47, CTL2, TBCD, POGZ, ANC2, KS6A5, EFL1, LCAP, DOCK8, CND2, IWS1, RBM14, DOCK2, UBA6, MIC60, UFL1, VCIP1, NUP88, NED4L, RPB2, AQR, SMC4, SMC2, SYEP, TCRG1, LONM, OGT1, CHERP, CCAR1, INT5, PYGB, COPA, PLCG2, INT4, EIF3B, BCLF1, K319L, URP2, DNM1L, NEK9, FCHO1, PAF1, IPO11, CND1, MATR3, PLCL2, DP13A, PO121, SF3A1, HNRPL, NU133, EIF3C, BST2, CD177, ADIPL, CDC16, STPAP, LRC8C, ACSF2, EVI2B, MYH9, UHRF1, VIGLN, ADPGK, PSMD2, HNRL1, AT1A1, MICA1, CCAR2, DX39A, SRSF4, K2C79, RFA1, HNRPU, S25A3, RBM39, SEC63, IPO4, SFPQ, ACLY, IF4A3, NDUS1, ATPG, DDX1, UBAP2, HEMO, IPO9, RBM5, PRP6, SMCA5, SP16H, TADBP, SF3B3, SYDC, PP6R3, C1TC, NOP2, PDE2A, KIF2C, K2C5, SIR1, XPO5, SMRD2, ECHB, ARP3, EMIL1, UN45A, ACON, DPP3, HSP7E, GTPB4, ARBK1, SRRT, SF3B1, NU155, RRBP1, DHX30, RL17, NUDC2, 6PGL, COTL1, RM18, TRAP1, AT5F1, RL14, XPOT, PRPS2, RRP44, SMC1A, SMUF1, SMC3, PUR9, SNX2, ROA0, RL11, GARS, RL15, MTREX, MMS19, HNRPM, SYRC, NH2L1, RL34, GRIFN, UB2V2, S10AE, CORO7, STAG1, CUL5, SC23B, CALL3, NOP56, RL4, EF1G, PRP4, QCR2, PELP1, AP2B1, XRN2, NVL, EIF3K, 6PGD, SYF1, EIF3F, XPO7, IPO7, RENT1, BCAP, PESC, ERAP1, VPS35, EHD4, TFP11, XPO2, PKHA2, RBP2, UBE4B, SHIP1, HRG, XPO4, AN32B, GTF2I, DYHC1, STK4, COPB, DDX21, ACINU, FLII, IQGA1, HYOU1, HIP1R, FMNL1, SACS, SART3, GIT2, MY18A, ITA2B, FAK2, CAF1A, K1C17, FETUB, PLEC, PO210, ADDA, PCLO, COPG1, UBQL2, H2AY, ZEB2, GALK1, SC11A, MTA2, PR40A, TIM, MYO1C, INSRR, MD1L1, PDC6I, PFKAP, CXA10, GANP, IF2G, ADNP, P5CS, SAE2, ARI1, DX39B, CLIC1, SYVC, AP3B1, ILF3, USO1, HNRPC, BAZ1B, K1C16, SNUT1
Species: Mus musculus
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Jaiswal R, Liu Y, Petriello M, Zhang X, Yi Z, Fehl C. A reference dataset of O-GlcNAc proteins in quadriceps skeletal muscle from mice. Glycobiology 2025 35(3) 39927985
Abstract:
A key nutrient sensing process in all animal tissues is the dynamic attachment of O-linked N-acetylglucosamine (O-GlcNAc). Determining the targets and roles of O-GlcNAc glycoproteins has the potential to reveal insights into healthy and diseased metabolic states. In cell studies, thousands of proteins are known to be O-GlcNAcylated, but reference datasets for most tissue types in animals are lacking. Here, we apply a chemoenzymatic labeling study to compile a high coverage dataset of quadriceps skeletal muscle O-GlcNAc glycoproteins from mice. Our dataset contains over 550 proteins, and > 80% of the dataset matched known O-GlcNAc proteins. This dataset was further annotated via bioinformatics, revealing the distribution, protein interactions, and gene ontology (GO) functions of these skeletal muscle proteins. We compared these quadriceps glycoproteins with a high-coverage O-GlcNAc enrichment profile from mouse hearts and describe the key overlap and differences between these tissue types. Quadriceps muscles can be used for biopsies, so we envision this dataset to have potential biomedical relevance in detecting aberrant glycoproteins in metabolic diseases and physiological studies. This new knowledge adds to the growing collection of tissues with high-coverage O-GlcNAc profiles, which we anticipate will further the systems biology of O-GlcNAc mechanisms, functions, and roles in disease.
O-GlcNAc proteins:
A0A087WS16, A0A0N4SUN5, A0A286YCS6, A0A5F8MPM4, A0A5F8MPQ4, A0A668KL51, A0A7N9VR94, A2A6J0, A2A6Q8, OBSCN, A2AEX6, A2AI87, A2AKD7, TITIN, KLH41, ARMT1, OSBL8, SHAN1, D3Z0V7, D3Z2B4, CD054, E0CZE0, E9PYG6, E9PYI8, E9PZD8, RYR1, E9Q1W3, NU153, E9Q3P4, RN213, E9Q616, TRDN, E9QL12, E9QN70, E9QND8, F6QYF8, F6VY18, F6YT88, F8VPN4, F8WGD9, MYH2, G3UYC5, RGS22, G3X972, AT2B1, G5E895, G5E8L1, G5E8R7, H7BWZ9, J3QN31, M0QW57, HXK2, CA2D1, PRDX6, DLDH, HCD2, MK12, SYPL1, CASQ1, PHB2, CAN1, CALU, CAVN1, IMPA1, NIPS2, AT2A2, PDLI3, PGAM2, PDLI1, RTN2, NTR1, WDR1, PLIN4, ZFR, SEM3F, ACTN3, SYPL2, CAH2, CO3, LAMC1, NU5M, ATP8, FABP4, MYG, ALDOA, KAPCA, AATC, AATM, TBA3, LDHA, MAOX, KCRM, ANXA2, A1AT1, SPA3K, HS90A, PHKG1, SODC, MDHM, ITB1, PDIA1, PGK1, MYL3, SODM, UBB, CALM3, ANXA1, EF1A1, CATB, TAU, GSTM1, H2B1F, H10, FINC, FABPH, DMD, COX5A, TNNI2, MYH3, MYH8, CAH1, GPDA, RL7, MDHC, HSPB1, ANXA6, GLNA, B4GT1, H12, CAH3, LEG1, LDHB, HS71L, G3P, ENOA, PPIA, TPIS, CATD, COF1, FAS, GSTP1, SERPH, COX5B, COX41, BIP, VIME, TNNC2, PLMN, ENOB, VTDB, CLK1, EST1C, RS2, TLN1, RADI, DHE3, FKB1A, MAP4, PLAP, PDIA3, ADHX, KCC2B, PGS2, MUG1, PABP1, DESM, AIMP1, PRVA, UBP4, ODPA, FAAA, PRDX1, RL12, HSPA9, CAP1, ACSL1, ECI1, STA5B, H14, H11, H15, H13, ALDR, COF2, ACADM, MYO1B, ALDH2, CAZA2, PFKAM, CACP, RL5, CBR1, ADT1, SAHH, CSRP3, ACADV, FMOD, ACADL, CAV3, ADT2, EAA3, AAAT, KPYM, CPT2, ODB2, MOT1, IDHP, STMN1, RD23B, PUR8, ADK, ACYP2, CX6B1, UBP5, ATPB, UCP3, EF2, TPM1, IRPL1, ACTB, CDC42, RAB5B, RAB10, UB2D1, 1433G, RS7, PP1B, 1433E, RS11, EF1A2, H4, RAB1A, RAN, RL23, CYC, RS3, YBOX1, RAC1, LIS1, HSP7C, CH60, 1433Z, HMGB1, IF5A1, ACTS, TBA4A, TBB4B, MP2K6, PEBP1, STIM1, HINT1, MYBPH, NACAM, TCPH, TCPB, TCPD, TCPE, TCPZ, SGCB, WNK1, ARF5, ISC2A, CSRP1, RS3A, SPSY, MYL11, FUMH, LYPA1, ARVC, PRDX5, XDH, NDKB, TERA, UBA1, CAC1S, ATPA, CO6A1, PGBM, PYC, ACADS, KCMA1, PADI2, CD36, Q14BI5, FAT4, CNNM3, Q3TCF3, PDLI7, PRC2C, SCRN3, DDB1, K0930, Q3UER8, LIMC1, PRRC1, EID3, AMPD1, Q561M1, MYPN, Q5F247, MLIP, Q5MJ56, CLU, MYH4, MYH1, UBR3, MYPC2, ODO1, LAMA2, COCA1, STIP1, REEP5, VDAC2, VDAC3, VDAC1, COQ8A, PRDX2, HCFC1, LAMB2, HSP74, HCDH, FBN1, GDIB, PZP, NNTM, DDX3X, MYOM1, SPEG, NDUA4, NUP62, AT2A3, GPDM, VINC, PUR2, CLH1, MYOF, HECD1, F120A, HELZ, Q6NVF7, IF4G1, Q6P1B9, Q6P6L5, KCRS, LPPRC, KMT2D, AT1A2, Q6S9I0, CAND1, CAND2, CMYA5, VWA2, TLN2, 2AAA, MIC27, Q7TPG0, MBB1A, SRCA, ATX2L, Q7TQS8, KPBB, Q80T54, NU214, PANK4, Q810Q0, EFTU, H2A3, LPP, PSD11, S2512, ECHM, EIF2A, ODPX, MAON, ODP2, ECHA, Q8BPI2, Q8BUY2, DHPR, SYP2L, THIM, STAC3, ASGL1, TLK1, PRR33, STBD1, MIC60, SYNPO, CPLN1, SYEP, UN45B, PGP, DRS7C, EI2BE, PDLI5, AGO3, EFGM, FIBB, COQ9, SDHA, VRK3, NNRE, HIBCH, THIL, AIMP2, BLMH, CMBL, UBQL1, TSN8, SLF1, CACB1, AT2A1, CLYBL, PRAF3, LSM1, MAVS, MYLK2, EST1D, MYH9, PSMD2, HNRL1, LMCD1, HNRPU, S25A3, FLNC, NDUS1, RINI, ATPG, DDX1, UBAP2, NDUS2, CISD1, SH319, HEMO, SYNP2, NDUV1, MYH7, PCCA, UGPA, ETFD, MACD1, C1TC, CLIP1, MPI, CPT1B, TALDO, THTM, GORS2, ECHB, ACON, NAMPT, 3HIDH, DHRS4, NDUAA, ETFA, PARK7, ASPN, MCCA, PPR3A, GDIR1, LGUL, NDUC2, DECR, NDUA2, SDHB, TMED6, GLRX3, AT5F1, ACO13, RL14, NDUB7, M2OM, UCRI, CHSP1, SFT2C, PUR9, SGT1, CENPV, SERB1, SPCS2, QCR1, NSF1C, CISY, ODPB, PGM1, SCOT1, GAL3A, RAB1B, ODO2, NDUV2, FUND2, IDH3A, RL4, EF1G, CA074, ATPO, PXL2B, QCR2, ACDSB, MYPT1, Q9DBT6, DCAF6, OCTC, NDUA9, NDUA8, PUR6, NDUBA, NDUS3, ETFB, ATP5H, MIC26, MMSA, RB27A, JPH2, JPH1, IVD, DYHC1, NIT2, ACTN2, MYOTI, PROF2, MYOZ1, PRELP, YBOX3, MBNL1, LDB3, HIG1A, TRXR1, B4GT5, PPCE, PLEC, S2513, NDRG2, DNJA2, UBQL2, FHL3, GLYG, ESTD, KAD1, PDC6I, PYGM, SUCA, ECI2, SH3BG, ARC1B, ABEC2, VAPA, AIFM1, GYS1, STRAP, LETM1, SUCB1, S4R1W1
Species: Mus musculus
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Lanzillotta C, Prestia F, Greco V, Iavarone F, Cordella F, Sette C, Forte E, Tramutola A, Lanzillotta S, Cassano T, Di Angelantonio S, Urbani A, Barone E, Perluigi M, Di Domenico F. Enhancing protein O-GlcNAcylation in down syndrome mice mitigates memory dysfunctions through the rescue of mitochondrial bioenergetics, stress responses and pathological markers. Redox biology 2025 85 40684658
Abstract:
Disturbances of the single sugar modification of proteins, O-GlcNAc, have been identified as a potential connection between disrupted brain metabolism and intellectual decay. In Alzheimer disease (AD), the reduced uptake of glucose in the brain results in aberrant O-GlcNAc cycling contributing to redox imbalance and neurodegeneration. Notably, alterations of O-GlcNAc homeostasis, associated with impaired O-GlcNAc transferase (OGT)/O-GlcNAcase (OGA) regulation, foster neuropathological mechanisms characterized by the presence of AD hallmarks in Down syndrome (DS) models. In the present study we examined the ability of Thiamet G (TMG), a well-known OGA inhibitor, in improving bio-energetic processes, inducing stress responses, reducing AD-related signatures and ameliorating cognition in a murine model of DS. Our data demonstrate that short-term intranasal administration of TMG restored OGA activity and normalized the global O-GlcNAc profile in mouse cortices. By a proteomic approach we identified protein components whose increased O-GlcNAc levels rescue, resulted to brain molecular and cognitive improvements. Remarkably, these included elements involved in energy production, neuronal architecture, antioxidant and stress response mechanisms. The ability of TMG in rescuing O-GlcNAc cycle and metabolic changes, associated with improved mitochondrial activity in cortical tissue, was further accompanied by changes in the O-GlcNAc/phospho ratio of APP and Tau. Functional improvements translated in enhanced recognition memory in Ts2Cje mice. Our study highlights the pivotal role of altered protein O-GlcNAcylation in DS neuropathology and establishes the molecular basis to envision the O-GlcNAc process as a promising therapeutic target to mitigate genetic- and metabolism-driven brain alterations linked to redox imbalance, mitochondrial failure and the development of AD features.
