Affinage

TMT1A

Thiol S-methyltransferase TMT1A · UniProt Q9H8H3

Length
244 aa
Mass
28.3 kDa
Annotated
2026-06-10
23 papers in source corpus 15 papers cited in narrative 15 extracted findings
Cross-family judge vs UniProt: Affinage preferred faithfulness: 6/6 claims corpus-supported (100%)

Mechanistic narrative

Synthesis pass · prose summary of the discoveries below

TMT1A (METTL7A) is a SAM-dependent methyltransferase with dual roles in xenobiotic metabolism and epitranscriptomic gene regulation (PMID:37137720, PMID:40661507). Its best-defined activity is as the microsomal alkyl thiol methyltransferase of human liver, S-methylating exogenous thiol-containing substrates including 7α-thiospironolactone, dithiothreitol, 4-chlorothiophenol, and mertansine, with enzymatic activity tracking METTL7A/METTL7B protein abundance across liver microsomes (PMID:37137720). By methylating and inactivating the thiol zinc-binding moiety of thiol-based HDAC inhibitors such as romidepsin, METTL7A confers drug resistance and blunts downstream HDACi effects including p21 induction and H3K27 acetylation, an activity conserved across vertebrate homologs (PMID:38151817, PMID:38574836). Independently, METTL7A acts as an RNA methyltransferase: in endothelial cells it deposits internal m7G on AG-enriched motifs of protein-coding mRNAs, stabilizing KLF4 and NFKBIA transcripts and protecting against atherosclerosis in a mechanosensitive, flow-induced manner (PMID:40661507). In mesenchymal stem cells it functions as an m6A writer that stabilizes target transcripts and recruits the eIF4F initiation complex to drive YAP1 translation, activating a YAP1-TEAD1 feedback loop, and methylates Oga mRNA to modulate ECM O-GlcNAcylation, collectively promoting osteogenic differentiation (PMID:39815670, PMID:40558384). METTL7A protein is localized to the endoplasmic reticulum and lipid droplets (PMID:37176112), and additional regulatory functions in cancer have been described, including direct binding of SREBP1/SCAP to suppress cholesterol biosynthesis in colorectal cancer (PMID:42009961) and modulation of tumor immune responses in lung adenocarcinoma (PMID:41541671).

Mechanistic history

Synthesis pass · year-by-year structured walk · 10 steps
  1. 2017 Medium

    Before its catalytic role was known, the question of how METTL7A expression is controlled was addressed, establishing that gene-body DNA methylation tunes its transcription.

    Evidence Site-directed CpG mutagenesis in an exogenous vector with ChIP for RNA Pol II and MeCP2 in papillary thyroid cancer cells

    PMID:28416772

    Open questions at the time
    • EZH2's role in setting gene-body methylation described as suggestive, not confirmed
    • No link to enzymatic function of the protein
    • Mechanism studied on an exogenous vector rather than the endogenous locus
  2. 2021 Medium

    Post-transcriptional and protein-interaction regulation of METTL7A was probed, identifying a targeting miRNA and a candidate binding partner.

    Evidence Dual-luciferase reporter, biotinylated miRNA pull-down, mass spectrometry and Co-IP in dental pulp stem cells

    PMID:34790668

    Open questions at the time
    • Functional consequence of the SNRNP200 interaction for METTL7A activity not defined
    • Single-lab Co-IP without reciprocal validation
    • No demonstration of an enzymatic role in this system
  3. 2023 High

    The long-sought identity of the microsomal thiol methyltransferase was resolved by showing METTL7A is a SAM-dependent enzyme that S-methylates exogenous thiol substrates.

    Evidence In vitro assay with purified recombinant protein, quantitative proteomics of liver microsomes, and gene modulation in HepG2/HeLa cells

    PMID:37137720

    Open questions at the time
    • Endogenous physiological thiol substrates not defined
    • No structural basis for substrate selectivity
    • Relative contributions of METTL7A vs METTL7B not separated
  4. 2023 Medium

    Subcellular and tissue localization of METTL7A was mapped, placing the protein at the ER and lipid droplets and in cerebellar Bergmann glia.

    Evidence Immunohistochemistry, confocal microscopy, and 3D reconstruction of human cerebellum

    PMID:37176112

    Open questions at the time
    • No functional consequence linked to glial localization
    • Does not connect localization to enzymatic activity
    • Descriptive only
  5. 2024 High

    The thiol-methyltransferase activity was extended to clinical relevance and evolutionary conservation, showing METTL7A/B inactivate thiol-based HDAC inhibitors to drive resistance.

