NADH intraperitoneal injection prevents massive pancreatic beta cell destruction in a streptozotocin-induced diabetes in rats.

IF 2.1 4区 生物学 Q4 CELL BIOLOGY
Histochemistry and Cell Biology Pub Date : 2024-03-01 Epub Date: 2023-11-09 DOI:10.1007/s00418-023-02253-x
Amina Abdellatif, Karima Bahria, Nada Slama, Dahmane Oukrif, Asem Shalaby, George Birkmayer, Mustapha Oumouna, Karine Benachour
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引用次数: 0

Abstract

Diabetes mellitus is a chronic metabolic disease characterized by persistent hyperglycemia, revealing a decrease in insulin efficiency. The sustained glucotoxic pancreatic microenvironment increases reactive oxygen species generation, resulting in chronic oxidative stress responsible for massive DNA damage. This triggers PARP-1 activation with both NAD+ and ATP depletion, affecting drastically pancreatic beta cells' energy storage and leading to their dysfunction and death. The aim of the present study is to highlight the main histological changes observed in pancreatic islets pre-treated with a unique NADH intraperitoneal injection in a streptozotocin-(STZ)-induced diabetes model. In order to adjust NADH doses, a preliminary study with three different doses, 500 mg/kg, 300 mg/kg, and 150 mg/kg, respectively, was conducted. Subsequently, and on the basis of the results of the aforementioned study, Wistar rats were randomly divided into four groups: non-diabetic control group, diabetics (STZ 45 mg/kg), NADH-treated group (150 mg/kg) 15 min before STZ administration, and NADH-treated group (150 mg/kg) 15 min after STZ administration. The effect of NADH was assessed by blood glucose level, TUNEL staining, histo-morphological analysis, and immunohistochemistry. The optimum protective dose of NADH was 150 mg/kg. NADH effectively decreased hyperglycemia and reduced diabetes induced by STZ. Histologically, NADH pre-treatment revealed a decrease in beta cell death favoring apoptosis over necrosis and therefore preventing inflammation with further beta cell destruction. Our data clearly demonstrate that NADH prior or post-treatment could effectively prevent the deleterious loss of beta cell mass in STZ-induced diabetes in rats and preserve the normal pancreatic islet's function.

Abstract Image

NADH腹腔注射预防链脲佐菌素诱导的大鼠糖尿病中胰腺β细胞的大规模破坏。
糖尿病是一种以持续高血糖为特征的慢性代谢性疾病,表现为胰岛素效率下降。持续的糖毒性胰腺微环境增加了活性氧的产生,导致慢性氧化应激导致大量DNA损伤。这通过NAD+和ATP耗竭触发PARP-1激活,严重影响胰腺β细胞的能量储存,并导致其功能障碍和死亡。本研究的目的是强调在链脲佐菌素(STZ)诱导的糖尿病模型中,用独特的NADH腹膜内注射预处理的胰岛中观察到的主要组织学变化。为了调整NADH的剂量,进行了三种不同剂量的初步研究,分别为500 mg/kg、300 mg/kg和150 mg/kg。随后,基于上述研究的结果,将Wistar大鼠随机分为四组:非糖尿病对照组、糖尿病患者(STZ 45mg/kg)、在STZ给药前15分钟NADH处理组(150mg/kg)和在STZ给予后15分钟NADH-处理组(150 mg/kg)。通过血糖水平、TUNEL染色、组织形态学分析和免疫组织化学来评估NADH的作用。NADH的最佳保护剂量为150 mg/kg。NADH能有效降低STZ引起的高血糖和糖尿病。组织学上,NADH预处理显示β细胞死亡减少,有利于细胞凋亡而非坏死,从而通过进一步的β细胞破坏来预防炎症。我们的数据清楚地表明,NADH在治疗前或治疗后可以有效地防止STZ诱导的大鼠糖尿病中β细胞质量的有害损失,并保持正常的胰岛功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Histochemistry and Cell Biology
Histochemistry and Cell Biology 生物-细胞生物学
CiteScore
4.90
自引率
8.70%
发文量
112
审稿时长
1 months
期刊介绍: Histochemistry and Cell Biology is devoted to the field of molecular histology and cell biology, publishing original articles dealing with the localization and identification of molecular components, metabolic activities and cell biological aspects of cells and tissues. Coverage extends to the development, application, and/or evaluation of methods and probes that can be used in the entire area of histochemistry and cell biology.
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