Suppression of RCAN1 alleviated lipid accumulation and mitochondrial fission in diabetic cardiomyopathy

IF 10.8 1区 医学 Q1 ENDOCRINOLOGY & METABOLISM
Songren Shu , Hao Cui , Zirui Liu , Hang Zhang , Yicheng Yang , Xiao Chen , Zhiwei Zeng , Leilei Du , Mengxia Fu , Ziang Yang , Peizhi Wang , Chuangshi Wang , Huimin Gao , Qiaoxi Yang , Xiaojun Lin , Tianshuo Yang , Zhice Chen , Sijin Wu , Xiaohu Wang , Ruojin Zhao , Jiangping Song
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引用次数: 0

Abstract

Background

Although metabolic disturbance is a characteristic of diabetic cardiomyopathy (DbCM), the detailed pathogenesis of DbCM remains unknown.

Methods

We used a heart transplantation (HTx) cohort to explore the effect of diabetes mellitus on heart failure (HF) progression dependent of myocardium. Microscopic and ultramicroscopic pathology were used to depict the pathological features of human myocardium of DbCM. We performed targeted metabolomics to characterize the metabolic phenotype of human DbCM. Transcriptomics data were analyzed and weighted gene co-expression network analysis was performed to explore the potential upstream regulator for metabolic remodeling of DbCM. In vivo and in vitro experiments were further conducted to demonstrate the therapeutic effects and molecular mechanisms.

Results

DbCM promoted the progression of HF and increased death or HF-rehospitalization after HTx. Lipid accumulation and mitochondrial fission were the obvious pathological features of DbCM myocardium. The concentrations of C14:0-CoA and C16:1-CoA were significantly increased in the myocardium, and they were positively correlated with the accelerated HF progression and RCAN1 expression in DbCM patients. Knockdown of RCAN1 improved cardiac dysfunction, lipid accumulation, and mitochondrial fission in db/db mice. In vitro studies showed that RCAN1 knockdown improved mitochondrial dysfunction in DbCM cardiomyocytes via the RCAN1-p-Drp1 Ser616 axis.

Conclusions

Diabetes is associated with faster progression of HF and causes poor prognosis after HTx, accompanied by metabolic remodeling in the myocardium. Accumulation of long chain acyl-CoA in the myocardium is the metabolic hallmark of human DbCM and is associated with more rapid disease progression for DbCM patients. Upregulation of RCAN1 in the myocardium is associated with the metabolic signatures of DbCM and RCAN1 is a potential therapeutic target for DbCM.

Abstract Image

抑制 RCAN1 可减轻糖尿病心肌病的脂质积累和线粒体分裂。
背景:尽管代谢紊乱是糖尿病心肌病(DbCM)的一个特征,但其详细的发病机制仍不清楚:我们利用心脏移植(HTx)队列来探讨糖尿病对心肌依赖性心力衰竭(HF)进展的影响。我们使用显微镜和超显微镜病理学描绘了 DbCM 人心肌的病理特征。我们进行了靶向代谢组学研究,以描述人类 DbCM 的代谢表型。我们分析了转录组学数据,并进行了加权基因共表达网络分析,以探索 DbCM 代谢重塑的潜在上游调节因子。进一步进行了体内和体外实验,以证明其治疗效果和分子机制:结果:DbCM 促进了心房颤动的进展,增加了心房颤动后的死亡或再住院率。脂质堆积和线粒体裂解是 DbCM 心肌的明显病理特征。C14:0-CoA和C16:1-CoA在心肌中的浓度明显升高,它们与DbCM患者的HF进展加速和RCAN1的表达呈正相关。敲除 RCAN1 可改善 db/db 小鼠的心功能障碍、脂质积累和线粒体分裂。体外研究表明,敲除 RCAN1 可通过 RCAN1-p-Drp1 Ser616 轴改善 DbCM 心肌细胞的线粒体功能障碍:结论:糖尿病与心房颤动的快速进展有关,并导致心房颤动后的不良预后,同时伴有心肌的代谢重塑。心肌中长链酰基-CoA 的积累是人类 DbCM 的代谢特征,与 DbCM 患者疾病进展更快有关。心肌中 RCAN1 的上调与 DbCM 的代谢特征有关,RCAN1 是 DbCM 的潜在治疗靶点。
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来源期刊
Metabolism: clinical and experimental
Metabolism: clinical and experimental 医学-内分泌学与代谢
CiteScore
18.90
自引率
3.10%
发文量
310
审稿时长
16 days
期刊介绍: Metabolism upholds research excellence by disseminating high-quality original research, reviews, editorials, and commentaries covering all facets of human metabolism. Consideration for publication in Metabolism extends to studies in humans, animal, and cellular models, with a particular emphasis on work demonstrating strong translational potential. The journal addresses a range of topics, including: - Energy Expenditure and Obesity - Metabolic Syndrome, Prediabetes, and Diabetes - Nutrition, Exercise, and the Environment - Genetics and Genomics, Proteomics, and Metabolomics - Carbohydrate, Lipid, and Protein Metabolism - Endocrinology and Hypertension - Mineral and Bone Metabolism - Cardiovascular Diseases and Malignancies - Inflammation in metabolism and immunometabolism
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