Out on a LIM: chronic kidney disease, podocyte phenotype and the Wilm's tumor interacting protein (WTIP).

Normal function of the glomerular filtration barrier requires wild-type differentiation of the highly specialized glomerular epithelial cell, the podocyte. Podocytes express three distinct domains, consisting of a cell body, primary processes, and secondary foot processes (FP). These FP express slit diaphragms, which are highly specialized cell-cell contacts critical for filtration-barrier function. Foot processes are dynamic structures that reorganize within minutes through actin cytoskeletal rearrangement. Glomerular diseases are characterized by a persistent simplification in podocyte domain structure with loss of FP, a phenotype described as FP effacement. The generation of such phenotypic plasticity requires that signaling pathways in subcellular compartments be integrated dynamically for a cell to respond appropriately to information flow from its microenvironment. We have identified a LIM-domain-containing protein, Wilm's tumor interacting protein (WTIP), that regulates podocyte actin dynamics to maintain stable cell contacts. After glomerular injury, the WTIP molecule shuttles to the podocyte nucleus in response to changes in slit-diaphragm assembly, and changes gene transcription to permit podocyte remodeling. Defining regulatory pathways of podocyte differentiation identifies novel, druggable targets for chronic kidney diseases characterized by glomerular scarring.