    Evidence RNA-seq discovery in romidepsin-resistant cells, heterologous expression of vertebrate homologs in HEK-293, resistance assays, and LC-MS detection of dimethylated romidepsin

    PMID:38151817 PMID:38574836

    Open questions at the time
    • Whether thiol methylation activity contributes to clinical HDACi resistance in patients unknown
    • Catalytic residues mediating drug methylation not mapped
  6. 2024 Medium

    A second, RNA-directed activity emerged, implicating METTL7A as an m6A regulator of osteogenic differentiation through CORIN and ERK signaling.

    Evidence m6A microarray, m6A-inhibitor and ERK-inhibitor treatments, and overexpression/knockdown rescue in orofacial BMSCs

    PMID:38782892

    Open questions at the time
    • Direct m6A catalysis by METTL7A not demonstrated biochemically
    • Non-selective inhibitor cycloleucine cannot isolate METTL7A activity
    • Reader linking m6A to CORIN expression unidentified
  7. 2025 High

    The epitranscriptomic role was sharpened by defining METTL7A as a mechanosensitive internal m7G writer that stabilizes athero-protective transcripts.

    Evidence CLIP-seq, LC-MS/MS epitranscriptomic profiling, RNA stability assays, endothelial-specific and global knockout mice, and nanoparticle rescue in vivo

    PMID:40661507

    Open questions at the time
    • Reconciliation of m7G versus m6A activity in different cell types unresolved
    • Structural basis for AG-motif recognition unknown
    • Whether the same active site catalyzes thiol and RNA methylation not established
  8. 2025 Medium

    Mechanistic depth in osteogenesis was added, showing METTL7A couples mRNA stabilization to translation via eIF4F and operates within a YAP1-TEAD1 feedback loop and an Oga/O-GlcNAcylation axis.

    Evidence mRNA stability and eIF4F recruitment assays, YAP1/TEAD1 readouts, and conditional Mettl7a knockout (Prx1-cre) and AAV rescue in OVX mice

    PMID:39815670 PMID:40558384

    Open questions at the time
    • Direct catalytic deposition of m6A on YAP1/Oga mRNA by METTL7A not shown enzymatically
    • Mechanism of eIF4F recruitment undefined
    • Single-lab mechanistic models
  9. 2025 Medium

    Protein-level regulation and non-enzymatic functions in cancer were uncovered, including USP9X-mediated stabilization, chromatin/cohesin regulation, and tumor immune modulation.

    Evidence siRNA/overexpression rescue and xenografts (USP9X); chromatin binding, cohesin co-localization and Hi-C (chromatin); co-culture and single-cell transcriptomics (immune)

    PMID:41391677 PMID:41541671

    Open questions at the time
    • Direct deubiquitination of METTL7A by USP9X inferred, not shown by ubiquitination assay
    • How a methyltransferase regulates cohesin recruitment is mechanistically unexplained
    • Chromatin function evidence is preprint-level
  10. 2026 Medium

    A non-catalytic scaffolding role in lipid metabolism was defined, with METTL7A binding SREBP1/SCAP to block SREBP1 nuclear translocation and suppress cholesterol synthesis.

    Evidence Co-IP, immunofluorescence, transcriptomics/proteomics, and in situ and spontaneous tumor mouse models in colorectal cancer

    PMID:42009961

    Open questions at the time
    • Whether binding requires methyltransferase activity not tested
    • Reciprocal validation of SREBP1/SCAP interaction limited
    • Structural interface undefined

Open questions

Synthesis pass · forward-looking unresolved questions
  • It remains unresolved whether the thiol-methyltransferase, m7G, and m6A activities arise from a single catalytic site and how METTL7A is partitioned among xenobiotic metabolism, RNA modification, and non-catalytic scaffolding roles across tissues.
  • No structure of the catalytic domain bound to RNA or thiol substrate
  • No clean separation-of-function mutants distinguishing the activities
  • Endogenous determinants of which activity dominates in a given cell type unknown

Mechanism profile

Synthesis pass · controlled-vocabulary classification · explore literature graph →
Molecular activity
GO:0016740 transferase activity 4 GO:0140098 catalytic activity, acting on RNA 3 GO:0140096 catalytic activity, acting on a protein 2 GO:0003723 RNA binding 1
Localization
GO:0005783 endoplasmic reticulum 1 GO:0005811 lipid droplet 1
Pathway
R-HSA-8953854 Metabolism of RNA 3 R-HSA-9748784 Drug ADME 3 R-HSA-1430728 Metabolism 1
Partners
EIF4FMETTL7BSCAPSNRNP200SREBP1USP9X

