The podocyte-specific knockout of palladin in mice with a 129 genetic background affects podocyte morphology and the expression of palladin interacting proteins

Abstract: Proper and size selective blood filtration in the kidney depends on an intact morphology of podocyte foot processes. Effacement of interdigitating podocyte foot processes in the glomeruli causes a leaky filtration barrier resulting in proteinuria followed by the development of chronic kidney diseases. Since the function of the filtration barrier is depending on a proper actin cytoskeleton, we studied the role of the important actin-binding protein palladin for podocyte morphology. Podocyte-specific palladin kn… Show more

“…Nephrocyte-specific knockdown of Lasp in Drosophila melanogaster showed reduced number of slit membranes and mislocalization of F-actin [ 61 ]. This is in agreement with a second study by Artelt et al, showing that a podocyte-specific knockdown of Palladin, a LASP1 binding partner along actin stress fibers [ 62 ], leads to a decreased pLasp1 phosphorylation and morphological deviations like an enlarged sub-podocyte space [ 63 ].…”

LASP1 in Cellular Signaling and Gene Expression: More than Just a Cytoskeletal Regulator

“…Nephrocyte-specific knockdown of Lasp in Drosophila melanogaster showed reduced number of slit membranes and mislocalization of F-actin [ 61 ]. This is in agreement with a second study by Artelt et al, showing that a podocyte-specific knockdown of Palladin, a LASP1 binding partner along actin stress fibers [ 62 ], leads to a decreased pLasp1 phosphorylation and morphological deviations like an enlarged sub-podocyte space [ 63 ].…”

LASP1 in Cellular Signaling and Gene Expression: More than Just a Cytoskeletal Regulator