PKC-alpha modulates TGF-beta signaling and impairs podocyte survival.

Progressive loss of podocytes has been documented as an early lesion in the development of glomerular disease. In a variety of glomerular diseases, including diabetic nephropathy the activation of transforming growth factor-beta (TGF-beta) has been demonstrated to promote podocyte death and the development of glomerulosclerosis. In this manuscript we analyzed the role of PKC-alpha (PKCalpha) on TGF-beta1 induced apoptosis in podocytes. To accomplish this we generated stable murine PKCalpha deficient podocyte cell lines and examined survival- and pro-apoptotic signaling signatures as well as caspase activation after stimulation with TGF-beta. After stimulation with TGF-beta we can demonstrate an enhanced and prolonged activation of PI3K/AKT and ERK1/2 in PKCalpha-knockout (PKCalpha-/-) podocytes compared to PKCalpha-wildtype (PKCalpha+/ +) podocytes, whereas proapoptotic signaling via p38MAPK is significantly reduced. Interestingly, activation of the Smad-pathway is also prolonged in the PKCalpha-/-podocytes. When we analyzed the underlying mechanisms we found a TGF-beta inducible interaction of PKCalpha with the TGF-beta-type-I-receptor (TGFbetaRI). Moreover, endocytosis assays showed that the TGFbetaRI is less internalized in PKCalpha-/- podocytes. Since we can demonstrate a key role for PKCalpha in the signaling response after stimulation with TGF-beta we conclude that PKCalpha might be an interesting target molecule as a "podocyte protective" therapy.