维生素D3影响2型糖尿病患者肝脏前/抗炎细胞因子和一氧化氮合酶的表达

IF 2.7 4区医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL

Experimental Biology and Medicine Pub Date : 2025-07-24 eCollection Date: 2025-01-01 DOI:10.3389/ebm.2025.10456

Ihor Shymanskyi, Olha Lisakovska, Mykola Veliky, Olha Mezhenska, Vasyl Bilous, Andrii Siromolot, Anna Khomenko, Dmytro Labudzynskyi, Tetyana Horid'ko, Elvira Pasichna

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引用次数: 0

摘要

我们的目的是研究维生素D3 （VD）对2型糖尿病（T2DM）患者肝细胞氧化-亚硝化应激和促/抗炎细胞因子与一氧化氮（NO）形成和NO合成酶（NOS）水平的影响。高脂饮食和单次链脲佐菌素（25 mg/kg b. w）诱导T2DM后，雄性Wistar大鼠分别给予/不给予VD （1000 IU/kg b. w, 30 d）。采用流式细胞术、RT-qPCR、western blotting和ELISA检测氧化应激/炎症和NOS/NO。糖尿病大鼠血清25(OH)D3降低3.3倍，提示其VD缺乏状态。T2DM与活性氧(ROS；与对照组相比，肝组织中髓过氧化物酶（1.7倍）、羰基化（2.8倍）和硝基化（1.7倍）蛋白水平的升高与肝细胞中NO（2.5倍）的产生平行，表明氧化亚硝化应激。NF-κB转录活性升高（1.24倍），促炎细胞因子TNF-α（3.5倍）和IL-1β（2.2倍）mRNA表达增加，抗炎细胞因子IL-4（1.7倍）和IL-10（2.6倍）mRNA表达减轻，TGF-β1表达较对照组升高1.4倍，证实了糖尿病肝脏的低级别炎症。糖尿病肝脏中iNOS和eNOS mrna（分别为2.7倍和3.3倍）和蛋白质（分别为2.1倍和3.2倍）水平较高，NOS活性（1.6倍）也较高。补充VD可恢复25(OH)D3，部分正常化NF-κB转录活性和促/抗炎细胞因子，降低肝细胞ROS/NO和氧化蛋白修饰。而VD对eNOS、IL-10和TGF-β1 mrna无影响。与糖尿病相比，它还导致髓过氧化物酶、eNOS和iNOS蛋白以及NOS活性进一步增加。综上所述，T2DM患者氧化代谢异常与NF-κB/NOS/NO反应增强有关，而VD治疗可通过使促氧化/促炎症过程正常化来部分减弱这种反应。在VD抗氧化活性存在的情况下，NOS表达的持续增加可能会改善肝细胞NO的生物利用度，最终减少t2dm相关的肝损伤。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Vitamin D3 affects liver expression of pro-/anti-inflammatory cytokines and nitric oxide synthases in type 2 diabetes.

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Vitamin D₃ affects liver expression of pro-/anti-inflammatory cytokines and nitric oxide synthases in type 2 diabetes.

Our objective was to study the effect of vitamin D₃ (VD) on hepatocellular oxidative-nitrosative stress and pro/anti-inflammatory cytokines in relation to nitric oxide (NO) formation and NO synthase (NOS) levels in type 2 diabetes mellitus (T2DM). After T2DM induction by high-fat diet and a single streptozotocin injection (25 mg/kg b. w.), male Wistar rats were treated with/without VD (1,000 IU/kg b. w., 30 days). Oxidative stress/inflammation and NOS/NO were assessed by flow cytometry, RT-qPCR, western blotting, and ELISA. A 3.3-fold decrease in serum 25(OH)D₃ was established in diabetic rats, suggesting their VD deficient status. T2DM was associated with excess reactive oxygen species (ROS; 2.4-fold) and NO (2.5-fold) production in hepatocytes paralleled by elevated levels of myeloperoxidase (1.7-fold), carbonylated (2.8-fold) and nitrotyrosylated (1.7-fold) proteins in liver tissue vs. control, indicative of oxidative-nitrosative stress. Low-grade inflammation in diabetic liver was confirmed by increased NF-κB transcriptional activity (1.24-fold) and mRNA expression of proinflammatory cytokines TNF-α (3.5-fold) and IL-1β (2.2-fold) with alleviating mRNAs of anti-inflammatory cytokines IL-4 (1.7-fold) and IL-10 (2.6-fold), while TGF-β1 expression raised 1.4-fold vs. control. Higher iNOS and eNOS mRNAs (2.7- and 3.3-fold, respectively) and protein (2.1- and 3.2-fold, respectively) levels, as well as NOS activity (1.6-fold) were found in diabetic liver. VD supplementation restored 25(OH)D₃, partially normalized NF-κB transcriptional activity and pro/anti-inflammatory cytokines, lowered hepatocellular ROS/NO, and oxidative protein modifications. However, VD had no effect on eNOS, IL-10 and TGF-β1 mRNAs. It also led to a further increase in myeloperoxidase, eNOS and iNOS proteins and NOS activity compared to diabetes. In conclusion, abnormal oxidative metabolism in T2DM is associated with enhanced NF-κB/NOS/NO response, which can be partially attenuated by VD treatment via normalization of pro-oxidative/pro-inflammatory processes. The paradoxical sustained increase in NOS expression in the presence of VD antioxidant activity likely improves hepatocellular NO bioavailability, ultimately reducing T2DM-associated liver injury.

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来源期刊

Experimental Biology and Medicine 医学-医学：研究与实验

CiteScore

6.00

自引率

0.00%

发文量

157

审稿时长

1 months

期刊介绍： Experimental Biology and Medicine (EBM) is a global, peer-reviewed journal dedicated to the publication of multidisciplinary and interdisciplinary research in the biomedical sciences. EBM provides both research and review articles as well as meeting symposia and brief communications. Articles in EBM represent cutting edge research at the overlapping junctions of the biological, physical and engineering sciences that impact upon the health and welfare of the world''s population. Topics covered in EBM include: Anatomy/Pathology; Biochemistry and Molecular Biology; Bioimaging; Biomedical Engineering; Bionanoscience; Cell and Developmental Biology; Endocrinology and Nutrition; Environmental Health/Biomarkers/Precision Medicine; Genomics, Proteomics, and Bioinformatics; Immunology/Microbiology/Virology; Mechanisms of Aging; Neuroscience; Pharmacology and Toxicology; Physiology; Stem Cell Biology; Structural Biology; Systems Biology and Microphysiological Systems; and Translational Research.