Should we consider calcimimetics as a therapeutic option for nephrotic syndrome?

Calcimimetics allosterically increase the calcium ion sensitivity of the calcium-sensing receptor (CaSR). Using a CaSR knockdown in podocytes and a podocyte-specific CaSR knockout in mice, Mühlig et al. uncovered a stabilizing role for actin cytoskeleton and cell adhesion. Short-term alleviation of albuminuria and proteinuria was observed in 4 children treated with cinacalcet. Here we discuss the potential mechanisms whereby CaSR displays a favorable effect in podocytes and the context in which calcimimetics may alleviate nephrotic syndrome. Calcimimetics allosterically increase the calcium ion sensitivity of the calcium-sensing receptor (CaSR). Using a CaSR knockdown in podocytes and a podocyte-specific CaSR knockout in mice, Mühlig et al. uncovered a stabilizing role for actin cytoskeleton and cell adhesion. Short-term alleviation of albuminuria and proteinuria was observed in 4 children treated with cinacalcet. Here we discuss the potential mechanisms whereby CaSR displays a favorable effect in podocytes and the context in which calcimimetics may alleviate nephrotic syndrome. The calcium-sensing receptor stabilizes podocyte function in proteinuric humans and miceKidney InternationalVol. 101Issue 6PreviewCalcimimetic agents allosterically increase the calcium ion sensitivity of the calcium-sensing receptor (CaSR), which is expressed in the tubular system and to a lesser extent in podocytes. Activation of this receptor can reduce glomerular proteinuria and structural damage in proteinuric animal models. However, the precise role of the podocyte CaSR remains unclear. Here, a CaSR knockdown in cultured murine podocytes and a podocyte-specific CaSR knockout in BALB/c mice were generated to study its role in proteinuria and kidney function. Full-Text PDF