O-GlcNAc proteins:
APBA1, GDS1, DPYL2, STXB1, DLDH, DPYL4, REPS1, CTBP1, COR1A, GFAP, ALDOC, ALDOA, AATC, AATM, ENPL, NFL, NFM, PDIA1, TAU, KCC2A, NCAM1, ENOA, ENOG, HXK1, NFH, BIP, MAP4, KCRU, CTND1, DYN1, CAP1, TCPQ, NSF, PRS7, ALDH2, LMNA, SAHH, GDIA, KPYM, UBP5, ATPB, EF2, HNRPK, ABI2, LIS1, CH60, TBA4A, TBB4B, DLG3, TIAR, NHRF1, DPYL1, RGS14, TBB5, HNRL2, PLAK, ATPA, ANXA7, PPR21, FUBP2, CMPK2, GRIN1, C1TM, SRC8, TS101, PGCB, TCPW, DSG1A, FSCN1, PACN1, DLG4, SYN2, UBXN7, AT1A3, AT1A2, NEB2, 2AAA, TBB2A, PHF24, EFTU, PSD11, SAM50, MAON, CPNE3, SSDH, SEP11, MIC60, OGT1, PYGB, DNM1L, THIL, HNRPL, SHLB2, SNP47, FIBG, AT1A1, IRGQ, CSDE1, SYYC, PCY2, GMPPA, ARP3, RANB3, QCR1, SCOT1, TBB4A, EF1G, DPYL5, TBB3, LGI1, HABP4, AL9A1, GUAD, PDC6I, PYGM, E41L3, PACN2, P5CS, RASL1, PDPK1
Species: Mus musculus
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Gonzalez-Rellan MJ, Parracho T, Heras V, Rodriguez A, Fondevila MF, Novoa E, Lima N, Varela-Rey M, Senra A, Chantada-Vazquez MDP, Ameneiro C, Bernardo G, Fernandez-Ramos D, Lopitz-Otsoa F, Bilbao J, Guallar D, Fidalgo M, Bravo S, Dieguez C, Martinez-Chantar ML, Millet O, Mato JM, Schwaninger M, Prevot V, Crespo J, Frühbeck G, Iruzubieta P, Nogueiras R. Hepatocyte-specific O-GlcNAc transferase downregulation ameliorates nonalcoholic steatohepatitis by improving mitochondrial function. Molecular metabolism 2023 75 37453647
Abstract:
O-GlcNAcylation is a post-translational modification that directly couples the processes of nutrient sensing, metabolism, and signal transduction, affecting protein function and localization, since the O-linked N-acetylglucosamine moiety comes directly from the metabolism of glucose, lipids, and amino acids. The addition and removal of O-GlcNAc of target proteins are mediated by two highly conserved enzymes: O-linked N-acetylglucosamine (O-GlcNAc) transferase (OGT) and O-GlcNAcase (OGA), respectively. Deregulation of O-GlcNAcylation has been reported to be associated with various human diseases such as cancer, diabetes, and cardiovascular diseases. The contribution of deregulated O-GlcNAcylation to the progression and pathogenesis of NAFLD remains intriguing, and a better understanding of its roles in this pathophysiological context is required to uncover novel avenues for therapeutic intervention. By using a translational approach, our aim is to describe the role of OGT and O-GlcNAcylation in the pathogenesis of NAFLD.
O-GlcNAc proteins:
DJC25, TITIN, FIBA, AOXC, LEG9, CLCA, MTP, MYH11, NTCP, PRDX6, DLDH, HCD2, GLU2B, PRDX4, RL21, GSH0, HGD, AMACR, PHB2, DOPD, PSMD4, SRSF5, PAHX, AGT1, S27A2, BHMT1, ANXA3, AP1B1, CP4AE, TIM44, CALU, AL1A7, OST48, PGRC1, COPB2, NIPS1, RL35A, AT2A2, PSB5, DPM1, EIF3D, EF1B, NMT1, UGDH, DHB12, WDR1, RDH7, ROA2, COMT, JAM1, IDHC, CP8B1, COPE, RBM3, CP1A1, ADH1, COX1, COX2, CO3, HVM14, IGKC, IGHG1, B2MG, HA1B, HBA, HBB1, K1C10, NU3M, ATP8, K2C1, ALDOA, AATC, AATM, K1C18, LDHA, G6PI, MAOX, ANXA2, ALBU, SPA3K, HS90A, PDIA4, ENPL, APOE, SODC, MDHM, PDIA1, NUCL, PGK1, FRIH, SODM, EF1A1, CATB, THIO, GSTM1, RRAS, H10, GPX1, HS90B, MUP2, K2C8, CP2D9, OTC, TCPA, FABPL, PDCD6, RL7A, MYH8, GPDA, RL27A, RS16, RL7, MDHC, RSSA, CALR, GTR2, HSPB1, PSMD3, ANXA6, RLA0, GLNA, NDKA, CAH3, LEG3, SRP14, PH4H, MUTA, ASSY, G3P, ENOA, PTBP1, AP2A2, SBP1, COX7C, UDB17, PPIA, TPIS, PTPRA, CATD, COF1, FAS, GSTP1, RL13A, COX5B, COX41, BIP, PRDX3, VIME, CP2A5, TPM3, VTDB, TGM2, EIF3A, MOV10, CATA, PPIB, CP2DA, LKHA4, AL1A1, CO8A2, RS2, URIC, TLN1, MOES, RADI, 3BHS3, CTNA1, U2AF2, DHE3, SYSC, MA2A1, RL3, PDIA3, PSB8, ACOHC, APEX1, ADHX, MUG1, GRN, DPP4, PABP1, FRIL1, OAT, VTNC, GSTA3, CTND1, ACBP, SCP2, LA, DRG1, CP2F2, HYES, RAB18, FAAA, FBRL, CALX, PRDX1, RL12, RL18, HEM6, NCPR, HMGCL, HSPA9, CAP1, TKT, INMT, RL28, ACSL1, ECI1, SEPT2, STAT1, PURA, PXMP2, TCPQ, H14, PLIN2, ACADM, MYO1B, STT3A, QOR, ALDH2, AL3A2, CAZA2, GSHR, RL6, RL29, RLA1, RL5, RL13, RL36, ANXA5, LMNA, CBR1, T23O, ROA1, HPPD, ODBA, DHB8, DHI1, SAHH, GLYC, K2C6A, VATA, ACADV, PA2G4, RAB7A, ACADL, RL9, DHB2, DHB4, GSHB, ADT2, THTR, PON1, KPYM, RIDA, CPT2, ST1A1, ST2A1, RL10A, ODB2, KPYR, MOT1, CNBP, IDHP, HMCS2, ABCD3, RAB8A, ADK, ATPK, CX6B1, CYB5, ATPB, CP2AC, FUS, EF1D, ACTN4, TM9S2, EF2, GGLO, IF5, ARPC4, EIF3E, PCBP1, ACTB, CDC42, IF4A1, RS20, UBE2N, ARP2, ARF3, ABCE1, RL26, RL27, RL37A, S61A1, ARF4, GABT, HNRPK, 1433G, RRAS2, RS7, PP1B, PRS8, RS8, RS15A, 1433E, RS14, RS23, RS18, RS29, RS11, RS13, RS4X, RL18A, RL23A, RS6, H4, RAB1A, RAN, RL23, RS15, RS24, RS25, RS26, RS28, RS30, GBB2, RL30, CYC, RL31, RS3, RL32, RL8, YBOX1, PROF1, RS27A, RAC1, HSP7C, TCTP, DNJA1, CH60, 1433Z, IF5A1, RS17, RS10, PHB1, RL22, RACK1, ACTS, 1433T, TBA4A, TBB4B, TBA1C, 1433F, IMB1, EBP, NFIX, PEBP1, HNRH2, ELAV1, NHRF1, NACAM, DHB5, TCPB, TCPD, TCPE, TCPZ, TCPG, RL36A, AP2M1, RL19, ISC2A, KHK, RS3A, PSME2, ANXA4, MYL11, RS5, GSH1, FMO3, CPT1A, FUMH, CATC, LYPA1, G3BP1, FMO5, TBB5, RLA2, PRDX5, RET4, A1AT4, HNRL2, SC23A, NDKB, TERA, UBA1, PLAK, ATPA, PPA5, CP2E1, PYC, ATP5I, CLUS, ANXA7, ACADS, LG3BP, HSDL2, ML12B, METK2, K22E, AGT2, RMD3, MCCB, SC31A, IQGA2, S27A5, DDX17, OPA3, GLSL, ACBD5, COPD, A1CF, ODO1, MYL6, HNRPD, PSB6, GCDH, IRGM1, SPB6, STIP1, CAPR1, VDAC2, VDAC3, VDAC1, COQ8A, PRDX2, ARGI1, PLSL, ABCD2, HCDH, GPAT1, GDIB, HPT, DDX5, HS105, LASP1, NPM, NNTM, PCBP2, DDX3X, SSRD, SPR1A, NDUA4, CYTB, VAT1, SBP2, EST3A, UD11, SPRE, BTF3, RGN, CH10, UD16, DHSO, CP2CT, GSTT1, GPDM, CLH1, F120A, IF4G1, ODBB, ABCF1, LPPRC, SRSF1, RS9, RS27, RL10, RL35, IF2A, RS27L, H2B1C, KAT3, 2AAA, ATPMK, MIC27, 3HAO, S22AI, SND1, OSTC, MTCH2, NDUAC, HNRPQ, TBB2A, LDHD, ACTN1, GVIN1, MOGS, FA98B, COEA1, FLNB, ACD11, BDH, EFTU, LPP, ROA3, ALAT2, AL8A1, S2512, ECHM, CHDH, IPO5, TM214, SRP68, ECHA, SYNC, RL24, ASPH, FLNA, DHPR, AOFB, SSDH, ACOT4, UD2A3, THIM, ERF1, CPSM, NAKD2, MIC60, PARP9, THIC, S2545, G6PE, SYEP, LONM, NT8F2, DPYD, AL4A1, PDLI5, COPA, CP2DQ, EIF3B, ACSL5, TXTP, UD3A2, GALM, COQ9, SDHA, HACD3, MATR3, NDUS8, ALAT1, THIL, EIF3L, HNRPL, EPIPL, SGPL1, AL1L1, BPHL, EIF3C, CMBL, QCR9, H2AJ, SDHL, HUTU, AK1CD, TKFC, GYS2, THIKB, CGL, DHB13, ABHEB, EST1D, EST3B, ACSF2, MYH9, VIGLN, PSMD2, AT1A1, HNRPU, S25A3, SEC63, OASL1, SFPQ, TRAM1, CK054, ACLY, ACSM1, NDUS1, RINI, RMXL1, ATPG, DDX1, MGST1, CBR4, GCSP, NDUS2, EIF3H, KMO, SYYC, EST1F, BAAT, GCKR, DCXR, METK1, NADC, FTCD, GLYAT, TM205, ALDOB, ATLA3, ARLY, RPN1, NDUV1, GRHPR, PCCA, UGPA, FPPS, FADS1, TADBP, ETFD, THIKA, TRFE, PDIA5, SYDC, C1TC, MARC2, LRC59, PDIA6, ATAD3, SFXN2, ROAA, S14L2, THTM, STML2, SFXN1, GORS2, ECHB, ARP3, NONO, PLST, AASS, GLO2, ACON, DPP3, DHRS1, 