海藻糖对GATA4自噬降解和心室重构的作用及机制。

IF 2 4区 医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL
Qiaoying Chai, Wei Zhang, Lijuan Gao, Yingtao Yang, Mengdan Miao, Da Liu, Lixia Chen, Mingqi Zheng, Shuanli Xin
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引用次数: 0

摘要

目的:探讨海藻糖对心肌肥厚的影响及其具体的分子机制。方法:将C57BL/6J雄性小鼠分为4个亚组:假手术亚组(Sham)、假手术阴性亚组(Sham+海藻糖)、主动脉横缩(TAC)和海藻糖治疗亚组(TAC+海藻糖)。TAC术后立即灌胃海藻糖10 mg/kg。4周后,采用超声测量射血分数EF、分数缩短时间FS、等容舒张时间IVRT、心肌功能指数MPI、等容舒张时间常数Tau、左室收缩压LVESP、舒张末期压力-容积关系EDPVR等指标评估心功能变化。Western blotting (WB)检测小鼠心肌组织中自噬相关蛋白(p62、LC3II/I和Beclin-1)和GATA4蛋白的表达。将TAC小鼠心肌细胞分为5组:对照组、海藻糖组、苯肾上腺素组、PE+海藻糖组和PE+海藻糖+自噬抑制剂氯喹组。PE组心肌细胞注射50 μmol/L PE。然后分别用海藻糖(100 μmol/L)、海藻糖(100 μmol/L)+自噬(20 μmol/L)处理细胞24 h。对照组给予等量生理盐水治疗。流式细胞术检测各组心肌细胞凋亡情况。WB检测细胞凋亡和自噬相关蛋白(p62、LC3II/I和Beclin-1)的变化。此外,估计自噬上游GATA4蛋白的水平。WB检测促凋亡蛋白Bad、BAX、Cleaved-caspase-3、抗凋亡蛋白Bcl-2的表达水平。结果:TAC手术显著增强小鼠心肌肥厚、心重比和心肌细胞凋亡(p < 0.05)。海藻糖可显著改善小鼠心肌肥厚、心肌细胞凋亡和心功能下降。此外,它还显著增强小鼠心脏组织自噬(p < 0.05)。在细胞水平上,海藻糖显著降低pe诱导的心肌细胞凋亡,促进心肌细胞Beclin-1和LC3 II/I的蛋白表达,同时显著抑制细胞中p62和GATA4的表达。海藻糖和氯喹治疗的效果明显大于海藻糖组。结论:海藻糖可明显减轻小鼠心肌肥大和压力过载引起的心肌细胞凋亡。海藻糖对增强自噬的心脏保护作用至少部分归因于促进GATA4的自噬降解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Action and Mechanism of Trehalose on GATA4 Autophagy Degradation and Ventricular Remodeling.

Objective: To probe the effect of trehalose on myocardial hypertrophy and its specific molecular mechanism.

Methods: C57BL/6J male mice were divided into four subgroups: Sham operation subgroup (Sham), negative sham subgroup (Sham+Trehalose), transverse aortic constriction (TAC), and trehalose treatment subgroup (TAC+Trehalose). Immediately after the TAC operation, trehalose at a dose of 10 mg/kg was given daily via gavage. After four weeks, changes in cardiac function were evaluated using ultrasound to measure EF (ejection fraction), FS (fractional shortening), IVRT (isovolumic relaxation time), MPI (myocardial performance index), Tau (isovolumic relaxation time constant), LVESP (left ventricular end-systolic pressure), and EDPVR (end-diastolic pressure-volume relationship). The profiles of autophagy-associated proteins (p62, LC3II/I, and Beclin-1) and GATA4 protein in mice myocardial tissues were assessed by Western blotting (WB). Myocardial cells were classified from TAC mice into five groups: Control, Trehalose, Phenylephrine (PE), PE+Trehalose, and PE+Trehalose+autophagy inhibitor chloroquine groups. In the PE group, cardiomyocytes were treated with 50 μmol/L PE. Then, the cells were treated with trehalose (100 μmol/L), trehalose (100 μmol/L)+autophagy (20 μmol/L) for 24 hours respectively. The Control group was treated with the same amount of normal saline. Flow cytometry was utilized to detect myocardial cell apoptosis in each subgroup. The alterations in apoptosis and autophagy-correlated proteins (p62, LC3II/I, and Beclin-1) were assessed by WB. Additionally, the level of GATA4 protein upstream of autophagy was estimated. Furthermore, the expression levels of pro-apoptotic proteins Bad, BAX, Cleaved-caspase-3, and anti-apoptotic protein Bcl-2 were examined by WB.

Results: The TAC operation significantly augmented myocardial hypertrophy, heart weight-to-body weight ratio, and myocardial cell apoptosis in mice (p < 0.05). Trehalose significantly improved cardiac hypertrophy, cardiomyocyte apoptosis, and cardiac function decline in mice. Additionally, it also significantly enhanced autophagy in mouse cardiac tissues (p < 0.05). At the cellular level, trehalose significantly decreased PE-elicited apoptosis and promoted the protein expressions of Beclin-1 and LC3 II/I in cardiomyocytes while significantly dampening the profiles of p62 and GATA4 in cells. The effect of trehalose and chloroquine treatment was significantly greater than that of the trehalose group.

Conclusions: Trehalose significantly abates myocardial hypertrophy and pressure overload-induced cardiomyocyte apoptosis in mice. The cardioprotective effect of trehalose on enhanced autophagy is attributed, at least in part, to the promotion of autophagic degradation of GATA4.

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来源期刊
Discovery medicine
Discovery medicine MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
5.40
自引率
0.00%
发文量
80
审稿时长
6-12 weeks
期刊介绍: Discovery Medicine publishes novel, provocative ideas and research findings that challenge conventional notions about disease mechanisms, diagnosis, treatment, or any of the life sciences subjects. It publishes cutting-edge, reliable, and authoritative information in all branches of life sciences but primarily in the following areas: Novel therapies and diagnostics (approved or experimental); innovative ideas, research technologies, and translational research that will give rise to the next generation of new drugs and therapies; breakthrough understanding of mechanism of disease, biology, and physiology; and commercialization of biomedical discoveries pertaining to the development of new drugs, therapies, medical devices, and research technology.
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