Context: Proteinuria is a major cause of progression in renal disease. The glomerular ultrafiltration barrier, containing highly differentiated podocytes, normally restricts protein access to the urine. Patients with urinary protein in the nephrotic range (>3.5 g daily) often have effaced podocyte foot-processes. Slit diaphragms span the gaps between foot processes as a barrier to macromolecules. Nephrin and podocin are slit-diaphragm proteins identified in families with congenital nephrotic syndromes. CD2-associated protein (CD2AP) is an adapter protein originally identified as a novel ligand interacting with the T-cell-adhesion protein CD2. CD2AP knockout (-/-) mice develop a congenital nephrotic syndrome with podocyte foot-process effacements and die at 6 weeks of age from renal failure. CD2AP localises to the slit diaphragm and links nephrin and podocin to phosphoinositide 3-OH kinase; this complex has cell-signalling properties.
Starting point: The CD2AP +/- heterozygous mice developed by Jeong Kim and colleagues (Science 2003; 300: 1298-300) are haploinsufficient and develop glomerular changes at 9 months of age with a histological pattern similar to that in human focal segmental glomerulosclerosis. These researchers found that 2 of 30 African-American patients with idiopathic focal segmental glomerulosclerosis had a CD2AP mutation that ablated expression of one allele. WHERE NEXT? Further studies should address the normal distribution of the CD2AP heterozygous mutation in different ethnic populations, because the association with human idiopathic focal segmental glomerulosclerosis could be accidental. Decreased expression of CD2AP in podocytes of individuals with the CD2AP heterozygous mutation would help to understand how the haploinsufficiency translates into increased susceptibility to renal disease. Transfection of podocytes with mutated CD2AP or study of cultured podocytes from CD2AP +/- mice would provide further insight into whether the nephrin-podocin-CD2AP signal-transduction pathway is altered and leads to increased apoptosis of podocytes. Assuming that a decrease in CD2AP attenuates clearance of glomerular immune complexes, patients with other types of idiopathic glomerulonephritis should also have a CD2AP mutation. However, first studies looking at the most common form of glomerulonephritis, IgA nephropathy, have failed to show decreased renal CD2AP expression.