3HIDH, IF2B, DHRS4, SARDH, NDUAA, ETFA, RTCB, PARK7, NDUS5, DNJA3, PCCB, MCCA, PECR, NUDT7, RTN4, AAAD, RRBP1, GDIR1, NDUA5, ATP5L, RL17, AMPL, DECR, MTAP, QCR8, NDUA2, SDHB, NDUB4, SAR1B, PCYOX, NDUB5, NDUB9, TXD17, TRAP1, AT5F1, ACO13, PPP6, SC61B, MTNA, RER1, 1433B, CYB5B, MAGT1, NDUA6, RL14, M2OM, TMM33, UCRI, VKOR1, OCAD1, ARPC2, MARC1, PUR9, DDAH1, ROA0, KYNU, CENPV, RL11, TECR, SERB1, QCR1, C560, RL15, GLYM, AL1B1, CISY, RS19, ODPB, HNRPM, LMAN1, PGM1, SYRC, CY1, SYTC, GAL3A, CNDP2, TMEDA, FKB11, ERP44, HYEP, HACD2, ATPD, PLCC, NDUV2, GHC1, IDH3A, MSRA, GLGB, ACAD8, PRPS1, SAPC2, IPYR, RL37, SOX, U2AF1, RL4, EF1G, ATPO, IAH1, QCR2, HUTI, CSAD, AL7A1, CP27A, AP2B1, RPN2, PGAM1, COASY, ECHP, KCY, M2GD, NDUA9, NDUS7, RT11, 6PGD, SSRG, EIF3F, NDUA8, PUR6, GSTK1, NB5R3, ASPDH, MTL26, NDUBA, NDUS3, HOGA1, RMD1, ETFB, ATP5H, KEG1, TMT1B, LACTB, RENT1, DHB11, MMSA, DPYS, ERAP1, VPS35, MVP, SET, RT29, PYGL, IVD, TMOD3, NIT2, COPB, AK1A1, CMLO1, PLS1, RL38, PXMP4, GNA1, AL9A1, CD2AP, STA10, TRXR1, RHOA, PSA6, K1C17, F16P1, HACL1, GNMT, S2513, CLIC4, VKGC, DIC, EIF3I, COPG1, TBL2, ACOX1, ESTD, DEST, TEBP, MPU1, SQOR, PSA1, TPSN, RUVB2, KAD3, HAOX1, PDC6I, PROD, SYFB, SUCA, PREB, ECI2, ENTP5, DECR2, TAGL2, ORNT1, PACN2, EHD1, MAAI, IF2G, BPNT1, AIFM1, DX39B, SYVC, ILF3, STRAP, HNRPC, PX11A, LETM1, SUCB2, SUCB1, PSA7, HNRPF, MCAT
Species: Mus musculus, Mus spicilegus
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Narayanan B, Zahra F, Reeves RA, Aggarwal A, O'Meally RN, Henry RK, Craven M, Jacobson A, Cole RN, Kohr MJ, Umapathi P, Zachara NE. Differential Detection of O-GlcNAcylated proteins in the heart using antibodies. Analytical biochemistry 2023 678 37507081
Abstract:
Thousands of mammalian intracellular proteins are dynamically modified by O-linked β-N-acetylglucosamine (O-GlcNAc). Global changes in O-GlcNAcylation have been associated with the development of cardiomyopathy, heart failure, hypertension, and neurodegenerative disease. Levels of O-GlcNAc in cells and tissues can be detected using numerous approaches; however, immunoblotting using GlcNAc-specific antibodies and lectins is commonplace. The goal of this study was to optimize the detection of O-GlcNAc in heart lysates by immunoblotting. Using a combination of tissue fractionation, immunoblotting, and galactosyltransferase labeling, as well as hearts from wild-type and O-GlcNAc transferase transgenic mice, we demonstrate that contractile proteins in the heart are differentially detected by two commercially available antibodies (CTD110.6 and RL2). As CTD110.6 displays poor reactivity toward contractile proteins, and as these proteins represent a major fraction of the heart proteome, a better assessment of cardiac O-GlcNAcylation is obtained in total tissue lysates with RL2. The data presented highlight tissue lysis approaches that should aid the assessment of the cardiac O-GlcNAcylation by immunoblotting.
O-GlcNAc proteins:
A0A023T778, A0A075B5P3, A0A075B5P4, A0A075B5P6, A0A075B5T2, A0A075B5T7, A0A087WP81, A0A087WPL5, A0A087WR50, A0A087WS16, A0A087WS46, A0A087WSC6, A0A0A0MQ79, A0A0A0MQA5, A0A0A0MQD2, A0A0A0MQF6, A0A0A0MQJ4, A0A0A0MQM0, A0A0A6YVU8, A0A0A6YW67, A0A0A6YW80, A0A0A6YWP6, A0A0A6YX26, A0A0A6YXF6, A0A0A6YXH3, A0A0A6YXV1, A0A0B4J1E7, A0A0B4J1H7, A0A0F6AIX5, A0A0G2JDI9, A0A0G2JDL9, A0A0G2JDR9, GBP6, A0A0G2JDW2, A0A0G2JE25, A0A0G2JEP0, A0A0G2JEX1, A0A0G2JEY6, A0A0G2JF52, A0A0G2JF85, A0A0G2JG74, A0A0G2JGJ1, A0A0G2JGS0, A0A0J9YU07, A0A0J9YU24, A0A0J9YUZ4, A0A0M3HEQ0, A0A0N4SV40, A0A0N4SV66, A0A0N4SVB1, A0A0N4SVB8, A0A0N4SVK8, A0A0N4SVL9, A0A0N4SW07, A0A0R4J023, A0A0R4J038, A0A0R4J050, A0A0R4J052, A0A0R4J093, A0A0R4J0H8, A0A0R4J0I1, A0A0R4J0K2, A0A0R4J0L5, A0A0R4J0L6, A0A0R4J0S3, A0A0R4J0T5, A0A0R4J0X5, A0A0R4J0Z1, A0A0R4J138, A0A0R4J196, A0A0R4J1E2, A0A0R4J1J3, A0A0R4J1Q6, A0A0R4J1R7, A0A0R4J1W0, A0A0R4J1W7, A0A0R4J260, A0A0R4J275, A0A0U1RPW2, A0A0U1RPY8, A0A140LHG8, A0A140LIU4, A0A140LIZ5, A0A140LJ98, A0A140LJB7, A0A171EBL2, A0A1B0GQU8, A0A1B0GR11, A0A1B0GRP7, A0A1B0GRV0, A0A1B0GRV3, A0A1B0GRW3, A0A1B0GS58, A0A1B0GS68, A0A1B0GS70, A0A1B0GS91, A0A1B0GSG5, A0A1B0GSK8, A0A1B0GSR9, A0A1B0GX27, A0A1C7CYV0, A0A1C7ZN10, A0A1D5RM79, A0A1L1SQ51, A0A1L1SQA8, A0A1L1SS27, A0A1L1SST0, A0A1L1STE6, A0A1L1SV25, A0A1L1SV73, A0A1W2P6E6, A0A1W2P6P1, A0A1W2P768, A0A1W2P7A1, A0A1W2P812, A0A1Y7VJY8, A0A1Y7VKT9, A0A1Y7VKY1, A0A1Y7VLP0, A0A286YCI8, A0A286YCS6, A0A286YD12, A0A286YDA2, A0A2I3BPW0, A0A2I3BQE3, A0A2I3BQF4, A0A2I3BRL8, A0A2K6EDJ7, A0A2R8VHF9, A0A2R8VHX0, A0A338P6D9, A0A338P6G0, A0A338P6N4, A0A338P703, A0A338P731, A0A338P786, A0A338P7D7, A0A338P7F1, A0A338P7G4, A0A3B2W824, A0A3B2WB97, A0A3B2WBC6, A0A3B2WCN9, A0A3Q4EBV4, A0A3Q4EG54, A0A3Q4EH93, A0A3Q4EI56, A0A494B908, A0A494B923, A0A494B955, A0A494B985, A0A494B9D8, A0A494B9P3, A0A494B9W3, A0A494B9X1, A0A494B9Y4, A0A494BA51, A0A494BAJ6, A0A494BB38, A0A494BBC1, A0A494BBG8, A0A571BEC9, A0A571BEG4, A0A571BG59, A0A571BGD8, A0A5F8MPB9, A0A5F8MPD6, A0A5F8MPK9, A0A5F8MPM4, A0A5F8MPN8, A0A5F8MPW1, A0A5F8MPY2, A0A5K1VVQ9, A0A668KL51, A0A668KLD3, A0A6I8MWZ8, A0A6I8MX27, A1BN54, A2A513, A2A5F5, A2A6F8, A2A6Q8, A2A7A7, A2A813, A2A848, TM201, A2A997, A2A9Q2, OBSCN, A2AAW9, A2AE89, A2AEX6, A2AFQ0, A2AFQ2, A2AGJ9, A2AI69, A2AI87, NDUF6, A2AIM4, A2AIW9, A2AK42, A2AKD7, A2AKU9, A2AKV9, A2AL12, A2ALV7, CAVN4, A2AMW0, UBR4, A2AN84, A2APD7, A2AQN4, MYH7B, A2AQR0, A2AQY8, A2AS98, TITIN, A2AT02, A2AU61, A2AUD5, RBGP1, A2BDW0, A2BH06, A2BI12, A2CEK3, A2CES4, A2CG35, A3KFU5, A3KGU5, ARMT1, A6X925, A8DUK4, A8JYK8, CISD3, B1AR28, B1AR93, B1ARA3, B1ASE2, B1ASZ3, B1AT10, B1AU25, B1AUX2, B1AV14, B1AXW5, B1AZ14, B1B0C7, B2C3G8, GNAI1, B2RXT3, B2RY24, B7FAU9, B7ZCI2, B8JJI4, B8JJM5, B8JK32, B9EIZ7, D3YTL5, D3YU39, D3YUG3, D3YUK5, D3YUM1, D3YUP1, D3YVF4, D3YVI6, D3YVV9, D3YW19, D3YWA4, D3YX99, D3YXT0, D3YY36, D3YYE1, D3YYG9, D3YYS6, D3YZ06, D3YZ71, D3Z041, D3Z067, D3Z0G0, D3Z0X5, D3Z0Y2, D3Z1B5, D3Z1V4, D3Z263, D3Z2B3, D3Z2Y8, D3Z4A4, D3Z5K6, D3Z5W3, D3Z627, D3Z636, D3Z6F5, D3Z780, D3Z7A7, D3Z7D5, D3Z7K3, D3Z7U0, D3Z7V3, D5MCW4, D6REH1, D6RFU2, D6RFU9, D6RGM3, D6RH37, E0CXB1, E0CXH2, E0CXN7, E0CXS3, E0CY23, E0CZ90, E0CZE0, E9PUD2, E9PUE8, E9PUM3, E9PUU2, E9PUY9, E9PV12, FIBA, E9PV63, E9PV66, E9PVP0, E9PVU0, E9PWE8, E9PX89, E9PYF1, E9PYI8, E9PZ00, E9PZ88, E9PZC4, E9PZD8, E9PZF0, E9PZI9, E9PZP8, E9Q133, E9Q1J7, E9Q1T9, E9Q1V0, E9Q264, RYR2, E9Q4T8, ACACB, DESP, E9Q5B5, E9Q5I9, E9Q616, E9Q6A9, E9Q6C2, E9Q6W2, E9Q7A5, E9Q800, E9Q933, E9Q9C0, E9Q9T8, E9QJV4, E9QKY4, E9QL13, E9QN70, E9QPD7, E9QPX3, F6QPR1, F6QYE1, F6QYF8, F6RR81, F6VVE6, F6VVY4, F6VY18, F6XI62, F6YCA7, F6ZV59, F7A3N3, F7DBQ0, SKI3, F8VPN4, F8VQJ3, F8WGL3, F8WHU8, F8WIB1, F8WIE5, F8WIT2, F8WIV2, F8WIV5, F8WJ05, G3UVU2, G3UVV4, G3UW30, G3UW85, G3UWN9, G3UX26, G3UXI6, G3UXX3, G3UYR8, G3UZ33, G3UZ48, G3X8R0, G3X8R1, G3X