Evidence

Reading pass · 15 per-paper findings extracted from the source corpus
Year Finding Method Journal Conf PMIDs
2023 METTL7A (TMT1A) is a SAM-dependent thiol methyltransferase responsible for microsomal alkyl S-thiol methyltransferase (TMT) activity in human liver. Purified recombinant His-GST-tagged METTL7A selectively methylates exogenous thiol-containing substrates including 7α-thiospironolactone, dithiothreitol, 4-chlorothiophenol, and mertansine. TMT activity in human liver microsomes correlates closely with METTL7A and METTL7B protein levels by quantitative proteomics, and gene modulation in HepG2 and HeLa cells confirmed this correlation. In vitro enzymatic assay with purified recombinant protein; quantitative proteomics of human liver microsomes; gene modulation (overexpression/knockdown) in HepG2 and HeLa cells Drug metabolism and disposition: the biological fate of chemicals High 37137720
2024 METTL7A (TMT1A) and METTL7B (TMT1B) confer resistance to thiol-based histone deacetylase inhibitors (romidepsin and related compounds) by methylating and inactivating the thiol zinc-binding moiety of these drugs. Overexpression of METTL7A in MCF-7 cells selected for romidepsin resistance (MCF-7 DpVp300) was identified by RNA-seq and confirmed to methylate thiol-containing HDACis directly. RNA-seq identification; overexpression in cancer cells; resistance assay; direct methylation of thiol-HDACi substrates demonstrated Molecular cancer therapeutics High 38151817
2024 The thiol methyltransferase activity of TMT1A (METTL7A) is conserved across species (rat, mouse, chicken, zebrafish homologs). All species homologs expressed in HEK-293 cells conferred resistance to thiol-based HDACIs (NCH-51, KD-5170, romidepsin), blunted downstream HDACi effects (p21 induction, H3K27 acetylation, cell cycle arrest), and produced increased dimethylated romidepsin in culture medium. Heterologous expression of species homologs in HEK-293 cells; drug resistance assays; LC-MS detection of dimethylated romidepsin product Chemico-biological interactions High 38574836
2023 The thiol methyltransferase activity of TMT1A is conserved across species (preprint version confirming published finding); all species homologs expressed in HEK-293 cells conferred resistance to thiol-based HDACIs and produced dimethylated romidepsin. Heterologous expression; drug resistance assay; LC-MS product detection bioRxivpreprint Medium 38076968
2025 METTL7A functions as a mechanosensitive internal m7G mRNA methyltransferase in endothelial cells. Athero-protective unidirectional flow induces METTL7A expression; METTL7A promotes internal m7G methylation (not cap-associated m7G or other epitranscriptomic marks) of endothelial mRNAs. METTL7A preferentially binds AG-enriched motifs in protein-coding mRNAs (by CLIP-seq) and stabilizes KLF4 and NFKBIA transcripts by enhancing their internal m7G. Global or endothelial-specific Mettl7a1 knockout mice show exacerbated atherosclerosis; nanoparticle-mediated METTL7A restoration reduces lesion formation. CLIP-seq; LC-MS/MS epitranscriptomic profiling; RNA stability assays; CIRTS; endothelial-specific and global knockout mouse models; nanoparticle-mediated rescue in vivo bioRxiv (preprint) / also published in PMID:40661507 High 40661507
2017 DNA methylation of a CpG site within the METTL7A gene body (exon) regulates its transcriptional activity. Mutation of this CpG site (CG to CC) in an exogenous vector in papillary thyroid cancer cells resulted in higher RNA polymerase II recruitment and reduced methyl-CpG binding protein-2 (MeCP2) enrichment at the gene body. EZH2, a subunit of polycomb repressor complex 2, was identified as potentially responsible for regulating gene body methylation of METTL7A in thyroid cancer. Site-directed mutagenesis of CpG site in exogenous vector; ChIP for RNA Pol II and MeCP2; in vitro cell comparison (BCPAP vs normal thyroid cells) Oncotarget Medium 28416772
2021 METTL7A is a direct target of miR-6807-5p (binding confirmed at the 3'UTR by dual-luciferase reporter assay and pull-down with biotinylated miRNA). SNRNP200 was identified as a co-binding protein of METTL7A by protein mass spectrometry and Co-IP. Knockdown of SNRNP200 inhibited odontogenic differentiation of dental pulp stem cells. Dual-luciferase reporter assay; biotinylated miRNA pull-down; protein mass spectrometry; co-immunoprecipitation (Co-IP) Frontiers in cell and developmental biology Medium 34790668
