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Modulation of miR29a improves impaired post-ischemic angiogenesis in hyperglycemia.

Exp. Biol. Med. (Maywood). 2017 Aug;242(14):1432-1443. doi:10.1177/1535370217716424. Epub 2017 Jun 21
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摘要


Individuals with diabetes mellitus suffer from impaired angiogenesis and this contributes to poorer peripheral arterial disease outcomes. In experimental peripheral arterial disease, angiogenesis and perfusion recovery are impaired in mice with diabetes. We recently showed that a disintegrin and metalloproteinase domain-containing protein 12 (ADAM12) is upregulated in ischemic endothelial cells and plays a key role in post-ischemic angiogenesis and perfusion recovery following experimental peripheral arterial disease. Here we investigated the role of miR29a in the regulation of endothelial cell ADAM12 expression in ischemia and how hyperglycemia negatively affects this regulation. We also explored whether modulating miR29a can improve impaired post-ischemic angiogenesis associated with hyperglycemia. Additionally, we tested whether miR29a modulation could improve post ischemic angiogenesis in the setting of impaired vascular endothelial growth factor signaling. We forced miR29a expression in ischemic endothelial cells and assessed ADAM12 expression. We also evaluated whether hyperglycemia in vivo and in vitro impair ischemia-induced ADAM12 upregulation and miR29a downregulation. Lastly, we determined whether modulating endothelial cell miR29a expression in ischemia and hyperglycemia could improve impaired endothelial cell functions. We found under ischemic conditions where ADAM12 is upregulated in endothelial cells, miR29a is downregulated. Forced expression of miR29a in ischemic endothelial cell prevented ADAM12 upregulation . In ischemic hind limbs of mice with type 1 diabetes and in endothelial cells exposed to simulated ischemia plus hyperglycemia, ADAM12 upregulation and miR29a downregulation were blunted while angiogenesis was impaired. Knocking down miR29a with an miR29a inhibitor was sufficient to improve ADAM12 upregulation and angiogenesis in simulated ischemia plus hyperglycemia. It was also sufficient to improve perfusion recovery in type 1 diabetes mellitus mice in vivo and angiogenesis in vitro even when vascular endothelial growth factor signaling was impaired with blocking antibodies. In conclusion, MiR29a regulates endothelial cell ADAM12 upregulation in ischemia and this is impaired in hyperglycemia. Modulating miR29a improves impaired post-ischemic angiogenesis associated with hyperglycemia. Impact statement Individuals with diabetes are more likely to develop peripheral arterial disease and when is present, in those with diabetes, it is more severe and there is currently no effective medical treatment for impaired blood flow which occurs in diabetics with The current work advances the field by providing an understanding of a molecular mechanism involved in impaired post ischemic angiogenesis in diabetes. It shows for the first time that failure to downregulate miR29a in ischemic diabetic tissues is a major contributing factor to poor perfusion recovery in experimental and miR29a is elevated in skeletal muscle samples from human diabetics compared with levels in those without diabetes. Knocking down the elevated miR29a in ischemic diabetic mouse hind limbs improved perfusion recovery following experimental duanyu1563. This shows miR29a modulation as a novel therapeutic target for improving blood flow in diabetics with

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