The lncRNA MIAT regulates CPT-1a mediated cardiac hypertrophy through m 6 A RNA methylation reading protein Ythdf2.
Yiqing YangMuisha B MbikyoJunzhe ZhangYuan ZhangNaijin ZhangZhao LiPublished in: Cell death discovery (2022)
Pathological cardiac hypertrophy is a key contributor in heart failure (HF). Long non-coding RNAs (lncRNAs) and N 6 -methyladenosine (m 6 A) modification play a vital role in cardiac hypertrophy respectively. Nevertheless, the interaction between lncRNA and m 6 A methylase in cardiac hypertrophy is scarcely reported. Here, we constructed a cardiac hypertrophy mouse model by transverse aortic constriction (TAC) surgery and H9c2 cell model by stimulating with AngII. We found that lncRNA MIAT mRNA level, and m 6 A RNA methylation reading protein Ythdf2 mRNA and protein levels, were significantly increased in the cardiac hypertrophy model both in vivo and vitro. MIAT or Ythdf2 overexpression aggravated cardiac hypertrophy, and vice versa. Through bioinformatics prediction, western blotting, FISH, RNA pull-down, and RIP, we found that MIAT bound to Ythdf2 and regulated its expression. Furthermore, we discovered that Ythdf2 function was a downstream of MIAT in cardiac hypertrophy. Finally, we found that MIAT was a necessary regulator of cardiac hypertrophy due to its regulation of the Ythdf2/PPARα/CPT-1a axis. This study indicated a new hypertrophic signaling pathway: MIAT/Ythdf2/PPARα/CPT-1a. The results provided a new understanding of the MIAT and m 6 A RNA methylation reading protein, Ythdf2, function and mechanism in cardiac hypertrophy and highlighted the potential therapeutic benefits in the heart.
Keyphrases
- long non coding rna
- heart failure
- binding protein
- poor prognosis
- protein protein
- signaling pathway
- mouse model
- dna methylation
- working memory
- left ventricular
- minimally invasive
- nucleic acid
- insulin resistance
- stem cells
- gene expression
- south africa
- pulmonary artery
- epithelial mesenchymal transition
- cell proliferation
- single cell
- neuropathic pain
- coronary artery
- cell therapy
- acute heart failure
- acute coronary syndrome
- percutaneous coronary intervention
- pulmonary arterial hypertension
- spinal cord injury
- adipose tissue
- fatty acid
- genome wide identification