肌肉肥大
心肌细胞
内科学
生物
内分泌学
转录因子
表观遗传学
糖尿病性心肌病
心力衰竭
细胞生物学
医学
心肌病
基因
遗传学
作者
Yongluan Lin,Lei Lü,Liling Zheng,Shuming Zhong
标识
DOI:10.1161/res.131.suppl_1.p2020
摘要
Proliferation of cardiac myocytes is accompanied by increases in cell mass to maintain myocyte size in fetal heart. In adult cardiac myocytes, cell growth becomes uncoupled from proliferation after growth stimuli, resulting in hypertrophic growth. Both proliferation and hypertrophy growth of cardiac myocytes require more protein synthesis. Brf1 (TF IIB-related factor 1) and Pol III genes (RNA Polymerase III-dependent genes) are the dominant factors of protein produce. Brf1 is a key regulator for Pol III genes. Cardiac hypertrophy is a critical risk factor for cardiovascular disease, including heart failure, arrhythmia, and sudden death. Cardiac hypertrophy involves both the processes of embryonic gene expression and transcriptional reprogramming. The processes are tightly modulated by different signal pathways and epigenetic regulation. Diabetic cardiomyopathy is associated with an increased risk for heart failure and death in patients with diabetes. To explore the molecular mechanism of cardiac hypertrophy, we investigate the alterations of Brf1 and Pol III gene transcription under glucose treatment by using cell culture model and animal model. We have found that glucose increases Brf1 expression and Pol III gene transcription. We identified that these genes are mediated by JNK1, MSK1, pAMPK and phosphorylated histone H3. inhibiting the pathways decrease Brf1 expression, reduce Pol III gene transcription, consequently repression of myocytes growth. It implies that developing an effective inhibitor to repress Brf1 expression may provide a potential approach for the therapy of cardiac hypertrophy. More studies on cardiac hypertrophy are going in our laboratory.
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