Regulation of age-associated insulin resistance by MT1-MMP-mediated cleavage of insulin receptor.
Xuanming GuoPallavi AsthanaSusma GurungShuo ZhangSheung Kin Ken WongSamane FallahChi Fung Willis ChowSijia CheLixiang ZhaiZening WangXin GeZhixin JiangJiayan WuYijing ZhangXiaoyu WuKe Yang XuCheng Yuan LinHiu Yee KwanAi-Ping LuZhongjun ZhouZhao-Xiang BianXavier Hoi-Leong WongPublished in: Nature communications (2022)
Insulin sensitivity progressively declines with age. Currently, the mechanism underlying age-associated insulin resistance remains unknown. Here, we identify membrane-bound matrix metalloproteinase 14 (MT1-MMP/MMP14) as a central regulator of insulin sensitivity during ageing. Ageing promotes MMP14 activation in insulin-sensitive tissues, which cleaves Insulin Receptor to suppress insulin signaling. MT1-MMP inhibition restores Insulin Receptor expression, improving insulin sensitivity in aged mice. The cleavage of Insulin Receptor by MT1-MMP also contributes to obesity-induced insulin resistance and inhibition of MT1-MMP activities normalizes metabolic dysfunctions in diabetic mouse models. Conversely, overexpression of MT1-MMP in the liver reduces the level of Insulin Receptor, impairing hepatic insulin sensitivity in young mice. The soluble Insulin Receptor and circulating MT1-MMP are positively correlated in plasma from aged human subjects and non-human primates. Our findings provide mechanistic insights into regulation of insulin sensitivity during physiological ageing and highlight MT1-MMP as a promising target for therapeutic avenue against diabetes.
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