Activation of the LKB1/AMPK/HIF-1α Pathway by Metformin to Promote Neovascularisation in Cerebral Ischaemia

IF 3.7 3区 医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Hongguang Chen, Yuting Yuan, Yue Zhang, Xiufen Liu, Qingjie Chen, Chao Liu, Qing Yao
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引用次数: 0

Abstract

As a difficult-to-treat neurological condition, cerebral ischemia is currently limited to treatments such as intravenous recombinant tissue plasminogen activator thrombolysis and thrombectomy. Metformin, a potent antidiabetic drug, has been reported to have an independent function in enhancing the prognosis of stroke patients, in addition to its glucose-lowering effects. However, the mechanism of action of metformin in this context remains unclear. In vivo, a rat model of permanent middle cerebral artery occlusion was established, and after administration of a low dose of 10.5 mg/mL metformin, infarct area was measured by TTC staining, and cortical blood flow was determined by laser Doppler imaging. In vitro, the study established human umbilical vein endothelial cells treated with cobalt chloride. Immunofluorescence, immunohistochemistry, and Western blot experiments were performed to observe the expression of angiogenic factors, tight junction proteins, and apoptotic factors. A TUNEL assay was utilized to appraise cell death by apoptosis. A tube formation assay and scratch assay were conducted to determine the endothelial neovascularization status. Animal experiments have revealed that the administration of the AMPK activator metformin significantly reduced the infarct area, promoted the expression of angiogenic factors, and maintained the stability of tight junction proteins in endothelial cells. Moreover, metformin reduces nerve cells apoptosis by affecting the expression of the apoptotic protein cleaved-caspase3 via the HIF-1α pathway. In vitro, the LKB1/AMPK signaling pathway is activated after hypoxic stimulation, attaining its peak within the early stages of hypoxia (1–12 h) and gradually weakening thereafter. The administration of AMPK pharmacological agonists (between 36 and 48 h) can enhance AMPK activity, which can lead to the expression of angiogenic factors, maintain the stability of tight-junction proteins in endothelial cells, and facilitate endothelial cell migration and vascular structure formation. Conversely, the AMPK inhibitors exert the opposite effects. The activation of the LKB1/AMPK/HIF-1α signaling pathway by metformin in cerebral ischemia contributes to angiogenesis, promotes tissue repair in the injured area, and enhances neurologically functional symptoms.

Abstract Image

二甲双胍激活 LKB1/AMPK/HIF-1α 通路促进脑缺血中的血管新生
脑缺血是一种难以治疗的神经系统疾病,目前的治疗方法仅限于静脉注射重组组织纤溶酶原激活剂溶栓和血栓切除术。据报道,二甲双胍是一种强效抗糖尿病药物,除降糖作用外,还具有改善脑卒中患者预后的独立功能。然而,二甲双胍在这方面的作用机制仍不清楚。在体内,研究人员建立了大鼠永久性大脑中动脉闭塞模型,在给予低剂量 10.5 毫克/毫升二甲双胍后,通过 TTC 染色测量梗死面积,并通过激光多普勒成像测定皮质血流量。在体外,研究建立了用氯化钴处理的人脐静脉内皮细胞。通过免疫荧光、免疫组织化学和 Western 印迹实验观察血管生成因子、紧密连接蛋白和凋亡因子的表达。利用 TUNEL 试验评估细胞凋亡。通过管形成试验和划痕试验来确定内皮新生血管的状况。动物实验显示,服用 AMPK 激活剂二甲双胍可显著缩小梗死面积,促进血管生成因子的表达,并维持内皮细胞中紧密连接蛋白的稳定性。此外,二甲双胍还能通过HIF-1α途径影响凋亡蛋白裂解-caspase3的表达,从而减少神经细胞凋亡。在体外,LKB1/AMPK 信号通路在缺氧刺激后被激活,在缺氧早期(1-12 小时)达到峰值,之后逐渐减弱。给予 AMPK 药物激动剂(36 至 48 h)可增强 AMPK 活性,从而导致血管生成因子的表达,维持内皮细胞中紧密连接蛋白的稳定性,促进内皮细胞迁移和血管结构的形成。相反,AMPK 抑制剂则会产生相反的作用。二甲双胍对脑缺血患者 LKB1/AMPK/HIF-1α 信号通路的激活有助于血管生成,促进损伤区域的组织修复,并改善神经功能症状。
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来源期刊
Neurochemical Research
Neurochemical Research 医学-神经科学
CiteScore
7.70
自引率
2.30%
发文量
320
审稿时长
6 months
期刊介绍: Neurochemical Research is devoted to the rapid publication of studies that use neurochemical methodology in research on nervous system structure and function. The journal publishes original reports of experimental and clinical research results, perceptive reviews of significant problem areas in the neurosciences, brief comments of a methodological or interpretive nature, and research summaries conducted by leading scientists whose works are not readily available in English.
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