Methylglyoxal induces death in human brain neuronal cells (SH-SY5Y), prevented by metformin and dapagliflozin

IF 2.9 3区 医学 Q3 ENDOCRINOLOGY & METABOLISM Journal of diabetes and its complications Pub Date : 2024-08-05 DOI:10.1016/j.jdiacomp.2024.108832
Samantha Victor-Sami, Ali Kamali-Roosta, Yousif A. Shamsaldeen
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Abstract

Diabetes mellitus is a metabolic disorder caused by a dysfunction in insulin action or secretion, leading to an elevation in blood glucose levels. It is a highly prevalent condition and as a result, the NHS spends 10 % of its entire budget on diabetes mellitus care, that is equivalent to £10 billion a year. Diabetes mellitus has been linked with vascular and neurological complications which may be associated with the progression of neurodegeneration and Alzheimer's disease. Chronic hyperglycaemia increases the production of the reactive oxidant species (ROS) such as methylglyoxal (MGO). MGO has been linked with vascular complications, neuropathy and cytotoxicity. The main aim of this study was to investigate the potential beneficial effect of antidiabetic agents such as metformin and dapagliflozin on human brain neuronal cells (SH-SY5Y) treated with MGO. SH-SY5Y cells were cultured in DMEM/F12 media and subjected overnight incubation with one of the following treatment conditions: Control (untreated); MGO (1 μM); MGO (100 μM); metformin (100 μM) + MGO (100 μM); and dapagliflozin (10 μM) + MGO (100 μM). Several assays were conducted to explore the effect of the treatment groups on the SH-SY5Y cells. These included: MTT assay; LDH assay, peroxynitrite fluorescence assay, and laser scanning confocal microscopy. MGO (100 μM) led to significant cell injury and damage and significantly reduced the survival of the cells by approximately 50–75 %, associated with significant increase in peroxynitrite. The addition of metformin (100 μM) or dapagliflozin (10 μM) represented significant protective effects on the cells and prevented the cell damage caused by the high MGO concentration. As a result, the findings of this research reveal that MGO-induced cell damage may partly be mediated by the generation of peroxynitrite, while the antidiabetic agents such as metformin and dapagliflozin prevent brain cell death, which potentially may play prophylactic roles against the risk of dementia in diabetic patients.

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甲基乙二酸诱导人脑神经细胞(SH-SY5Y)死亡,二甲双胍和达帕利洛嗪可阻止其死亡。
糖尿病是由胰岛素作用或分泌功能障碍引起的代谢紊乱,导致血糖水平升高。糖尿病的发病率很高,因此,英国国家医疗服务体系用于糖尿病治疗的费用占其全部预算的 10%,相当于每年 100 亿英镑。糖尿病与血管和神经系统并发症有关,可能与神经变性和阿尔茨海默病的进展有关。长期高血糖会增加活性氧化物(ROS)的产生,如甲基乙二醛(MGO)。MGO 与血管并发症、神经病变和细胞毒性有关。本研究的主要目的是探讨二甲双胍和达帕利洛嗪等抗糖尿病药物对经 MGO 处理的人脑神经细胞(SH-SY5Y)的潜在有益影响。SH-SY5Y 细胞在 DMEM/F12 培养基中培养,并在下列处理条件之一下培养过夜:对照组(未处理);MGO(1 μM);MGO(100 μM);二甲双胍(100 μM)+ MGO(100 μM);达帕利嗪(10 μM)+ MGO(100 μM)。为了探究治疗组对SH-SY5Y细胞的影响,进行了几种试验。这些实验包括MTT试验、LDH试验、过亚硝酸盐荧光试验和激光扫描共聚焦显微镜。二甲双胍(100 μM)会导致严重的细胞损伤,并使细胞存活率显著降低约 50-75%,同时过亚硝酸盐显著增加。添加二甲双胍(100 μM)或达帕利嗪(10 μM)对细胞有明显的保护作用,可防止高浓度 MGO 对细胞造成的损伤。因此,这项研究结果表明,MGO诱导的细胞损伤可能部分是由过氧化亚硝酸盐的生成介导的,而二甲双胍和达帕利洛嗪等抗糖尿病药物可防止脑细胞死亡,这可能对糖尿病患者的痴呆风险起到预防作用。
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来源期刊
Journal of diabetes and its complications
Journal of diabetes and its complications 医学-内分泌学与代谢
CiteScore
5.90
自引率
3.30%
发文量
153
审稿时长
16 days
期刊介绍: Journal of Diabetes and Its Complications (JDC) is a journal for health care practitioners and researchers, that publishes original research about the pathogenesis, diagnosis and management of diabetes mellitus and its complications. JDC also publishes articles on physiological and molecular aspects of glucose homeostasis. The primary purpose of JDC is to act as a source of information usable by diabetes practitioners and researchers to increase their knowledge about mechanisms of diabetes and complications development, and promote better management of people with diabetes who are at risk for those complications. Manuscripts submitted to JDC can report any aspect of basic, translational or clinical research as well as epidemiology. Topics can range broadly from early prediabetes to late-stage complicated diabetes. Topics relevant to basic/translational reports include pancreatic islet dysfunction and insulin resistance, altered adipose tissue function in diabetes, altered neuronal control of glucose homeostasis and mechanisms of drug action. Topics relevant to diabetic complications include diabetic retinopathy, neuropathy and nephropathy; peripheral vascular disease and coronary heart disease; gastrointestinal disorders, renal failure and impotence; and hypertension and hyperlipidemia.
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