8T3, G3X8T9, QNG1, G3X956, G3X975, G3X977, G3X983, G3X9Q1, G3X9U9, G3XA48, G5DDB7, G5E823, G5E839, G5E883, G5E8R7, H3BIY9, H3BJI5, H3BJP9, H3BJQ7, H3BKH4, H3BKH6, H3BL49, H3BLH2, H7BWZ3, H7BX01, H7BX88, H7BX99, I7HLV2, J3QMG3, J3QPW1, J3QPZ9, J3QQ13, K3W4R2, K3W4S6, K4DI63, L7N451, M0QWU8, CAN2, DPYL2, DLDH, GSTO1, RL21, AMACR, SCRB2, PSMD4, ECH1, ANXA3, C1QBP, TIM44, AL1A7, CAVN1, SYUA, IMPCT, DSG2, NIPS2, AT2A2, PGAM2, PDLI1, AOC3, FHL2, PSA3, DHB12, WDR1, MTX2, ROA2, COMT, BIRC6, IDHC, GNPI1, KBL, AFAM, C1QR1, LANC1, ADH1, COX1, CAH2, CO3, CO4B, HBE, NU1M, NU4M, NU5M, FABP4, MYG, ALDOA, KAPCA, AATC, AATM, TBA1B, CO5, G6PI, MAOX, TTHY, KCRM, ANXA2, ALBU, K2C4, HS90A, CBR2, ENPL, MDHM, PDIA1, NUCL, PGK1, FRIH, SODM, H2AZ, IFI5B, ANXA1, EF1A1, NID1, CATB, THIO, RRAS, H2B1M, H10, LIPL, FABPH, HS90B, DMD, K2C8, ITPR1, TCPA, UCP1, PFKAL, RL7A, GELS, CAH1, GPDA, AT1B1, RS16, RSSA, CALR, HA2B, PSMD3, LMNB1, GLNA, PMGE, CAH3, LEG1, LEG3, CN37, DDX3L, AMPE, ENOA, SBP1, TPIS, CATD, FAS, SERPH, COX41, BIP, PRDX3, VIME, PLMN, ENOB, VTDB, TGM2, AP1G1, EIF3A, CXA1, CRYAB, EST1C, CATA, PPIB, GSTA4, LKHA4, AL1A1, RS2, LYN, TLN1, EZRI, MOES, CTNA1, PTMA, DHE3, PSMD7, FKB1A, PDIA3, ACOHC, ADHX, PGS1, PGS2, NP1L1, ATX10, MUG1, OAT, FKBP4, HMGB2, DESM, MP2K1, SCP2, LA, ANT3, SYWC, MIF, RAB21, HSPB7, TSP1, ODPA, CALX, RL12, PPM1B, TAGL, HMGCL, HSPA9, CAP1, TKT, VP26A, INMT, ECI1, H14, ALDR, ALD2, COF2, ACADM, NSF, VPS4B, PRS7, RB11B, NEDD4, PA24A, ALDH2, GSHR, MK14, PFKAM, RL6, ANXA5, ABCD1, LMNA, CBR1, COX8B, TNNI3, ADT1, HEP2, ROA1, INPP, MCM4, CAV1, SAHH, FMO1, GDIA, CSRP3, VATA, ACADL, DHB4, MLRV, HDGF, ADT2, THTR, PON1, KPYM, NDUS6, CPT2, ODB2, IDHP, RD23A, PUR8, DDX6, ADK, ACYP2, AP4A, CX6B1, UBP5, ATPB, CD38, ERP29, EF2, TPM1, B2L13, RUVB1, EIF3E, PCBP1, NPL4, ACTB, CDC42, IF4A1, UBC12, UBE2N, ARP2, ARF3, RL27, 1433G, RRAS2, RS7, PP1B, RS8, RS15A, 1433E, RS23, SMD3, EF1A2, RS4X, AP2S1, RS6, H4, RAN, RS24, RS26, CYC, RL32, FBX40, PROF1, LIS1, HSP7C, TCTP, CH60, IF4E, 1433Z, RS17, PHB1, ACTC, RACK1, 1433T, TBB4B, 1433F, USP9X, IDHG1, NACAM, F16P2, DCUP, PYRG1, TCPB, TCPE, TCPZ, ARF5, AP2M1, RL19, ISC2A, CSRP1, NRP1, RS3A, CPT1A, WBP2, FUMH, LAMA4, TBB5, G6PD1, APOA1, A1AT5, APOH, TERA, UBA1, PLAK, MYH6, KCRB, CO6A1, FABP5, ATP5I, CBG, MPRI, ACADS, AMBP, CD36, Q14BI5, ACSS3, A1BG, TRI72, Q20BD0, NLR1A, HSDL2, OSBP1, CUL4A, Q3TG45, Q3TGM7, GUAA, TM38A, Q3TXN1, PSMD1, SC31B, SYRM, DDB1, Q3U2G2, Q3U422, Q3U816, Q3U8Y1, Q3UER8, Q3UF75, TM10C, Q3UGX2, HAP28, MYLK3, Q3UJQ9, GPD1L, PP1R7, HDGR2, SC31A, THEM4, Q3UZJ4, ST1D1, Q3V117, HSPB6, D39U1, Q5SQ27, Q5SQB0, Q5SUS9, Q5SWN2, ACACA, MYH4, MYH1, COPD, A1AG1, ODO1, LAMA2, STIP1, VDAC1, COQ8A, ADIPO, 2A5G, LAMA5, HARS1, HCDH, GDIB, HS105, SERA, PZP, MIME, POSTN, PON3, DAG1, MYOM1, SPTB2, TX261, TIF1B, TSN, TFR1, NDUA4, CYTB, CAVN2, BTF3, CH10, ADH7, CP4B1, TOP2B, TPP2, H2A2B, H2A2C, NQO1, VINC, PUR2, CTNA3, CLH1, RFTN1, NOMO1, K2C73, 2ABA, U520, XPO1, KCRS, Q6P8N8, OXSR1, LPPRC, UBR2, CAND1, CAND2, MLEC, RS9, IF2A, KAT3, 2AAA, ATPMK, Q7TNL5, SRCA, ELP1, SESD1, FLNB, PANK4, IREB2, EFTU, MIRO1, SAM50, S2540, SYAC, SYNM, F210A, S2512, F13A, EHD2, ECHM, SYIM, AHSA1, RCC2, IPO5, ODPX, MAON, ODP2, ECHA, PPA6, Q8BRB6, AAPK2, Q8BTS3, CSN7B, PPME1, NUDT9, AOFB, SSDH, THIM, KANK2, VP13C, COMD2, PGM5, NHLC2, GPCP1, ASGL1, LCAP, EXOG, THOP1, Q8C483, EMC1, Q8C845, Q8C8G3, ANK2, VWA8, ARK72, SYEP, LONM, UN45B, BICRL, PGP, FBX4, AL4A1, PDLI5, DI3L2, PYGB, FERM2, COPA, PAK2, HMCS1, ACAD9, MIRO2, AFG32, EIF3B, ACSL5, FIBB, TACO1, PDXK, COQ9, SDHA, FMO2, LZIC, HIBCH, THIL, ERF3A, SUOX, FAHD1, S2542, EIF3C, CMBL, COQ6, Q8R2P8, FABD, GBRL1, CLYBL, TMC2, UBP15, RMC1, MAVS, EST1D, ACSF2, CK068, SYLM, MYH9, PPCS, HNRL1, AT1A1, LMCD1, HNRPU, S25A3, RBM39, FLNC, ETFR1, Q91VB8, NDUS1, HNMT, DDX1, CBR4, EIF3H, CISD1, HEMO, VPS36, RHG35, FAKD4, L2HDH, RPN1, TWF1, MYH7, PCCA, UGPA, SMCA5, HNRLL, ETFD, TRFE, RHEB, MACD1, SYDC, MPI, RT02, CPT1B, DCMC, SMRD2, EIF3M, ECHB, Q99JZ4, RRAGC, VMA5A, ACON, DCTN2, NAMPT, PPIF, DHRS1, 3HIDH, DHRS4, MAT2B, NDUAA, ETFA, DDAH2, RTCB, GRPE1, NDUS5, DNJA3, ASPN, MCCA, PPR3A, RM09, ACS2L, NUDT7, RTN4, GDIR1, PRP8, NDUA5, COX6C, ATP5L, LGUL, AMPL, MYL9, NDUC2, DECR, MTAP, PKP2, NDUA2, SDHB, NDUB4, TM223, COTL1, NDUB9, TXD17, TRAP1, AT5F1, ACO13, 1433B, DPH2, M2OM, CHSP1, NAR4, TPPP3, MIC19, SMC1A, NUD17, PUR9, SNX2, CYGB, ROA0, COQ5, MITOS, MPPB, CYBP, BIEA, QCR1, HS12B, RL15, GLYM, EFTS, AL1B1, CISY, 5NT3A, ODPB, SYRC, EXOS7, CY1, SYTC, HINT2, ILEUA, GAL3A, HHATL, RM53, ODO2, OXSM, CUL2, EFHD1, PLCC, NDUV2, FUND2, F162A, ECHD3, IPYR, QCR7, ITPA, RL4, EF1G, T126A, PHP14, MTU1, ATPO, QCR2, PLIN3, LMAN2, PGAM1, ACDSB, OCTC, RT15, 6PGD, NDUA8, PUR6, GSTK1, MECR, NDUBA, NDUS3, CRIP2, RMD1, ETFB, LACTB, DHB11, MMSA, ERAP1, VPS35, RM46, EHD4, PARVB, M3K20, PSMG2, PYGL, IVD, DYHC1, NQO2, ACTN2, COPB, AK1A1, DDX21, RL38, SH3L1, PROF2, TBA8, PRELP, IQGA1, HYOU1, LDB3, GLTP, PALS2, PPCE, MLRA, DRG2, PLEC, S2513, TOM40, CLIC4, DNJA2, ACOT2, AAKB1, DEST, ACOT9, KAD1, PSA4, PSB3, PSB2, SAE1, BMP10, MYO1C, KAD2, KAD3, CUL1, PDC6I, COR1C, SUCA, KAD4, CATZ, ABEC2, CBPQ, EHD1, S12A7, GRK1, MTNB, GBP2, SYUG, TWF2, NFS1, NDUA7, CLIC1, STK39, MTMR9, SUCB2, SUCB1, PCKGC, PSD10, MCAT, S4R1F2, S4R1N1, S4R242
Species: Mus musculus
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Shu XE, Mao Y, Jia L, Qian SB. Dynamic eIF3a O-GlcNAcylation controls translation reinitiation during nutrient stress. Nature chemical biology 2022 18(2) 34887587
Abstract:
In eukaryotic cells, many messenger RNAs (mRNAs) possess upstream open reading frames (uORFs) in addition to the main coding region. After uORF translation, the ribosome could either recycle at the stop codon or resume scanning for downstream start codons in a process known as reinitiation. Accumulating evidence suggests that some initiation factors, including eukaryotic initiation factor 3 (eIF3), linger on the early elongating ribosome, forming an eIF3-80S complex. Very little is known about how eIF3 is carried along with the 80S during elongation and whether the eIF3-80S association is subject to regulation. Here, we report that eIF3a undergoes dynamic O-linked N-acetylglucosamine (O-GlcNAc) modification in response to nutrient starvation. Stress-induced de-O-GlcNAcylation promotes eIF3 retention on the elongating ribosome and facilitates activating transcription factor 4 (ATF4) reinitiation. Eliminating the modification site from eIF3a via CRISPR genome editing induces ATF4 reinitiation even under the nutrient-rich condition. Our findings illustrate a mechanism in balancing ribosome recycling and reinitiation, thereby linking the nutrient stress response and translational reprogramming.
