以线粒体为靶点的埃斯库莱汀给药可改善胰岛素抵抗和高血糖诱导的 db/db 小鼠动脉粥样硬化。

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-05-17 DOI:10.1007/s00109-024-02449-1
Gajalakshmi Singuru, Sriravali Pulipaka, Altab Shaikh, Shashikanta Sahoo, Aruna Jangam, Rajamannar Thennati, Srigiridhar Kotamraju
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引用次数: 0

摘要

高血糖(HG)和 HG 相关动脉粥样硬化的发生和发展会因线粒体产生的 ROS 失调导致的线粒体功能障碍而加剧。我们最近合成了一种新型的线粒体靶向埃斯库莱汀(Mito-Esc),并测试了其在减轻 HG 诱导的 db/db 小鼠动脉粥样硬化方面的剂量反应疗效。与辛伐他汀和吡格列酮相比,Mito-Esc能显著降低体重并改善糖稳态,这可能是通过减少肝糖原生成实现的,糖原含量、非酯化游离脂肪酸(NEFA)水平和果糖1,6-二磷酸酶(FBPase)活性的降低就表明了这一点。有趣的是,Mito-Esc 通过调节磷酸-IRS 和磷酸-AKT 水平,大大改善了棕榈酸酯诱导的胰岛素抵抗,从而增强了脂肪细胞和 HepG2 细胞对葡萄糖的摄取。同样重要的是,服用 Mito-Esc 还能防止 HG 诱导的降主动脉粥样斑块形成和脂质堆积。此外,服用 Mito-Esc 还能抑制 HG 引起的主动脉组织中 VACM、ICAM 和 MAC3 水平的升高,并减少血清中的促炎细胞因子和衰老标志物。与此相一致的是,Mito-Esc 通过激活 AMPK-SIRT1 通路,显著抑制了单核细胞对经高糖处理的人主动脉内皮细胞(HAECs)的粘附,并减少了高糖诱导的 HAECs 早衰。相比之下,在 AMPK/SIRT1 缺失的条件下,Mito-Esc 无法调节高血糖诱导的内皮细胞衰老。总之,Mito-Esc 在缓解高血糖诱导的胰岛素抵抗及相关动脉粥样硬化方面的疗效部分是通过增强 AMPK-SIRT1 轴介导的。关键信息:服用 Mito-Esc 能明显减轻糖尿病诱发的动脉粥样硬化。米托-艾司可改善高血糖(HG)相关的胰岛素抵抗。Mito-Esc 可抑制 HG 诱导的主动脉血管衰老和炎症。Mito-Esc 介导的 AMPK-SIRT1 轴激活调节了 HG 诱导的内皮细胞衰老。
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Mitochondria targeted esculetin administration improves insulin resistance and hyperglycemia-induced atherosclerosis in db/db mice.

The development and progression of hyperglycemia (HG) and HG-associated atherosclerosis are exacerbated by mitochondrial dysfunction due to dysregulated mitochondria-derived ROS generation. We recently synthesized a novel mitochondria-targeted esculetin (Mito-Esc) and tested its dose-response therapeutic efficacy in mitigating HG-induced atherosclerosis in db/db mice. In comparison to simvastatin and pioglitazone, Mito-Esc administration resulted in a considerable reduction in body weights and improved glucose homeostasis, possibly by reducing hepatic gluconeogenesis, as indicated by a reduction in glycogen content, non-esterified free fatty acids (NEFA) levels, and fructose 1,6-bisphosphatase (FBPase) activity. Interestingly, Mito-Esc treatment, by regulating phospho-IRS and phospho-AKT levels, greatly improved palmitate-induced insulin resistance, resulting in enhanced glucose uptake in adipocytes and HepG2 cells. Also, and importantly, Mito-Esc administration prevented HG-induced atheromatous plaque formation and lipid accumulation in the descending aorta. In addition, Mito-Esc administration inhibited the HG-mediated increase in VACM, ICAM, and MAC3 levels in the aortic tissue, as well as reduced the serum pro-inflammatory cytokines and markers of senescence. In line with this, Mito-Esc significantly inhibited monocyte adherence to human aortic endothelial cells (HAECs) treated with high glucose and reduced high glucose-induced premature senescence in HAECs by activating the AMPK-SIRT1 pathway. In contrast, Mito-Esc failed to regulate high glucose-induced endothelial cell senescence under AMPK/SIRT1-depleted conditions. Together, the therapeutic efficacy of Mito-Esc in the mitigation of hyperglycemia-induced insulin resistance and the associated atherosclerosis is in part mediated by potentiating the AMPK-SIRT1 axis. KEY MESSAGES: Mito-Esc administration significantly mitigates diabetes-induced atherosclerosis. Mito-Esc improves hyperglycemia (HG)-associated insulin resistance. Mito-Esc inhibits HG-induced vascular senescence and inflammation in the aorta. Mito-Esc-mediated activation of the AMPK-SIRT1 axis regulates HG-induced endothelial cell senescence.

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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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