2023 METTL7A is localized to the endoplasmic reticulum and to lipid droplets in some cells, with a novel localization identified in GFAP-positive Bergmann glial cells of the human cerebellum, particularly enriched at the end-feet participating in the cerebrospinal fluid-brain parenchyma barrier and at contacts between Bergmann glia and Purkinje neurons. Immunohistochemistry; laser confocal microscopy; 3D reconstruction image analysis International journal of molecular sciences Medium 37176112
2024 METTL7A modulates m6A modification of CORIN mRNA and thereby regulates corin expression during orofacial BMSC osteogenic differentiation. Cycloleucine (a non-selective m6A methylase inhibitor) blocked the corin-mediated promotion of differentiation, and METTL7A overexpression reversed bisphosphonate-impaired BMSC differentiation. The corin-mediated differentiation promotion operates via the ERK pathway (phos-ERK alteration; blocked by PD98059). m6A epitranscriptomic microarray; m6A inhibitor treatment; METTL7A overexpression/knockdown; ERK pathway inhibitor (PD98059); ALP and Alizarin Red staining International journal of oral science Medium 38782892
2025 METTL7A drives MSC osteogenic differentiation by activating the YAP1-TEAD1 signaling pathway. METTL7A stabilizes YAP1 mRNA and recruits the eIF4F translation initiation complex to boost YAP1 translation efficiency. The YAP1/TEAD1 complex in turn transcriptionally regulates METTL7A expression, creating a positive feedback loop amplifying osteogenic differentiation. Western blotting; ALP and Alizarin Red S staining; in vivo bone regeneration studies; mRNA stability assays; eIF4F complex recruitment assay International endodontic journal Medium 39815670
2025 USP9X deubiquitinase stabilizes METTL7A protein by regulating its deubiquitination, thereby promoting AML cell growth and adriamycin resistance. USP9X knockdown decreased METTL7A protein stability, and METTL7A overexpression reversed growth inhibition caused by USP9X knockdown. Co-expression analysis; siRNA knockdown; overexpression rescue; colony formation; xenograft mouse model Cellular signalling Medium 41391677
2025 METTL7A promotes Mettl7a-mediated m6A methylation of Oga mRNA, regulating O-GlcNAcylation of the ECM protein BSP (bone sialoprotein), thereby promoting BMSC osteogenic differentiation. Conditional knockout of Mettl7a in mesenchyme (Prx1-cre;Mettl7af/f) accelerated bone loss in OVX mice, and Mettl7a-AAV treatment alleviated the bone loss phenotype. Conditional knockout mouse model (Prx1-cre;Mettl7af/f); AAV overexpression in vivo; m6A methylation analysis; O-GlcNAcylation assays; osteogenic differentiation assays Stem cells translational medicine Medium 40558384
2025 METTL7A protein has a novel chromatin regulatory function in TKI-resistant lung adenocarcinoma cells: it binds to amplified oncogene loci, regulates cohesin recruitment, and modulates inter-TAD interactions, remodeling the chromatin landscape prior to large-scale copy number gains. METTL7A depletion prevents formation and maintenance of TKI-resistant clones without affecting chromatin structure or proliferation of drug-naïve cells. Chromatin binding assays; cohesin co-localization; Hi-C/inter-TAD interaction analysis; METTL7A depletion in drug-naïve vs. TKI-resistant cells; clone formation assays bioRxivpreprint Low bio_10.1101_2025.01.26.634826
2026 METTL7A directly binds SREBP1 and SCAP (by Co-IP and immunofluorescence), hindering nuclear translocation of SREBP1 and thereby reducing intracellular cholesterol content in colorectal cancer cells. Transcriptomic and proteomic analyses showed METTL7A affects genes in the cholesterol metabolism pathway (FDFT1, SQLE, CYP51A1). Co-immunoprecipitation; immunofluorescence; transcriptomics; proteomics; in situ tumor and spontaneous tumor mouse models Cellular oncology Medium 42009961
2025 TMT1A (METTL7A) inhibits M2 macrophage polarization in lung adenocarcinoma and downregulates PD-L1 expression in LUAD cells. In co-culture experiments, TMT1A knockdown suppressed T cell activation and reduced IFN-γ secretion; in vivo, TMT1A expression promoted CD8+ T cell infiltration. Co-culture experiments with LUAD cells and T cells; in vivo tumor models; functional assays (proliferation, migration); single-cell transcriptome analysis iScience Medium 41541671