O-GlcNAc proteins:
A0A075B5P4, A0A087WNV1, A0A087WPT1, A0A087WQF8, A0A087WS88, A0A0A0MQM6, A0A0A6YVP0, A0A0A6YY72, A0A0B4J1E2, A0A0G2JFJ6, A0A0G2JFN8, A0A0G2JFY0, A0A0G2JG10, A0A0G2JG59, A0A0G2JG60, A0A0G2JG65, A0A0G2JGL8, A0A0H2UH17, A0A0J9YTU3, A0A0J9YUT8, A0A0J9YUY8, A0A0N4SV00, A0A0N4SV32, A0A0N4SW94, A0A0N5E9G7, A0A0R4J060, A0A0R4J169, A0A0R4J1E3, A0A0R4J1Y4, A0A0R4J260, A1BN54, A1L341, A1L3S7, A2A485, A2A513, A2A5N3, A2A8V8, A2AGK3, LZTS3, A2AM70, A2AMY5, A2APQ6, A2AS44, A2AVJ7, A2AWT6, A2BGG7, K1C28, A6X8Z3, A8Y5K6, B0V2N8, B1AU25, TBD2A, THOC2, TPC11, PLXB2, RBM25, B7FAU9, B7ZWM8, B8JK33, B9EHJ3, D3YTT9, D3YUW7, D3YV30, D3YV43, D3YVH4, D3YX49, D3YX64, D3YX85, SAFB1, D3YYT0, D3YZ62, D3YZL1, D3YZT4, D3Z1X3, D3Z2H7, D3Z3E8, D3Z4B0, CCD78, D3Z6N3, CILP2, D6RCG1, E0CY31, E0CYH0, E9PUA5, E9PUJ2, E9PUX0, GCN1, E9PVC6, E9PVG8, KI67, E9PW24, E9PYF4, SET1A, E9PYI8, E9PZW0, E9Q066, E9Q0F0, E9Q0M9, E9Q0U7, E9Q0Y4, E9Q133, E9Q166, E9Q175, E9Q1Z0, E9Q2X6, NU153, NOLC1, E9Q5F6, E9Q616, MYO1E, E9Q6A9, E9Q6M7, E9Q6T8, E9Q8F0, E9Q9C7, E9Q9H2, E9QA74, E9QAT0, E9QKG6, E9QLM4, E9QN31, E9QNH6, E9QNN1, E9QPE7, E9QPI5, F2Z480, F6S6G6, F6T0G2, F6TFN2, F6TW20, F6WTC8, F6XWD4, F6YRW4, F6YUI5, F7B296, F7C312, FARP1, F8VPX1, F8VQ29, F8WHR6, G3UWP5, G3UWZ0, G3UX48, G3UYD0, G3UYG6, G3UYW3, G3UYZ0, G3X8P9, G3X8Q0, G3X956, SI1L3, G5E839, G5E846, G5E866, G5E879, G5E8C3, G5E8J8, G5E8N3, G5E8T6, H3BJU7, H3BKF6, H3BKM0, H3BKN0, H3BKT5, H3BL49, J3QMC5, J3QNW0, CAN2, ATN1, SRSF5, IMA3, PININ, EIF3D, ATX2, E41L2, UGDH, SP3, IF2B1, ZFR, HIPK1, IGKC, IGHG1, HBA, K2C1, TBA1B, ALBU, HS90A, NUCL, ATX1L, EF1A1, H2B1F, CO1A1, HS90B, TCPA, GELS, HS71L, AP2A2, K1C19, BIP, VIME, MFGM, EIF3A, MCM3, MOES, CTNA1, U2AF2, PDIA3, GRN, PABP1, FKBP4, KIF4, TSP1, HSPA9, TKT, BCL6, FOXK1, H14, NEDD4, LMNA, MCM5, K2C6A, IMA1, KPYM, DDX6, ACTN4, EF2, ASXL1, ACTB, ABCE1, RRAS2, H4, HSP7C, CH60, TBA1A, TBB4B, H31, IMB1, TCPB, TCPE, TCPZ, WNK1, H32, MPRIP, G3BP1, TBB5, HNRL2, TOP2A, UBA1, PLAK, IF2P, EPS8, LRIQ1, ZCH18, LMTD2, FA83H, CDCA2, CYTSA, SPP2B, Q3TJ56, K22E, FUBP2, Q3U6F1, Q3U8S1, FOXK2, Q3UID0, Q3UJB0, Q3UNN4, SFSWA, K22O, CFA74, Q3UYN2, LRRF1, ESF1, KIF22, Q3V3Y9, Q45VK5, Q4FJZ2, Q4KL80, Q4TU83, PDS5B, DDX17, LRC47, Q52KR6, TR150, NEXMI, JCAD, NUFP2, PRSR1, RBM27, PHF12, UTP18, LC7L3, Q5SUT0, TSR1, MYO1D, Q5U4C5, SIN3A, SRC8, MYL6, STIP1, CAPR1, IMA5, LAP2A, HCFC1, K1C15, SMRD1, FXR1, DDX5, HS71A, SERA, KINH, MYH10, SIN3B, DDX3X, TIF1B, NUP62, K1C12, SQSTM, TOP2B, Q68EM3, CLH1, CDC5L, F120A, CNDG2, NOP58, SCAF8, K1C42, K2C1B, SR140, ZC11A, ABCF1, RRP12, Q6P5B5, UGGG1, XPO1, KIF11, FHOD1, LPPRC, NUP98, Q6PGF5, NEB2, DAPLE, UBE2O, LARP1, NU188, WDR43, 2AAA, Q792Z1, UHRF2, MBB1A, Q7TQE2, NU214, WNK4, KIRR1, FLNB, WNK3, Q80ZX0, LPP, ACTBL, P4HTM, MYPT2, HTSF1, IF4B, NU107, WDR3, NOC4L, CE128, NUP93, SUN2, RCC2, SYLC, CKAP4, SRRM2, NUP54, PWP2, SYIC, RL1D1, MAP1S, TTC34, SI1L1, RBM14, Q8C872, DIDO1, ATAD2, NUP88, Q8CFQ9, SMC2, UACA, SYEP, TCRG1, OGT1, CCAR1, SLTM, BICRL, P66A, COPA, HMCS1, Q8JZN2, EIF3B, BCLF1, PHLB2, NAT10, ANLN, SDHA, LS14A, MATR3, DDX18, PO121, EIF3L, HNRPL, NU133, EIF3C, ZC3HA, TDIF2, NUP58, CD109, LUZP1, UTP6, MYH9, UHRF1, VIGLN, CCAR2, CUL7, K2C79, Q8VGW3, DHX36, SFPQ, ACLY, DDX1, U3IP2, SYYC, RPN1, YTHD2, BMP2K, SNX18, SMCA5, Q921K2, SF3B3, DDX27, Q921S6, SMTN, PP6R3, K2C5, DEN2B, NXF1, NONO, ACON, NMD3, RTCB, CT2NL, HSP7E, NU155, IF2B3, Q9CPN9, SMC1A, SMC3, CXXC1, GARS, CEP72, SC23B, Q9D6D0, NOP56, FIP1, SPB1, MYPT1, NVL, EIF3F, RAI14, CPSF1, PESC, VPS35, LIMA1, DKC1, PALLD, NUP50, DDX21, FLII, YBOX3, IQGA1, Q9QUK9, CAF1A, K1C17, MAGD1, MTA2, PR40A, MYO1C, COR1C, E41L3, EHD1, WDR46, ZO2, NU160, ADNP, SYVC, Q9Z1R9, BAZ1B, K1C16, SNUT1, S4R2A9, S4R2J9, V9GX87
Species: Mus musculus
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Zhu WZ, Palazzo T, Zhou M, Ledee D, Olson HM, Paša-Tolić L, Olson AK. First comprehensive identification of cardiac proteins with putative increased O-GlcNAc levels during pressure overload hypertrophy. PloS one 2022 17(10) 36288343
Abstract:
Protein posttranslational modifications (PTMs) by O-GlcNAc globally rise during pressure-overload hypertrophy (POH). However, a major knowledge gap exists on the specific proteins undergoing changes in O-GlcNAc levels during POH primarily because this PTM is low abundance and easily lost during standard mass spectrometry (MS) conditions used for protein identification. Methodologies have emerged to enrich samples for O-GlcNAcylated proteins prior to MS analysis. Accordingly, our goal was to identify the specific proteins undergoing changes in O-GlcNAc levels during POH. We used C57/Bl6 mice subjected to Sham or transverse aortic constriction (TAC) to create POH. From the hearts, we labelled the O-GlcNAc moiety with tetramethylrhodamine azide (TAMRA) before sample enrichment by TAMRA immunoprecipitation (IP). We used LC-MS/MS to identify and quantify the captured putative O-GlcNAcylated proteins. We identified a total of 700 putative O-GlcNAcylated proteins in Sham and POH. Two hundred thirty-three of these proteins had significantly increased enrichment in POH over Sham suggesting higher O-GlcNAc levels whereas no proteins were significantly decreased by POH. We examined two MS identified metabolic enzymes, CPT1B and the PDH complex, to validate by immunoprecipitation. We corroborated increased O-GlcNAc levels during POH for CPT1B and the PDH complex. Enzyme activity assays suggests higher O-GlcNAcylation increases CPT1 activity and decreases PDH activity during POH. In summary, we generated the first comprehensive list of proteins with putative changes in O-GlcNAc levels during POH. Our results demonstrate the large number of potential proteins and cellular processes affected by O-GlcNAc and serve as a guide for testing specific O-GlcNAc-regulated mechanisms during POH.
