Fatty acid β-oxidation and mitochondrial fusion are involved in cardiac microvascular endothelial cell protection induced by glucagon receptor antagonism in diabetic mice.

IF 3 2区 医学 Q2 ENDOCRINOLOGY & METABOLISM Journal of Diabetes Pub Date : 2023-12-01 Epub Date: 2023-08-19 DOI:10.1111/1753-0407.13458
Peng Wang, Rui Wei, Xiaona Cui, Zongzhe Jiang, Jin Yang, Lingyun Zu, Tianpei Hong
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Abstract

Introduction: The role of cardiac microvascular endothelial cells (CMECs) in diabetic cardiomyopathy is not fully understood. We aimed to investigate whether a glucagon receptor (GCGR) monoclonal antibody (mAb) ameliorated diabetic cardiomyopathy and clarify whether and how CMECs participated in the process.

Research design and methods: The db/db mice were treated with GCGR mAb or immunoglobulin G (as control) for 4 weeks. Echocardiography was performed to evaluate cardiac function. Immunofluorescent staining was used to determine microvascular density. The proteomic signature in isolated primary CMECs was analyzed by using tandem mass tag-based quantitative proteomic analysis. Some target proteins were verified by using western blot.

Results: Compared with db/m mice, cardiac microvascular density and left ventricular diastolic function were significantly reduced in db/db mice, and this reduction was attenuated by GCGR mAb treatment. A total of 199 differentially expressed proteins were upregulated in db/db mice versus db/m mice and downregulated in GCGR mAb-treated db/db mice versus db/db mice. The enrichment analysis demonstrated that fatty acid β-oxidation and mitochondrial fusion were the key pathways. The changes of the related proteins carnitine palmitoyltransferase 1B, optic atrophy type 1, and mitofusin-1 were further verified by using western blot. The levels of these three proteins were upregulated in db/db mice, whereas this upregulation was attenuated by GCGR mAb treatment.

Conclusion: GCGR antagonism has a protective effect on CMECs and cardiac diastolic function in diabetic mice, and this beneficial effect may be mediated via inhibiting fatty acid β-oxidation and mitochondrial fusion in CMECs.

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脂肪酸β氧化和线粒体融合参与了胰高血糖素受体拮抗剂诱导的糖尿病小鼠心脏微血管内皮细胞保护。
导言:心脏微血管内皮细胞(CMECs)在糖尿病心肌病中的作用尚不完全清楚。我们旨在研究胰高血糖素受体(GCGR)单克隆抗体(mAb)是否能改善糖尿病心肌病,并明确CMECs是否以及如何参与了这一过程:用 GCGR mAb 或免疫球蛋白 G(作为对照)治疗 db/db 小鼠 4 周。进行超声心动图检查以评估心脏功能。免疫荧光染色用于确定微血管密度。使用基于串联质量标签的定量蛋白质组分析方法分析了分离的原发性 CMECs 中的蛋白质组特征。一些靶蛋白通过 Western 印迹进行了验证:结果:与db/m小鼠相比,db/db小鼠的心脏微血管密度和左心室舒张功能显著降低,GCGR mAb治疗可减轻这种降低。db/db小鼠与db/m小鼠相比,共有199个差异表达蛋白上调,而GCGR mAb处理的db/db小鼠与db/db小鼠相比,则有199个差异表达蛋白下调。富集分析表明,脂肪酸β氧化和线粒体融合是关键通路。相关蛋白肉碱棕榈酰基转移酶1B、视神经萎缩1型和丝裂蛋白-1的变化通过Western印迹得到了进一步验证。这三种蛋白的水平在 db/db 小鼠中上调,而 GCGR mAb 治疗可减轻这种上调:结论:GCGR 拮抗剂对糖尿病小鼠的 CMECs 和心脏舒张功能有保护作用,这种有益作用可能是通过抑制 CMECs 中的脂肪酸 β 氧化和线粒体融合介导的。
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来源期刊
Journal of Diabetes
Journal of Diabetes ENDOCRINOLOGY & METABOLISM-
CiteScore
6.50
自引率
2.20%
发文量
94
审稿时长
>12 weeks
期刊介绍: Journal of Diabetes (JDB) devotes itself to diabetes research, therapeutics, and education. It aims to involve researchers and practitioners in a dialogue between East and West via all aspects of epidemiology, etiology, pathogenesis, management, complications and prevention of diabetes, including the molecular, biochemical, and physiological aspects of diabetes. The Editorial team is international with a unique mix of Asian and Western participation. The Editors welcome submissions in form of original research articles, images, novel case reports and correspondence, and will solicit reviews, point-counterpoint, commentaries, editorials, news highlights, and educational content.
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