Source papers

Stage 0 corpus · 23 papers · ranked by NIH iCite citations
Year Title Journal Citations PMID
2017 DNA methylation of METTL7A gene body regulates its transcriptional level in thyroid cancer. Oncotarget 39 28416772
2021 Methyltransferase-like protein 7A (METTL7A) promotes cell survival and osteogenic differentiation under metabolic stress. Cell death discovery 26 34226523
2024 METTL7A-mediated m6A modification of corin reverses bisphosphonates-impaired osteogenic differentiation of orofacial BMSCs. International journal of oral science 20 38782892
2023 METTL7A (TMT1A) and METTL7B (TMT1B) Are Responsible for Alkyl S-Thiol Methyl Transferase Activity in Liver. Drug metabolism and disposition: the biological fate of chemicals 19 37137720
2023 Evidence Based on an Integrative Analysis of Multi-Omics Data on METTL7A as a Molecular Marker in Pan-Cancer. Biomolecules 18 36830565
2024 The Methyltransferases METTL7A and METTL7B Confer Resistance to Thiol-Based Histone Deacetylase Inhibitors. Molecular cancer therapeutics 16 38151817
2021 miR-6807-5p Inhibited the Odontogenic Differentiation of Human Dental Pulp Stem Cells Through Directly Targeting METTL7A. Frontiers in cell and developmental biology 14 34790668
2023 A Novel Localization of METTL7A in Bergmann Glial Cells in Human Cerebellum. International journal of molecular sciences 7 37176112
2023 Transcriptomic characterization revealed that METTL7A inhibits melanoma progression via the p53 signaling pathway and immunomodulatory pathway. PeerJ 6 37547717
2025 METTL7A improves bovine IVF embryo competence by attenuating oxidative stress†. Biology of reproduction 4 39883095
2025 Laboratory investigation of METTL7A driving MSC osteogenic differentiation through YAP1 translation enhancement via eIF4F recruitment. International endodontic journal 2 39815670
2024 The thiol methyltransferase activity of TMT1A (METTL7A) is conserved across species. Chemico-biological interactions 2 38574836
2025 LINC01123 aggravates cerebral ischemia reperfusion injury by targeting miR-654-5p to upregulate METTL7A. Scientific reports 1 40258931
2025 Mechanosensitive Endothelial METTL7A Regulates Internal m 7 G mRNA Methylation and Protects Against Atherosclerosis. bioRxiv : the preprint server for biology 1 40661507
2024 METTL7A improves bovine IVF embryo competence by attenuating oxidative stress. bioRxiv : the preprint server for biology 1 39763908
2023 The thiol methyltransferase activity of TMT1A (METTL7A) is conserved across species. bioRxiv : the preprint server for biology 1 38076968
2026 Repurposing mebendazole to reprogram oncogenic and tumor-suppressor networks: Multi-cancer insights from ENOX2, MMP2, RASSF1A, WFDC10A and METTL7A. PloS one 0 41886499
2026 METTL7A inhibits progression of colorectal cancer through the SREBP1 / FDFT1 / SQLE / CYP51A1 / cholesterol metabolic pathway. Cellular oncology (Dordrecht, Netherlands) 0 42009961
2025 METTL7A as a New Candidate Biomarker in Gastric Cancer by Genomics and Data-Independent Acquisition Proteomic Analysis. Clinical laboratory 0 40066548
2025 Mettl7a alleviated bone loss in osteoporosis mice by targeting the O-GlcNAcylation of Bsp via m6A methylation. Stem cells translational medicine 0 40558384
2025 The Expression and Clinical Significance of METTL7A in Newly Diagnosed Acute Myeloid Leukemia. Clinical laboratory 0 41078200
2025 USP9X promotes acute myeloid leukemia progression and adriamycin resistance by regulating METTL7A deubiquitination. Cellular signalling 0 41391677
2025 TMT1A inhibits lung adenocarcinoma progression by suppressing M2 macrophage polarization. iScience 0 41541671

Missed literature

Know a paper Affinage missed for TMT1A? Flag it for the maintainers and the community.

No submissions yet.