O-GlcNAc proteins:
MA7D1, CAVN4, OTUD4, FIBA, TRDN, DPYL2, CLCA, MYH11, KNG1, PRDX6, AKAP1, DLDH, NDUBB, GSTO1, CASQ2, RL21, PHB2, ECH1, NDUA1, TIM44, CAVN1, AKAP2, SLK, NIPS2, AT2A2, PGAM2, EF1B, ATX2, NMT1, XIRP1, PDLI1, MYPC3, SNX3, DC1I2, PLIN4, ROA2, RAD, CLPP, TOM1, COX1, COX2, CAH2, CO3, IGJ, KV2A7, IGKC, GCAB, IGHG1, IGH1M, B2MG, HBA, HBB1, LAMC1, FABP4, CFAB, MYG, ALDOA, ANF, AATC, AATM, TBA1B, LDHA, G6PI, TRY2, TTHY, KCRM, ANXA2, ALBU, SPA3K, ENPL, APOE, MDHM, ITB1, PDIA1, NUCL, PGK1, FRIH, MYL3, SODM, NDUB1, ANXA1, EF1A1, CATB, TAU, THIO, GSTM1, H2B1F, H10, CO1A1, FABPH, HS90B, DMD, PFKAL, COX5A, RL7A, GELS, MYH3, AT1B1, GLUT4, RL7, MDHC, RSSA, CALR, HSPB1, ANXA6, GLNA, B4GT1, GSTM2, H12, LDHB, SPTN1, G3P, ENOA, HXK1, PPIA, TPIS, BASI, COF1, RL13A, SERPH, COX5B, COX41, BIP, PRDX3, VIME, CYTC, ENOB, TGM2, EIF3A, CBX3, CXA1, PIMT, CRYAB, CATA, CAPG, GSTA4, RS2, TLN1, MOES, RADI, CTNA1, DHE3, FKB1A, MAP4, RL3, H2AX, PDIA3, PABP1, FRIL1, FETUA, DESM, AIMP1, LA, ANT3, RANG, MIF, PTN11, HSPB7, ODPA, CALX, PRDX1, RL12, RL18, FBLN2, HMGCL, HSPA9, CAP1, TKT, RL28, ACSL1, ECI1, H14, H11, H15, H13, ALDR, COF2, ACADM, PRS7, ADX, ALDH2, CAPZB, RL6, RL29, CACP, RL13, ANXA5, TBCA, LMNA, CX7A2, TNNI3, ADT1, ROA1, PCY1A, CAV1, ODBA, CSRP3, ACADV, PA2G4, TNNT2, ICAL, ACADL, CAV3, MLRV, ADT2, LUM, KPYM, NDUS6, CPT2, RL10A, ODB2, CCHL, MOT1, IDHP, STOM, ADK, ATPK, ACYP2, ATP68, ATP5E, AT5G2, CX6B1, CX7A1, COX7B, CYB5, UBP5, ATPB, WFS1, ACTN4, EF2, OPA1, TPM1, B2L13, PCBP1, ACTB, RS20, PPLA, UB2D3, UBC12, UBE2N, RL26, RL27, SUMO2, 1433G, RS7, RS8, 1433E, RS14, RS18, RS11, RS13, DLRB1, EF1A2, RS4X, RL23A, RS6, H4, RAN, RS15, RS25, RS30, RL30, CYC, RL31, RS3, RL32, RL8, FBX40, YBOX1, RS27A, HSP7C, MPC1, CH60, GNAS2, 1433Z, HMGB1, IF5A1, ACTG, ACTH, RS12, RS10, RL22, ACTC, UB2L3, TBA4A, TBB4B, H31, IMB1, PEBP1, HINT1, IDHG1, NACAM, TCPD, SGCD, SGCA, WNK1, RL19, SRSF3, H32, RS3A, G3BP2, ANXA4, COQ7, G3BP1, LAMA4, QCR6, PRDX5, APOA1, CO1A2, NDKB, TERA, UBA1, MYH6, ATPA, KCRB, CO6A1, PGBM, EMAL1, ATP5I, CLUS, ANXA7, ACADS, CD36, NEBL, PERM1, TRI72, HSDL2, HP1B3, PRC2C, TM38A, Q3TV00, SRSF6, FUBP2, SDHF1, EI3JA, LIMC1, AAK1, NDUB6, MCCB, COBL1, SLMAP, SRBS2, K22O, CPZIP, NDUF2, MYPN, HSPB6, MLIP, IASPP, TM1L2, ODO1, LAMA2, STIP1, REEP5, VDAC2, VDAC1, COQ8A, LAP2B, PRDX2, HCFC1, LAMB2, HSP74, HCDH, FBN1, FXR1, KTN1, GDIB, DDX5, KINH, LASP1, PZP, NPM, NNTM, SNRPA, SPTB2, SPEG, SRBS1, DBNL, NDUA4, FKBP3, IF4G2, ZYX, CAVN2, SPRE, SF01, CD34, CH10, H2A2B, H2A2C, NQO1, VINC, EI3JB, CLH1, H2A2A, GPSM1, IF4G1, KCRS, LPPRC, AT1A2, CAND2, RS9, CMYA5, FHOD3, ATPMK, MIC27, MSRB2, NP1L4, MTCH1, MTCH2, NDUAC, HNRPQ, HUWE1, LC7L2, MIC10, NEXN, SRCA, LNP, CLAP1, SRA1, NRAP, BDH, GLRX5, ATPF1, EFTU, H2A3, LPP, MYPT2, IF4B, ECHM, RCN3, SYIM, EIF2A, ODPX, EEA1, ODP2, ECHA, COQ3, RL24, FLNA, TIDC1, PLIN5, SYP2L, SSDH, THIM, MIC60, PABP2, BOLA3, SYEP, LONM, H2A1F, H2A1H, H2A1K, SEPT8, PGP, AL4A1, SLAI2, PDLI5, PYGB, PAK2, AFG32, EIF3B, FIBB, COXM2, COQ9, SDHA, SIR5, ACD10, NDUS8, NNRE, HIBCH, THIL, MARE2, QCR9, H2AJ, DC1L1, SPART, NAR3, MIC13, CLYBL, PP14C, TXLNB, MAVS, MYH9, VIGLN, PSMD2, AT1A1, LMCD1, HNRPU, S25A3, FLNC, SFPQ, NDUS1, MIC25, ATPG, SH3L3, UBAP2, NDUS2, EIF3H, CISD1, HEMO, EGLN1, L2HDH, RPN1, NDUV1, GRHPR, MYH7, PCCA, UGPA, ETFD, THIKA, TRFE, TOIP1, MACD1, CLIP1, K2C5, UBXN1, ALPK3, RT02, CPT1B, TALDO, ROAA, THTM, STML2, PACN3, ECHB, PLST, ACON, DCTN2, NAMPT, PPIF, NDUAA, ETFA, GRPE1, PARK7, NDUS5, DNJA3, PCCB, MCCA, PPR3A, EH1L1, ACS2L, RRBP1, GDIR1, NDUA5, COX6C, TOM22, ATP5L, NDUB2, COXM1, RM24, NDUC2, DECR, QCR8, NDUA2, FIS1, SDHB, NDUB4, NDUB5, NDUB9, AT5F1, RS21, ACO13, 1433B, CYB5B, KGD4, NDUA6, NDUB3, PSMD9, RL14, NDUB7, M2OM, UCRI, MIC19, OCAD1, PIN4, NDUS4, RT28, SERB1, SPCS2, SSBP, QCR1, NSF1C, C560, CISY, TOM70, RS19, ODPB, HNRPM, PGM1, SCOT1, CY1, HINT2, GAL3A, MCEE, CHCH2, ERP44, NOL3, MMAB, ODO2, COA3, RT33, ATPD, NDUB8, NDUV2, IDH3A, F162A, ARMC1, RL37, QCR7, RL4, EF1G, EFHD2, PRS37, ATPO, QCR2, PGAM1, MYPT1, LNEBL, TELO2, NDUA9, NDUS7, NDUA8, NDUBA, NDUS3, CRIP2, ETFB, ATP5H, MIC26, MMSA, EHD4, NDUAD, POPD1, HRG, PALLD, JPH2, IVD, NHRF2, PALMD, ACTN2, AK1A1, DBLOH, MYOZ2, PDK2, HSPB8, HIG1A, BAG3, AUHM, MACF1, VAPB, NDRG2, ACOT2, QKI, PRS30, UBQL2, H2AY, GLYG, ACOX1, DEST, KAD1, PSA1, KAD2, KAD3, CAD13, PYGM, IF4H, COR1B, SUCA, ECI2, SH3BG, TAGL2, PACN2, EHD1, AIFM1, NDUA7, BAG6, USO1, PLM, LETM1, SUCB2, SUCB1, K2C6B
Species: Mus musculus
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Lee BE, Kim HY, Kim HJ, Jeong H, Kim BG, Lee HE, Lee J, Kim HB, Lee SE, Yang YR, Yi EC, Hanover JA, Myung K, Suh PG, Kwon T, Kim JI. O-GlcNAcylation regulates dopamine neuron function, survival and degeneration in Parkinson disease. Brain : a journal of neurology 2020 143(12) 33300544
Abstract:
The dopamine system in the midbrain is essential for volitional movement, action selection, and reward-related learning. Despite its versatile roles, it contains only a small set of neurons in the brainstem. These dopamine neurons are especially susceptible to Parkinson's disease and prematurely degenerate in the course of disease progression, while the discovery of new therapeutic interventions has been disappointingly unsuccessful. Here, we show that O-GlcNAcylation, an essential post-translational modification in various types of cells, is critical for the physiological function and survival of dopamine neurons. Bidirectional modulation of O-GlcNAcylation importantly regulates dopamine neurons at the molecular, synaptic, cellular, and behavioural levels. Remarkably, genetic and pharmacological upregulation of O-GlcNAcylation mitigates neurodegeneration, synaptic impairments, and motor deficits in an animal model of Parkinson's disease. These findings provide insights into the functional importance of O-GlcNAcylation in the dopamine system, which may be utilized to protect dopamine neurons against Parkinson's disease pathology.
O-GlcNAc proteins:
BIG2, F1712, VIR, AJM1, RPGP1, UBR4, SCN1A, AGRIN, KALRN, STPG3, FXL16, TT23L, PTPRS, GRIK3, SCN2A, DLGP4, OSBL8, PTPRZ, PGBD5, GLSK, GCN1, CE350, PI4KA, RYR2, AGRF2, UBE4A, NRX2A, FRY, SYGP1, OTOGL, AT2B1, ANK3, CA2D1, DPYL2, STXB1, DCTN1, U5S1, GFRA2, GALT1, SEM4D, KIF3C, PLCA, PHB2, NCAM2, GRAK, PURB, IMA3, IMA7, PLD3, FOLH1, FKBP8, STX1A, PSDE, VIAAT, AP1B1, C1QBP, SYT3, HNRH1, SATT, CTND2, SDC4, AP3D1, RGS9, RGS7, CSK22, OX2G, AAKG1, CRYM, PROM1, CNTP1, ENTP2, BCKD, SNG1, NIPS1, NIPS2, SEPT7, AT2A2, PI51C, PI42A, ITB5, GPX4, NPTX2, GNAZ, WDR1, S4A4, MTX2, CNTFR, ZFR, CSN3, HCN2, HCN1, CTBP1, BSN, MPP3, NOE1, CBPD, LGMN, COR1A, CYB, COX1, COX2, COX3, HPRT, ATP6, THY1, H3C, LAMC1, NU1M, NU2M, NU4M, NU5M, ATP8, GFAP, MBP, PRIO, ALDOA, KAPCA, AATM, TBA1B, TBA3, KIT, LDHA, G6PI, MDR1B, ENPP1, HS90A, ENPL, KCC4, NFL, NFM, RASN, PGK2, ITB1, PPBT, NUCL, PGK1, ACE, LRC4B, UBB, UBC, EF1A1, IF4A2, GSTM1, 