动力素
足细胞
组织蛋白酶L
细胞生物学
组织蛋白酶
生物
组织蛋白酶D
蛋白尿
肾
化学
内吞作用
生物化学
内分泌学
酶
细胞
作者
Sanja Sever,Mehmet M. Altintas,Sharif R. Nankoe,Clemens Möller,David Ko,Changli Wei,Joel Henderson,Elisabetta C. del Re,L. Hsing,Ann H. Erickson,Clemens D. Cohen,Matthias Kretzler,Dontscho Kerjaschki,Alexander Y. Rudensky,Boris Nikolic,Jochen Reiser
摘要
Kidney podocytes and their foot processes maintain the ultrafiltration barrier and prevent urinary protein loss (proteinuria). Here we show that the GTPase dynamin is essential for podocyte function. During proteinuric kidney disease, induction of cytoplasmic cathepsin L leads to cleavage of dynamin at an evolutionary conserved site, resulting in reorganization of the podocyte actin cytoskeleton and proteinuria. Dynamin mutants that lack the cathepsin L site, or render the cathepsin L site inaccessible through dynamin self-assembly, are resistant to cathepsin L cleavage. When delivered into mice, these mutants restored podocyte function and resolve proteinuria. Our study identifies dynamin as a critical regulator of renal permselectivity that is specifically targeted by proteolysis under pathological conditions.
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