Afadin is localized at cell-cell contact sites in mesangial cells and regulates migratory polarity.

In kidney glomeruli, mesangial cells provide structural support to counteract for expansile forces caused by pressure gradients and to regulate the blood flow. Glomerular injury results in proliferation and aberrant migration of mesangial cells, which is the pathological characteristic of mesangial proliferative glomerulonephritis. To date, molecular changes that occur in mesangial cells during glomerular injury and their association with the pathogenesis of glomerulonephritis remain largely unclear. During the search for proteins regulating the morphology of mesangial cells, we found that afadin, a multi-domain F-actin-binding protein, and ß-catenin are expressed in cell-cell contact sites of cultured mesangial cells and mesangial cells in vivo. Afadin forms a protein complex with ß-catenin in glomeruli and in cultured mesangial cells. Protein expression of afadin at mesangial intercellular junctions was dramatically decreased in mesangial proliferative nephritis in rats and in patients with glomerulonephritis. RNA interference-mediated depletion of afadin in cultured mesangial cells did not affect proliferation rate but resulted in delayed directional cell migration. Furthermore, reorientation of the Golgi complex at the leading edges of migrating cells in wound-healing assay was disturbed in afadin-depleted cells, suggesting the role of aberrant migratory polarity in the pathogenesis of proliferative glomerulonephritis. These data shed light on glomerulonephritis-associated changes in cell-cell adhesion between mesangial cells, which might be related to migratory polarity.

Decreased glomerular filtration as the primary factor of elevated circulating suPAR levels in focal segmental glomerulosclerosis.

BACKGROUND: Circulating factor(s) has been thought to be the underlying cause of focal segmental glomerulosclerosis (FSGS), and recent studies foster this idea by demonstrating increased soluble urokinase receptor (suPAR) levels in the serum of FSGS patients. METHODS: To explore the possible contribution of suPAR in FSGS pathogenesis, we analyzed serum suPAR levels in 17 patients with FSGS and compared them with those in patients with steroid-sensitive nephrotic syndrome, chronic glomerulonephritis, or non-glomerular kidney diseases. RESULTS: Serum suPAR levels in patients with FSGS were higher than those in patients with steroid-sensitive nephrotic syndrome or chronic glomerulonephritis, but not higher than those in patients with non-glomerular kidney diseases. suPAR levels negatively correlate with estimated glomerular filtration rate and were decreased after renal transplantation in patients with FSGS as well as in those with non-glomerular kidney diseases. Furthermore, 6 FSGS patients with post-transplant recurrence demonstrated that suPAR levels were not high during the recurrence. CONCLUSIONS: Based on our results, elevated suPAR levels in FSGS patients were attributed mainly to decreased glomerular filtration. These data warrant further analysis for involvement of possible circulating factor(s) in FSGS pathogenesis.