二甲双胍介导的实验性腹主动脉瘤抑制的机制和疗效

Q3 Medicine
Baohui Xu MD, PhD , Gang Li MD, PhD , Yankui Li MD, PhD , Hongping Deng MD, PhD , Anna Cabot BS , Jia Guo MD, PhD , Makoto Samura MD, PhD , Xiaoya Zheng MD, PhD , Tiffany Chen BS , Sihai Zhao MD, PhD , Naoki Fujimura MD, PhD , Ronald L. Dalman MD
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引用次数: 2

摘要

目的:甲双胍治疗糖尿病患者实验性腹主动脉瘤(AAA)的形成,降低临床AAA直径增大。二甲双胍介导的动脉瘤抑制机制及其在抑制已建立的实验性动脉瘤中的有效性仍不确定。方法采用猪胰弹性酶主动脉内灌注法,在雄性C57BL/6J小鼠腹腔内制造实验性AAAs。在AAA诱导后的第4天,每天分别给药二甲双胍单独(250 mg/kg),或二甲双胍联合5 ' amp活化的蛋白激酶(AMPK)拮抗剂化合物C (10 mg/kg)。进一步的AAA队列接受AMPK激动剂AICA核苷(500 mg/kg)作为阳性,或载体(生理盐水)作为阴性对照。在牺牲时,通过连续的体内超声检查和组织病理学来评估所有组的AAA进展。流式细胞术检测细胞因子生成T细胞和髓细胞结构。结果与生理盐水对照组相比,二甲双胍在治疗开始后3天(−85%)和10天(−68%)限制了已建立的实验性AAA进展。同时使用复方C治疗可使这种效果降低约50%。在二甲双胍治疗的小鼠中,与对照组相比,AAA进展的减少与相对弹性蛋白保存、平滑肌细胞保存、壁白细胞浸润和新生血管生成的减少有关。二甲双胍还导致动脉瘤小鼠脾T细胞产生的干扰素-γ-减少,但白细胞介素-10或-17没有减少。此外,二甲双胍治疗增加了循环和脾炎性单核细胞(CD11b+ ly - 6高),但没有增加中性粒细胞(CD11b+Ly-6G+),对各自的骨髓细胞群没有影响。结论二甲双胍治疗抑制实验性AAA进展,部分是通过AMPK激动剂活性,限制产生干扰素γ的T细胞分化,同时增强循环和脾炎性单核细胞保留。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Mechanisms and efficacy of metformin-mediated suppression of established experimental abdominal aortic aneurysms

Mechanisms and efficacy of metformin-mediated suppression of established experimental abdominal aortic aneurysms

Mechanisms and efficacy of metformin-mediated suppression of established experimental abdominal aortic aneurysms

Mechanisms and efficacy of metformin-mediated suppression of established experimental abdominal aortic aneurysms

Objective

Metformin treatment attenuates experimental abdominal aortic aneurysm (AAA) formation, as well as reduces clinical AAA diameter enlargement in patients with diabetes. The mechanisms of metformin-mediated aneurysm suppression, and its efficacy in suppressing established experimental aneurysms, remain uncertain.

Methods

Experimental AAAs were created in male C57BL/6J mice via intra-aortic infusion of porcine pancreatic elastase. Metformin alone (250 mg/kg), or metformin combined with the 5′ AMP-activated protein kinase (AMPK) antagonist Compound C (10 mg/kg), were administered to respective mouse cohorts daily beginning 4 days following AAA induction. Further AAA cohorts received either the AMPK agonist AICA riboside (500 mg/kg) as positive, or vehicle (saline) as negative, controls. AAA progression in all groups was assessed via serial in vivo ultrasonography and histopathology at sacrifice. Cytokine-producing T cells and myeloid cellularity were determined by flow cytometric analyses.

Results

Metformin limited established experimental AAA progression at 3 (−85%) and 10 (−68%) days following treatment initiation compared with saline control. Concurrent Compound C treatment reduced this effect by approximately 50%. In metformin-treated mice, reduced AAA progression was associated with relative elastin preservation, smooth muscle cell preservation, and reduced mural leukocyte infiltration and neoangiogenesis compared with vehicle control group. Metformin also resulted in reduced interferon-γ-, but not interleukin-10 or -17, producing splenic T cells in aneurysmal mice. Additionally, metformin therapy increased circulating and splenic inflammatory monocytes (CD11b+Ly-6Chigh), but not neutrophils (CD11b+Ly-6G+), with no effect on respective bone marrow cell populations.

Conclusions

Metformin treatment suppresses existing experimental AAA progression in part via AMPK agonist activity, limiting interferon-γ-producing T cell differentiation while enhancing circulating and splenic inflammatory monocyte retention.

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