治疗性血管生成
祖细胞
血管生成
间质细胞
缺血
动员
医学
动脉发生
内皮祖细胞
严重肢体缺血
骨髓
移植
干细胞
细胞生物学
癌症研究
新生血管
心脏病学
生物
免疫学
内科学
血管疾病
动脉疾病
考古
历史
作者
Haixu Chen,Sihan Wang,Jing Zhang,Xiangliang Ren,Rui Zhang,Wei Shi,Yang Lv,Yong Zhou,Xinlong Yan,Lin Chen,Lijuan He,Bowen Zhang,Xue Nan,Wen Yue,Yanhua Li,Xuetao Pei
摘要
Critical limb ischaemia is the most severe clinical manifestation of peripheral arterial disease. The circulating endothelial progenitor cells (EPCs) play important roles in angiogenesis and ischemic tissue repair. The increase of circulating EPC numbers by using mobilization agents is critical for obtaining a better therapeutic outcome in patients with ischemic disease. Here, we firstly report a novel small molecule, Me6TREN (Me6), can efficiently mobilize EPCs into the blood circulation. Single injection of Me6 induced a long-lasting increase in circulating Flk-1+ Sca-1+ EPC numbers. In a mouse hind limb ischemia (HLI) model, local intramuscular transplantation of these Me6-mobilized cells accelerated the blood flow restoration in the ischemic muscles. More importantly, systemic administration of Me6 notably increased the capillary density, arteriole density and regenerative muscle weight in the ischemic tissue of HLI. Mechanistically, we found Me6 reduced stromal cell-derived factor-1α level in bone marrow by up-regulation of matrix metallopeptidase-9 expression, which allowed the dissemination of EPCs into peripheral blood. These data indicate that Me6 may represent a potentially useful therapy for ischemic disease via enhancing autologous EPC recruitment and promote angiogenesis.
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