METTL14 promotes intimal hyperplasia through m6A-mediated control of vascular smooth muscle dedifferentiation genes
Grace Chensee, Bob S.L. Lee, Immanuel D. Green, Jessica Tieng, Renhua Song, Natalia Pinello, Quintin Lee, Majid Mehravar, David A. Robinson, Mian Wang, Mary M. Kavurma, Jun Yu, Justin J.L. Wong, Renjing Liu
Grace Chensee, Bob S.L. Lee, Immanuel D. Green, Jessica Tieng, Renhua Song, Natalia Pinello, Quintin Lee, Majid Mehravar, David A. Robinson, Mian Wang, Mary M. Kavurma, Jun Yu, Justin J.L. Wong, Renjing Liu
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Research Article Therapeutics Vascular biology

METTL14 promotes intimal hyperplasia through m6A-mediated control of vascular smooth muscle dedifferentiation genes

Abstract

Vascular smooth muscle cells (VSMCs) possess significant phenotypic plasticity, shifting between a contractile phenotype and a synthetic state for vascular repair/remodeling. Dysregulated VSMC transformation, marked by excessive proliferation and migration, primarily drives intimal hyperplasia. N6-methyladenosine (m6A), the most prevalent RNA modification in eukaryotes, plays a critical role in gene expression regulation; however, its impact on VSMC plasticity is not fully understood. We investigated the changes in m6A modification and its regulatory factors during VSMC phenotypic shifts and their influence on intimal hyperplasia. We demonstrate that METTL14, crucial for m6A deposition, significantly promoted VSMC dedifferentiation. METTL14 expression, initially negligible, was elevated in synthetic VSMC cultures, postinjury neointimal VSMCs, and human restenotic arteries. Reducing Mettl14 levels in mouse primary VSMCs decreased prosynthetic genes, suppressing their proliferation and migration. m6A-RIP-seq profiling showed key VSMC gene networks undergo altered m6A regulation in Mettl14-deficient cells. Mettl14 enhanced Klf4 and Serpine1 expression through increased m6A deposition. Local Mettl14 knockdown significantly curbed neointimal formation after arterial injury, and reducing Mettl14 in hyperplastic arteries halted further neointimal development. We show that Mettl14 is a pivotal regulator of VSMC dedifferentiation, influencing Klf4- and Serpine1-mediated phenotypic conversion. Inhibiting METTL14 is a viable strategy for preventing restenosis and halting restenotic occlusions.

Authors

Grace Chensee, Bob S.L. Lee, Immanuel D. Green, Jessica Tieng, Renhua Song, Natalia Pinello, Quintin Lee, Majid Mehravar, David A. Robinson, Mian Wang, Mary M. Kavurma, Jun Yu, Justin J.L. Wong, Renjing Liu

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Figure 4

Mettl14 knockdown downregulates the expression of m6A-modified mRNAs that control VSMC plasticity.

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Mettl14 knockdown downregulates the expression of m6A-modified mRNAs tha...
(A) Metagene plots showing the distribution of m6A peaks detected using m6A-RIP-seq and their enrichment within the DRACH motifs in primary mouse VSMCs expressing shMettl14-2 and shCtrl. (B) Cytoscape-generated (https://cytoscape.org/) network map showing m6A-modified genes within specific functional pathways that are up- or downregulated in Mettl14-knockdown primary mouse VSMCs (shMettl14-2) compared with control (shCtrl). Up- and downregulated genes are shown in red and green, respectively, and shaded based on the log2(fold change) (log2FC) values. (C) Expression of Klf4 and Serpine1 transcripts in primary mouse VSMCs transduced with virus expressing shMettl14-2 and shCtrl measured using qRT-PCR. (D) Integrative Genome Viewer (https://igv.org) plots showing m6A peaks on Klf4 and Serpine1 mRNAs and the corresponding mRNA expression data in shMettl14-2–transduced primary mouse VSMCs (red) and shCtrl (black). The m6A peaks near stop codons of genes are shown in the orange boxes. (E) Levels of Mettl14 knockdown in cells detected using qRT-PCR at 0, 2, and 4 hours following actinomycin D treatment. (F and G) RNA stability plots for Klf4 and Serpine1 transcripts in Mettl14-knockdown VSMCs compared to controls, with decay trend (dotted lines), half-life (t1/2), and goodness of fit (r2) shown. (H) 4-Thiouridine–labeled (4sU-labeled) nascent RNA transcripts encoded by the Klf4 and Serpine1 genes in Mettl14-knockdown VSMCs compared to controls. Data acquired using qRT-PCR were in triplicate from 3 independent experiments. **P < 0.01; ***P < 0.001; ****P < 0.0001 by unpaired, 2-tailed Student’s t test. Data presented as mean ± SD.