Apoptotic Cell Death in Cardiomyocytes Induced by Hypoxia from Cobalt Chloride Is Hastened by SGLT-1 Inhibition

Q2 Health Professions

Applied In Vitro Toxicology Pub Date : 2023-09-01 DOI:10.1089/aivt.2023.0006

Abhinav Kanwal, Lu Liu, Puneet Kumar Bansal, Hemant Kumar, Shailendra Pratap Singh

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Abstract

Introduction: Myocardial ischemia is responsible for the deaths of millions of people every year. Cardiac hypoxia reduces the efficiency with which the heart muscle pumps blood. When one or more of the coronary arteries abruptly and severely narrows or closes off, this is known as an acute coronary syndrome (ACS). Ischemia of the heart muscle can also cause potentially fatal arrhythmias. More information about this topic is required. Methods: The effects of SGLT-1 inhibition were studied using a different disease model, the cobalt chloride (CoCl2) hypoxia paradigm. The MTT assay was used to examine the effects of CoCl2 with and without Phlorizin (PZ) on glucose uptake, caspase activity, and metabolic/cytotoxic activities in SGLT-1 overexpressed H9C2 cells. Both SGLT-1 siRNA silencing and PZ treatment of SGLT-1 overexpressed neonatal rat cardiomyocytes were studied. Results and Discussion: Using flow cytometry, we were able to distinguish between metabolically active (PI-stained) and inactive (annexin-stained) live cells, as well as apoptotic (annexin-stained) and necrotic (PI-stained) cells. Caspase 3, 9, bcl-2, HIF-1a, and SGLT-1 expression, as well as oxidative stress, were examined using Western blotting. H9C2 cells showed increased caspase 3 and 9 activity in the CoCl2 group compared to the control, and these increases were further amplified by PZ cotreatment. PZ did not counteract CoCl2's effects of decreased glucose absorption and MTT activity. Conclusion: PZ increased cardiomyocyte apoptosis and decreased metabolic quiescent cells. PZ had no effect on the oxidative stress and necrosis that CoCl2 caused. CoCl2-induced SGLT-1 reduction leads to rapid apoptotic cell death.

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抑制SGLT-1可加速氯化钴缺氧诱导心肌细胞凋亡

导读:心肌缺血每年导致数百万人死亡。心源性缺氧降低了心肌泵血的效率。当一个或多个冠状动脉突然严重狭窄或关闭时，这被称为急性冠状动脉综合征(ACS)。心肌缺血也可能导致潜在的致命性心律失常。需要了解有关此主题的更多信息。方法:采用不同的疾病模型——氯化钴(CoCl2)缺氧模式，研究SGLT-1抑制的效果。MTT试验用于检测CoCl2加和不加Phlorizin (PZ)对SGLT-1过表达的H9C2细胞中葡萄糖摄取、半胱天冬酶活性和代谢/细胞毒性活性的影响。研究了SGLT-1 siRNA沉默和PZ对SGLT-1过表达新生大鼠心肌细胞的影响。结果和讨论:使用流式细胞术，我们能够区分代谢活性(pi染色)和无活性(膜联蛋白染色)活细胞，以及凋亡(膜联蛋白染色)和坏死(pi染色)细胞。采用Western blotting检测Caspase 3、9、bcl-2、HIF-1a和SGLT-1的表达以及氧化应激。与对照组相比，CoCl2组H9C2细胞显示caspase 3和caspase 9活性增加，PZ共处理进一步放大了这些增加。PZ不抵消CoCl2降低葡萄糖吸收和MTT活性的影响。结论:PZ增加心肌细胞凋亡，减少代谢静止细胞。PZ对CoCl2引起的氧化应激和坏死无明显影响。cocl2诱导的SGLT-1减少导致细胞快速凋亡。

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来源期刊

Applied In Vitro Toxicology Health Professions-Medical Laboratory Technology

CiteScore

2.70

自引率

0.00%

发文量

期刊介绍： Applied In Vitro Toxicology is a peer-reviewed journal providing the latest research on the application of alternative in vitro testing methods for predicting adverse effects in the pharmaceutical, chemical, and personal care industries. This Journal aims to address important issues facing the various chemical industries, including regulatory requirements; the reduction, refinement, and replacement of animal testing; new screening methods; evaluation of new cell and tissue models; and the most appropriate methods for assessing safety and satisfying regulatory demands. The Journal also delivers the latest views and opinions of developers of new models, end users of the models, academic laboratories that are inventing new tools, and regulatory agencies in the United States, Europe, Latin America, Australia and Asia. Applied In Vitro Toxicology is the journal that scientists involved with hazard identification and risk assessment will read to understand how new and existing in vitro methods are applied, and the questions for which these models provide answers. Applied In Vitro Toxicology coverage includes: -Applied in vitro toxicology industry standards -New technologies developed for applied in vitro toxicology -Data acquisition, cleaning, distribution, and best practices -Data protection, privacy, and policy -Business interests from research to product -The changing role of in vitro toxicology -Visualization and design principles of applied in vitro toxicology infrastructures -Physical interfaces and robotics -Opportunities around applied in vitro toxicology