Nephrin ectodomain engagement results in Src kinase activation, nephrin phosphorylation, Nck recruitment, and actin polymerization
Rakesh Verma, … , Kevin Patrie, Lawrence B. Holzman
Rakesh Verma, … , Kevin Patrie, Lawrence B. Holzman
Published May 1, 2006
Citation Information: J Clin Invest. 2006;116(5):1346-1359. https://doi.org/10.1172/JCI27414.
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Research Article Nephrology

Nephrin ectodomain engagement results in Src kinase activation, nephrin phosphorylation, Nck recruitment, and actin polymerization

Abstract

A properly established and maintained podocyte intercellular junction, or slit diaphragm, is a necessary component of the selective permeability barrier of the kidney glomerulus. The observation that mutation or deletion of the slit diaphragm transmembrane protein nephrin results in failure of podocyte foot process morphogenesis and concomitant proteinuria first suggested the hypothesis that nephrin serves as a component of a signaling complex that directly integrates podocyte junctional integrity with cytoskeletal dynamics. The observations made herein provide the first direct evidence to our knowledge for a phosphorylation-mediated signaling mechanism by which this integrative function is derived. Our data support the model that during podocyte intercellular junction formation, engagement of the nephrin ectodomain induces transient Fyn catalytic activity that results in nephrin phosphorylation on specific nephrin cytoplasmic domain tyrosine residues. We found that this nephrin phosphorylation event resulted in recruitment of the SH2–SH3 domain–containing adapter protein Nck and assembly of actin filaments in an Nck-dependent fashion. Considered in the context of the role of nephrin family proteins in other organisms and the integral relationship of actin dynamics and junction formation, these observations establish a function for nephrin in regulating actin cytoskeletal dynamics.

Authors

Rakesh Verma, Iulia Kovari, Abdul Soofi, Deepak Nihalani, Kevin Patrie, Lawrence B. Holzman

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Figure 9

Clustering of CD16 chimeric proteins and induction of tyrosine phosphorylation on clustered CD16/7/nephrinCD (CD16/7/NCD).

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Clustering of CD16 chimeric proteins and induction of tyrosine phosphory...
(A) Schematic representation of CD16 fusion proteins prepared for these experiments. (B) Confocal microscopy imaging of NIH 3T3 cells expressing the CD16/7/GFP fusion protein before and after addition to media of live cells of anti-CD16 antibody and rhodamine-conjugated anti-IgG antibody. In the merged image at right, rhodamine IgG (red) and GFP (green) colocalized (yellow) on the plasma membrane, demonstrating clustering of the CD16/7/GFP chimeric protein. Note absence of clusters where anti-CD16 antibody was not present. Magnification, ×600. (C) NIH 3T3 cells expressing CD16/7/nephrinCD were treated with clustering antibodies (1° + 2° Ab) or as indicated for the time periods shown, then immunoblotted with P-nephrin antibody to detect phosphorylation of Y1191 and Y1208. Pretreatment of cells with PP2 blocked tyrosine phosphorylation on these sites following induction of clusters.