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Podocyte-specific loss of cdc42 leads to congenital nephropathy Scott RP, Hawley SP, Ruston J, Du J, Brakebusch C, Jones N, Pawson T J Am Soc Nephrol. 2012 Jul;23(7):1149-54. Epub 2012 Apr 19 PMID:22518006doi:
10.1681/ASN.2011121206
Rho family GTPases are molecular switches best known for their pivotal
role in dynamic regulation of the actin cytoskeleton. The prototypic
members of this family are Cdc42, Rac1, and RhoA; these GTPases
contribute to the breakdown of glomerular filtration and the resultant
proteinuria, but their functions in normal podocyte physiology remain
poorly understood. Here, mice lacking Cdc42 in podocytes developed
congenital nephropathy and died as a result of renal failure within 2
weeks after birth. In contrast, mice lacking Rac1 or RhoA in podocytes
were overtly normal and lived to adulthood. Kidneys from Cdc42-mutant
mice exhibited protein-filled microcysts with hallmarks of collapsing
glomerulopathy, as well as extensive effacement of podocyte foot
processes with abnormal junctional complexes. Furthermore, we observed
aberrant expression of several podocyte markers and cell polarity
proteins in the absence of Cdc42, indicating a disruption of the slit
diaphragm. Kidneys from Rac1- and RhoA-mutant mice, however, had normal
glomerular morphology and intact foot processes. A nephrin clustering
assay suggested that Cdc42 deficiency, but not Rac1 or RhoA deficiency,
impairs the polymerization of actin at sites of nephrin aggregates.
Taken together, these data highlight the physiological importance of
Cdc42, but not Rac1 or RhoA, in establishing podocyte architecture and
glomerular function. [PubMed] [Publisher] |