4F2, H10, LAMP1, HS90B, L1CAM, ITA5, KCC2A, ITB2, ITPR1, TCPA, PFKAL, CNTN1, NCAM1, AT1B1, C1QB, RS16, RL7, AT1B2, PSMD3, MAP1B, GLNA, CADH2, INSR, NTRK2, KCNC1, SPTB1, H12, KPCE, LDHB, CN37, DDX3L, KCNA1, KCNA3, AMPE, ASSY, SPTN1, G3P, LAMP2, ENOA, AP2A1, AP2A2, HXK1, GTR1, PTPRA, COF1, GNAO, FAS, LAMA1, NFH, COX41, BIP, HEXB, VIME, MTAP2, MAG, GNA11, GNAQ, MDR1A, ACES, GBRG2, AP1G1, GBRD, EIF3A, CXA1, GRIA1, GRIA2, TY3H, RS2, GBRA2, RL3, BRAF, KCC2B, NP1L1, NCKP1, SNAB, KIF3A, PABP1, GBB4, KCRU, GNA14, KAP3, SC6A1, S6A11, MP2K1, GTR3, LA, RASK, SYWC, KIF1A, HYES, RAB3D, RAB5C, RAB6A, RAB21, NMDZ1, ODPA, RET, FBRL, KCNJ2, CD81, GPM6A, GPM6B, GNL1, DYN1, DYN2, GRIK2, CAP1, ABCA2, PURA, HD, EAA2, H14, H15, H13, ITAV, SYT1, NSF, RB11B, AINX, MYO1B, NEDD4, ALDH2, GRM8, CAZA2, CAPZB, MP2K4, PFKAM, RL6, RL29, RL5, GLRB, DCE1, DCE2, CBR1, GSTM5, ADT1, INPP, CDK5, SAHH, GDIA, VATA, VATE1, GBRB1, RAB7A, ACADL, VA0D1, ADT2, EAA3, KCNJ4, KPYM, RAB2A, PRS6B, PTN5, NCAN, ABCD3, RAB8A, ATPK, ATP5E, UBP5, ATPB, CTBP2, EAA1, WFS1, FUS, NICA, ACTN4, ASM3B, EF2, OPA1, DOCK4, IRPL1, ARPC4, MYPR, PLPP, ACTB, MDGA2, NEUG, RAC3, IF4A1, MEGF8, RAB5B, RAB10, RAB8B, ARP2, ACTZ, CSN2, ARF3, ARL1, CAH10, RAP2B, STX1B, RAB6B, RL27, ARF4, GABT, 1433G, RS7, PP1A, RS8, SMD1, KCAB2, ABI2, RB11A, EF1A2, RS4X, PP2AB, RL18A, ACTA, AP2S1, RL23A, VISL1, H4, GBRA1, VATB2, RAB1A, RAB3C, RAN, RAP1A, RS24, GBB1, GBB2, RS3, RL8, RS27A, RL40, RAC1, RAB3A, HSP7C, CH60, VAMP2, NOE3, GBRB3, VATL, PP1G, 1433Z, GBRB2, KCNA2, KCAB1, CRNL1, DYL1, ACTG, ACTH, KPCG, PP2BA, PP2AA, PHB1, CSK2B, ACTC, RACK1, ACTS, KAPCB, TBA4A, TBA1A, TBB4B, KPCB, H31, IMB1, PLXA1, PLXA2, PLXA3, DCC, ITPR3, NCHL1, HNRH2, ELAV1, USP9X, IDHG1, LYAG, AT8A1, TCPH, TCPB, TCPD, TCPE, TCPZ, TCPG, TNIK, WNK1, RL36A, ARF1, ARF5, AP2M1, H32, H33, ADCY5, NPTN, RS3A, AT1B3, DPYL1, ZNT3, GRM1, SHPS1, NEO1, M4K4, C1QA, TBB5, PDE4D, PDE1B, NMDE2, SC23A, TERA, C1QC, CTNB1, PLAK, EPHA4, MARK3, ATPA, CHLE, KCND1, KCRB, NF1, CDK18, RAC2, MARK2, PGBM, PTPRG, PYC, KCMA1, PADI2, INF2, TRIO, MDGA1, CTP5A, ITB8, PSA, GRM2, PTCD3, PHAR1, LRFN1, SPP2B, HP1B3, NLRX1, PRC2C, TM38A, VGLU1, BIG3, PLXD1, AGAP2, AAK1, TEN4, CAMKV, DOP2, RMD3, SMU1, MCCB, GPD1L, LIGO2, SRBS2, CDKL5, K22O, VPS51, GRM5, CBAR2, SHAN3, UN13A, SE6L2, KCTD8, KCD16, LRC8B, VP13A, C2C4C, S2551, MRS2, DIRA2, CYFP2, TM1L2, RHG44, MYO1D, RABL6, DJC11, UIMC1, ICAM5, FLOT2, HNRPD, PTPRN, CSK21, KHDR1, IGF1R, CLD11, SPB6, ARHG2, VDAC2, VDAC3, VDAC1, ABCB7, ASTN1, P3C2A, CAC1E, LAMB2, CTNA2, SC6A3, CNTN2, PGCB, NEP, KCNA4, CD166, 5NTD, GSLG1, EWS, AP180, FSCN1, GDIB, GRIK5, GRID1, DDX5, ITIH3, IL1AP, CD47, KINH, KIF3B, LASP1, MYH10, MOG, NPM, PCBP2, CSPG2, DDX3Y, DLG4, RHOC, DAG1, DDX3X, SYPH, TICN1, NDUA4, NPTX1, NUP62, OMGP, HECAM, AOFA, ARP3B, SURF4, SYN2, CP3AD, H2B1H, GLPK, SDC3, GPDM, H2A2C, H2B2B, GRM7, GRM4, CLH1, K1549, GIT1, PKP4, PPR29, CNTN4, NLGN2, SV2C, THS7A, CE170, UBP7, BRNP2, SCMC3, LIGO3, DGKB, RPRD2, DPP10, S23IP, PPRC1, 2ABA, TNPO3, SIK3, U520, S39AA, TTYH3, XPO1, SPCS, KCRS, CSKI1, NRX3A, BCR, SARM1, PRRT3, TEFF1, RAB35, CA2D2, KCC2D, AT1A3, AT1A2, GNAS1, SDK2, WDFY3, NTRK3, RAD9B, DGLA, KCD12, MTMR5, UBE2O, CAND1, UBP34, RS9, 2ABB, H2B1C, TLN2, CSPG5, 2AAA, NP1L4, MTCH2, OPALI, CYFP1, TBB2A, HUWE1, IGS21, ROBO2, ACTN1, IGSF1, TR143, TPPP, OTUB1, KPBB, PP6R1, MAP6, ELP1, RRAGD, MRCKB, GABR2, CSMD3, EPT1, VAT1L, LRRC7, CAPS1, CYLD, AGRL1, AGRL3, CLAP1, AUXI, DAAM2, MADD, MFN2, NU214, UBE3C, PLXA4, FBX2, KCMF1, CBPM, GSTM7, AGFG2, LRC8A, HPLN4, VAC14, C2C2L, LRRT4, BDH, MK15, CNKR2, TENA, ASTN2, NEGR1, RAP2A, THEM6, SLIK5, SLIK4, SLIK3, SLIK2, NFASC, NRCAM, RHG32, SRGP3, EFTU, VGLU3, ERLN2, SV2B, MIRO1, EFR3A, LRRT2, U2AF4, ENPP6, SYAC, FLRT3, CBLN2, LRTM2, HPCL4, COR2B, S2512, ATLA1, NU107, RB39B, RB39A, ZN526, ANS1B, DLGP2, AHSA1, IPO5, NCEH1, LSAMP, CADM2, NOE2, ODP2, RBGPR, ECHA, SPA2L, SYNC, RL24, DAAM1, DMXL2, RLGPB, CLAP2, VMAT2, ARF2, NDRG4, ENPP4, HSDL1, RAP2C, GEPH, VATH, PMGT2, TTC12, AOFB, LRFN5, PIGT, CTL2, TENR, NLGN3, LRRT3, DYN3, LRC4C, ARHGA, SYFA, SI1L1, LCAP, EXOG, CERS6, SEP11, IKZF4, GP158, CWC22, VPS52, SCAI, ANK2, PDE10, PGM2L, SHFL, MIC60, WDR37, ABI1, SYNPO, T132C, GLT13, NED4L, RPB2, TCRG1, GNAL, H2B1K, H2B1P, H2A1F, H2A1H, H2A1K, OGT1, SYNJ1, SEPT8, MBOA7, PGP, NGEF, PYGB, COPA, MARK4, DOCK3, PLXB1, TXTP, AGRL2, TRHDE, R4RL1, RTN1, HS12A, K319L, DNM1L, AGRG1, PACS1, ABCF3, SDHA, HACD3, AGFG1, PAF1, IPO11, CCM2, MATR3, ATAT, LRRT1, LGI3, RPTOR, COL12, NAC2, THIL, EIF3L, MARE2, HNRPL, K0513, IQEC1, CACB4, SCPDL, BPHL, SNG3, EIF3C, H2AJ, DC1L1, S35A3, AP3M2, MUC18, UBQL1, PSPC1, NUP58, IGSF8, EXOC1, CACB1, CADM4, NUP85, SNP47, ACTY, WASF1, AMPB, MICU1, PSMD2, AT1A1, CDIPT, GD1L1, CC50A, HNRPU, REM2, S25A3, MARK1, CSPG4, SORC3, IPO4, SFPQ, BACH, S12A5, RAB14, SFXN3, ACLY, NDUS1, ITM2C, RMXL1, MIC25, ATPG, DDX1, MLP3A, UBAP2, ACSL6, NDUS2, ERLN1, DLG2, PI42C, IPO9, NDUV1, GRHPR, SRGP2, SRGP1, RAB4B, LRP1, WDR7, BRNP1, SYDC, TBB6, PDK3, TSN2, PDE2A, RPAB3, CSMD1, KCC2G, 2ABD, ATAD3, SFXN5, MYO5A, G37L1, RAP1B, SFXN1, NLGN1, NONO, RRAGC, TIP, MLF2, GAK, CDS2, NDUAA, ETFA, TNPO2, PTPRT, DNJA3, T121B, SF3B1, RIMS1, CNTP4, NTRI, PRP8, COX6C, MGST3, CNTP2, 6PGL, QCR8, NDUB4, RAB5A, GLRX3, AT5F1, S2546, MLP3B, 1433B, RL14, M2OM, UCRI, MIC19, PRPS2, NRX1A, MICU3, ARPC2, TBB2B, ROA0, CENPV, RL11, ILF2, TECR, RN181, BIEA, QCR1, OLA1, RL15, AL1B1, TOM70, MPC2, ODPB, MMS19, MGRN1, HNRPM, SCOT1, DYL2, RM28, RAB1B, LIGO1, RUFY3, MEII1, ATAD1, CUL5, GBRA4, TBB4A, GHC1, IDH3A, PRPS1, U2AF1, RL4, PSD12, SNAA, ATPO, BTBDH, QCR2, ALG2, AP2B1, RPN2, SUSD2, NDUA9, NDUS7, 6PGD, EIF3F, NDUS3, RAB13, XPO7, IPO7, NBEA, SORC2, VPS35, RPGF4, TBB3, XPO2, RTN3, LRBA, SPN90, TRIM2, DYHC1, LRP1B, LGI1, PRAF2, SV2A, SCAM5, NECT1, HYOU1, EXTL1, SORC1, DCLK1, MTOR, MINK1, ZN207, AP3B2, RHOA, HPLN1, FAK2, NAGAB, COPG2, KI21A, SHRM3, PLEC, DREB, S2513, EHD3, PLXB3, ADDA, DNJA2, GRM3, PCLO, SIA7A, ARP10, DCTN5, PLXC1, COPG1, GPC1, UBQL2, FBX6, SRR, AT2B2, CELR2, DEST, ARC1A, KAD1, GBRG1, GUAD, CBLN1, DGKE, VAS1, ADA22, ADA23, PEPL, CAD13, TEN1, TEN2, CUL1, ATRN, GLPK2, PDC6I, PFKAP, PYGM, SUCA, RBMX, GABR1, GSK3B, FPRP, E41L3, BUB3, CARM1, PSD13, CP46A, APC7, NCDN, ITB6, KCND2, NU160, HNRDL, SAE2, VATC1, VPP1, ARI1, CA2D3, SEPT3, AP3B1, STK39, DPP6, E41L1, SUCB1, SEPT5, GRIA4, GRIA3, HOME1
Species: Mus musculus
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Wu JL, Chiang MF, Hsu PH, Tsai DY, Hung KH, Wang YH, Angata T, Lin KI. O-GlcNAcylation is required for B cell homeostasis and antibody responses. Nature communications 2017 8(1) 29187734
Abstract:
O-linked N-acetylglucosamine (O-GlcNAc) transferase (Ogt) catalyzes O-GlcNAc modification. O-GlcNAcylation is increased after cross-linking of the B-cell receptor (BCR), but the physiological function of this reaction is unknown. Here we show that lack of Ogt in B-cell development not only causes severe defects in the activation of BCR signaling, but also perturbs B-cell homeostasis by enhancing apoptosis of mature B cells, partly as a result of impaired response to B-cell activating factor. O-GlcNAcylation of Lyn at serine 19 is crucial for efficient Lyn activation and Syk interaction in BCR-mediated B-cell activation and expansion. Ogt deficiency in germinal center (GC) B cells also results in enhanced apoptosis of GC B cells and memory B cells in an immune response, consequently causing a reduction of antibody levels. Together, these results demonstrate that B cells rely on O-GlcNAcylation to maintain homeostasis, transduce BCR-mediated activation signals and activate humoral immunity.
