CD2AP in mouse and human podocytes controls a proteolytic program that regulates cytoskeletal structure and cellular survival

Suma Yaddanapudi; Mehmet M. Altintas; Andreas D. Kistler; Isabel Cuesta Fernández; Clemens Möller; Changli Wei; Vasil Peev; Jan Flesche; Anna-Lena Forst; Jing Li; Jaakko Patrakka; Zhijie Xiao; Florian Grahammer; Mario Schiffer; Tobias Lohmüller; Thomas Reinheckel; Changkyu Gu; Tobias B. Huber; Wenjun Ju; Markus Bitzer; Maria Pia Rastaldi; Phillip Ruiz; Karl Tryggvason; Andréy S. Shaw; Christian Faul; Sanja Sever; Jochen Reiser

doi:10.1172/jci58552

CD2AP in mouse and human podocytes controls a proteolytic program that regulates cytoskeletal structure and cellular survival

Suma Yaddanapudi(Harvard University Press), Mehmet M. Altintas(University of Miami), Andreas D. Kistler(University of Miami), Isabel Cuesta Fernández(University of Miami), Clemens Möller(Harvard University Press), Changli Wei(University of Miami), Vasil Peev(University of Miami), Jan Flesche(Harvard University Press), Anna-Lena Forst(University of Miami), Jing Li(University of Miami), Jaakko Patrakka(Karolinska Institutet), Zhijie Xiao(Karolinska Institutet), Florian Grahammer(University of Freiburg), Mario Schiffer(Medizinische Hochschule Hannover), Tobias Lohmüller(University of Freiburg), Thomas Reinheckel(University of Freiburg), Changkyu Gu(Harvard University Press), Tobias B. Huber(University of Freiburg), Wenjun Ju(University of Michigan), Markus Bitzer(University of Michigan), Maria Pia Rastaldi(Fondazione IRCCS Ca' Granda Ospedale Maggiore Policlinico), Phillip Ruiz(University of Miami), Karl Tryggvason(Karolinska Institutet), Andréy S. Shaw(Howard Hughes Medical Institute), Christian Faul(University of Miami), Sanja Sever(Harvard University Press), Jochen Reiser(University of Miami)

Journal of Clinical Investigation

September 12, 2011

10.1172/jci58552

Cited by 143Open Access

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Abstract

Kidney podocytes are highly differentiated epithelial cells that form interdigitating foot processes with bridging slit diaphragms (SDs) that regulate renal ultrafiltration. Podocyte injury results in proteinuric kidney disease, and genetic deletion of SD-associated CD2-associated protein (CD2AP) leads to progressive renal failure in mice and humans. Here, we have shown that CD2AP regulates the TGF-β1-dependent translocation of dendrin from the SD to the nucleus. Nuclear dendrin acted as a transcription factor to promote expression of cytosolic cathepsin L (CatL). CatL proteolyzed the regulatory GTPase dynamin and the actin-associated adapter synaptopodin, leading to a reorganization of the podocyte microfilament system and consequent proteinuria. CD2AP itself was proteolyzed by CatL, promoting sustained expression of the protease during podocyte injury, and in turn increasing the apoptotic susceptibility of podocytes to TGF-β1. Our study identifies CD2AP as the gatekeeper of the podocyte TGF-β response through its regulation of CatL expression and defines a molecular mechanism underlying proteinuric kidney disease.

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