O-GlcNAc proteins:
FAIM3, BLTP1, BCORL, M3K15, EXC6B, PLHD1, CTTB2, MYO1E, SCLT1, TAF4B, TCOF, FLOT1, OXLA, HDAC1, SYPL1, SEM4D, MA2B1, PPE2, PLD3, DPOD2, NOCT, HNRH1, API5, DFFA, MMP8, DPM1, EIF3D, ESS2, CTNL1, VTI1B, S28A2, FA5, CO4B, IGKC, LAC1, IGHA, IGHDM, HA11, LAMC1, TBA1B, LDHA, HVM51, SPTA1, ZFP1, EGR1, ENPL, RPB1, ITB1, ENV1, 4F2, HS90B, HA2B, HB2A, CD44, BLK, CN37, LAMP2, ZFP37, PTBP1, HB2I, BASI, FAS, EVI2A, MDR1A, BGAL, ITAL, LYN, TLN1, MOES, U2AF2, MAP4, GNA13, RL3, CATG, DPP4, PTN6, HEXA, NKTR, HMGB2, SUH, CEAM1, GTR3, DRG1, RAB5C, CD22, FMR1, VGFR1, HSPA9, CAP1, ECI1, FOXK1, STAT1, NKX25, TCPQ, H11, H13, IL12B, CAPZB, RL5, VDR, RET3, ADCY7, VA0D1, AAAT, IMA1, STOM, FUS, NICA, RU2A, EF2, AAAS, RUVB1, ABCE1, DCAF7, 1433G, ACTA, RS6, VATB2, RL23, RL8, PP2BA, RACK1, TBB4B, M4K1, ITPR3, SURF6, ELAV1, EVL, H2B1A, AT8A1, TCPH, TCPB, NXN, TBB5, HNRL2, CREB1, PLAK, 3MG, CO6A1, LG3BP, COE1, CNN2, NSUN2, HMHA1, SNUT2, SMCA4, TPC10, TGRM2, I20L2, ZSWM8, PRRC1, SC31A, CPZIP, ITAD, ULK4, ITA1, DYHC2, LIN54, JKIP3, GRHL3, MYO1G, SIN3A, IRAG2, SAMH1, KHDR1, LY75, RASA3, NPT2A, CAPR1, ARHG2, PML, IMA5, LAP2B, PRP4B, M4K2, TS101, PLSL, CTNA2, VSX2, CD37, SERA, PCBP2, TIF1B, COCH, NUP62, RALY, UT14A, ARG39, CLH1, ATS16, F120A, NOP58, TEDC2, U520, RRP12, SMHD1, ANO6, TTBK1, CHD4, SARM1, NUP98, RASL2, TNKS1, AT1A2, NFRKB, DDX55, DNA2, H2B1C, CMYA5, GIMA8, CYFP1, SPAG5, HNRPQ, RPF1, MBB1A, PRC2A, ADCY2, MOGS, SDA1, FA98B, WIPI2, TRRAP, XYLT1, WDR82, GNS, ERLN2, S38A9, WASF2, S2512, NIM1, TBL1R, ZN526, CARF, HES7, UNC80, RBGPR, ECHA, ELMO1, ATOSB, KMT2C, FLNA, TPC2, RBBP5, POGZ, DOC10, SYFA, SMKZ, COR2A, RBM14, DOCK2, CASP9, RAE1L, NUP88, RPB2, UACA, SYEP, P66A, VPS50, COPA, VWF, TXTP, ZN536, LMBD1, R4RL1, C2D1A, URP2, STX5, GT251, SDHA, PO121, ABLM1, COL12, ALAT1, RORB, PDLI2, ERO1B, CD177, PSPC1, NUP58, STAB2, LRC8C, COX18, MAVS, PLBL1, UN93B, EVI2B, MYH9, ESIP1, VIGLN, PSMD2, HNRL1, CCAR2, SP7, RECQ5, SFXN3, IF4A3, RINI, DDX1, UBAP2, S15A4, DNJC9, MASP2, UXS1, CSCL1, BMP2K, CYRIB, SYDC, C1TC, GLYR1, PDIA6, S12A6, ATAD3, MYO5A, MCLN1, ABEC3, STML2, SFXN1, PRP19, TARA, MCRS1, RTCB, NDUS5, S12A9, SF3B1, ANR17, NU155, TR34A, BAP1, PRP8, NUDC2, TSN31, RN138, RTRAF, RU2B, YETS4, M2OM, MIC19, SNX2, DDX28, CXXC1, RUSD4, ILF2, CHTOP, LUC7L, DIM1, MCES, SEC13, SP2, NOP56, U2AF1, EF1G, MCEM1, EVPL, PRP4, CMTR1, WWP2, DHB11, PESC, TLR9, IRX6, KRT81, RBP2, AFF4, KAT2B, STK3, NUP50, DDX21, ACINU, SIGIR, ZN207, SLAF1, SON, H2AY, MTA2, SAE1, MYO1C, RUVB2, TRPV2, PFKAP, ARC1B, ASAH1, VAPA, EHD1, IF2G, CLIC1, HNRPF
Species: Mus musculus
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Gurel Z, Zaro BW, Pratt MR, Sheibani N. Identification of O-GlcNAc modification targets in mouse retinal pericytes: implication of p53 in pathogenesis of diabetic retinopathy. PloS one 2014 9(5) 24788674
Abstract:
Hyperglycemia is the primary cause of the majority of diabetes complications, including diabetic retinopathy (DR). Hyperglycemic conditions have a detrimental effect on many tissues and cell types, especially the retinal vascular cells including early loss of pericytes (PC). However, the mechanisms behind this selective sensitivity of retinal PC to hyperglycemia are undefined. The O-linked β-N-acetylglucosamine (O-GlcNAc) modification is elevated under hyperglycemic condition, and thus, may present an important molecular modification impacting the hyperglycemia-driven complications of diabetes. We have recently demonstrated that the level of O-GlcNAc modification in response to high glucose is variable in various retinal vascular cells. Retinal PC responded with the highest increase in O-GlcNAc modification compared to retinal endothelial cells and astrocytes. Here we show that these differences translated into functional changes, with an increase in apoptosis of retinal PC, not just under high glucose but also under treatment with O-GlcNAc modification inducers, PUGNAc and Thiamet-G. To gain insight into the molecular mechanisms involved, we have used click-It chemistry and LC-MS analysis and identified 431 target proteins of O-GlcNAc modification in retinal PC using an alkynyl-modified GlcNAc analog (GlcNAlk). Among the O-GlcNAc target proteins identified here 115 of them were not previously reported to be target of O-GlcNAc modification. We have identified at least 34 of these proteins with important roles in various aspects of cell death processes. Our results indicated that increased O-GlcNAc modification of p53 was associated with an increase in its protein levels in retinal PC. Together our results suggest that post-translational O-GlcNAc modification of p53 and its increased levels may contribute to selective early loss of PC during diabetes. Thus, modulation of O-GlcNAc modification may provide a novel treatment strategy to prevent the initiation and progression of DR.
O-GlcNAc proteins:
UBP36, PYR1, RBM25, TRIPC, CAN2, PRDX4, AIP, GSTO1, X3CL1, DHX15, HNRH1, AT2A2, GPX4, TRI18, O88568, HA1W, LDHA, ANXA2, RIR1, HS90A, ANXA1, HS90B, TCPA, UMPS, H12, LEG1, DDX3L, TPIS, HB2I, FAS, IMDH2, MCM3, PSB8, SYWC, PRDX1, DNLI1, CAP1, STAT3, PURA, TCPQ, H14, H11, NEDD4, CAPZB, RL36, HS74L, ADT1, MCM4, RAB7A, ADT2, KPYM, RL10A, ACTN4, EF2, RIPK2, SF3B6, PCBP1, ABCE1, 1433E, RS11, 1433Z, TBA1A, EM55, HNRH2, ELAV1, TP53B, TCPB, ARF1, PSME2, TBB5, UBA1, CNN2, TGM3, INF2, GUAA, FUBP2, LRRF1, DDX17, SRC8, MYL6, SAMH1, KHDR1, IRGM1, SPB6, VDAC3, ASNS, LAP2A, PPM1G, PSN2, ZN638, FXR1, SERA, PZP, NPM, GPDM, NOP58, TPM4, NEST, TNKS1, RS9, MBB1A, ATX2L, FLNB, SYAC, LSS, CKAP4, HEAT3, THOP1, AROS, TXNL1, SYEP, STAU2, AGO4, HMCS1, PNPT1, ANLN, MATR3, WIPI1, MYH9, PARN, AT1A1, FLNC, RAB14, SFXN3, IPYR2, SMC1B, TADBP, LRC59, NONO, GRPE1, NU155, OGFR, MTAP, CYB5B, MPPB, GARS, HNRPM, TRIR, IPYR, EF1G, PUR6, RAI14, LIMA1, PALLD, TMOD3, DDX21, WDR12, CUL3, TRXR1, DREB, ZBP1, TOM40, DNJC7, IIGP1, DEST, ACOT9, KAD2, TEN1, VAPA, GBP2, P5CS, SAE2, SYVC, HNRPF
Species: Mus musculus
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Chuh KN, Zaro BW, Piller F, Piller V, Pratt MR. Changes in metabolic chemical reporter structure yield a selective probe of O-GlcNAc modification. Journal of the American Chemical Society 2014 136(35) 25153642
Abstract:
Metabolic chemical reporters (MCRs) of glycosylation are analogues of monosaccharides that contain bioorthogonal functionalities and enable the direct visualization and identification of glycoproteins from living cells. Each MCR was initially thought to report on specific types of glycosylation. We and others have demonstrated that several MCRs are metabolically transformed and enter multiple glycosylation pathways. Therefore, the development of selective MCRs remains a key unmet goal. We demonstrate here that 6-azido-6-deoxy-N-acetyl-glucosamine (6AzGlcNAc) is a specific MCR for O-GlcNAcylated proteins. Biochemical analysis and comparative proteomics with 6AzGlcNAc, N-azidoacetyl-glucosamine (GlcNAz), and N-azidoacetyl-galactosamine (GalNAz) revealed that 6AzGlcNAc exclusively labels intracellular proteins, while GlcNAz and GalNAz are incorporated into a combination of intracellular and extracellular/lumenal glycoproteins. Notably, 6AzGlcNAc cannot be biosynthetically transformed into the corresponding UDP sugar-donor by the canonical salvage-pathway that requires phosphorylation at the 6-hydroxyl. In vitro experiments showed that 6AzGlcNAc can bypass this roadblock through direct phosphorylation of its 1-hydroxyl by the enzyme phosphoacetylglucosamine mutase (AGM1). Taken together, 6AzGlcNAc enables the specific analysis of O-GlcNAcylated proteins, and these results suggest that specific MCRs for other types of glycosylation can be developed. Additionally, our data demonstrate that cells are equipped with a somewhat unappreciated metabolic flexibility with important implications for the biosynthesis of natural and unnatural carbohydrates.
O-GlcNAc proteins:
A1BN54, A2A4Z1, A2A6U3, A2AFJ1, A2AG83, A2AL12, A2AMW0, A2AMY5, LAS1L, B1AU75, OTUD4, B7FAU9, B7ZP47, D3YUC9, D3YVJ7, SAFB1, D3Z4W3, E9PVC5, E9PZM7, E9Q066, E9Q2X6, E9Q310, E9Q5L7, E9Q7M2, E9Q986, F6T2Z7, G3UZ44, G3UZI2, G3X8Q0, G3X8Y3, G3X928, G3X972, G3X9V0, G5E8E1, H3BKK2, J3JS94, CAN2, DPYL2, AIP, HDAC1, MP2K3, GSH0, DHX15, ZW10, AKAP2, SLK, NMT1, E41L2, SRPK1, PARG, SPD2A, LDHA, ANXA2, RIR1, ANXA1, LMNB1, LEG1, G3P, TPIS, COF1, FAS, CBX3, BCAT1, MCM3, MAP4, FKBP4, HMGB2, AIMP1, MP2K1, SYWC, RANG, UBP4, PTN11, RAB5C, DNLI1, CAP1, STAT3, EPS15, PURA, MSH2, ALD2, PURA2, NEDD4, GFPT1, PCY1A, ICAL, HDGF, UBP10, ACTN4, EF2, TB182, SF3B6, PCBP1, PSME3, PFD3, MTPN, DNJA1, SUMO1, IF5A1, UB2L3, HDAC2, ELAV1, 4EBP2, PYRG1, TCPB, BOP1, DAB2, XDH, UBA1, LARP7, CNN2, PP4R2, PSA, Q3TFP0, GUAA, METK2, FA98A, Q3TT92, UAP1L, NOL9, FUBP2, Q3U4W8, YRDC, NOL8, COBL1, CSTOS, LRRF1, Q3V3Y9, DDX17, MDC1, TENS3, Q5UE59, SRC8, SAMH1, KHDR1, SPB6, CAPR1, PAPS1, ASNS, LAP2B, LAP2A, PPM1G, CDC37, FXR1, PCBP2, KPCI, DDX3X, TSN, DBNL, CYTB, ZYX, RALY, SQSTM, TPP2, PEAK1, NOP58, TPM4, LTV1, ZC11A, Q6P5B5, SMHD1, GGA2, TXLNA, JUPI2, UBE2O, LARP1, 2AAA, MTCH2, DEK, MBB1A, ATX2L, OTUB1, MAP6, AFTIN, FLNB, PI42B, ZN598, SAFB2, GRWD1, CPPED, LPP, PEF1, IF4B, SYAC, RUFY1, PRUN1, CTF18, AHSA1, RCC2, IPO5, CKAP4, PPR18, HEAT3, SRRM2, HAT1, MAP1S, TLK1, CND2, THOP1, SEP11, TBL3, SEP10, UBA6, SYEP, GNL3, PDLI5, HMCS1, PKHO2, NEK9, ANLN, MATR3, CBR3, MEPCE, ERF3A, SPART, TDIF2, MCMBP, UBP15, MAVS, Q8VCQ8, PSMD2, FLNC, CPIN1, ACLY, MK67I, RINI, PUS7, CSDE1, DUS3L, KCC1A, TTC1, TADBP, RIN1, NONO, RRAGC, SERB, UBQL4, OGFR, NPM3, GLOD4, MTAP, CYB5B, PSMD9, CHSP1, OCAD1, RANB3, MFR1L, TBC15, CYBP, ZCHC8, GARS, CD37L, UB2V1, HNRPM, Q9D4G5, NOP56, IPYR, CNN3, KAP0, PLIN3, AKAP8, XRN2, MYPT1, PUR6, WDR4, SENP3, LIMA1, ANM1, NUP50, DDX20, IQGA1, MBNL1, ELOV1, DCLK1, BAG3, PPCE, CAF1A, LIMD1, DREB, TOM40, DEST, FOXO1, NFKB2, PDC6I, COR1C, TAGL2, CARM1, MTNB, GBP2, P5CS, EIF3G, SAE2, USO1, HNRPF, KEAP1
Species: Mus musculus
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