[PDF][PDF] Podocyte regeneration driven by renal progenitors determines glomerular disease remission and can be pharmacologically enhanced

L Lasagni, ML Angelotti, E Ronconi, D Lombardi… - Stem cell reports, 2015 - cell.com
L Lasagni, ML Angelotti, E Ronconi, D Lombardi, S Nardi, A Peired, F Becherucci…
Stem cell reports, 2015cell.com
Podocyte loss is a general mechanism of glomerular dysfunction that initiates and drives the
progression of chronic kidney disease, which affects 10% of the world population. Here, we
evaluate whether the regenerative response to podocyte injury influences chronic kidney
disease outcome. In models of focal segmental glomerulosclerosis performed in inducible
transgenic mice where podocytes are tagged, remission or progression of disease was
determined by the amount of regenerated podocytes. When the same model was …
Summary
Podocyte loss is a general mechanism of glomerular dysfunction that initiates and drives the progression of chronic kidney disease, which affects 10% of the world population. Here, we evaluate whether the regenerative response to podocyte injury influences chronic kidney disease outcome. In models of focal segmental glomerulosclerosis performed in inducible transgenic mice where podocytes are tagged, remission or progression of disease was determined by the amount of regenerated podocytes. When the same model was established in inducible transgenic mice where renal progenitors are tagged, the disease remitted if renal progenitors successfully differentiated into podocytes, while it persisted if differentiation was ineffective, resulting in glomerulosclerosis. Treatment with BIO, a GSK3s inhibitor, significantly increased disease remission by enhancing renal progenitor sensitivity to the differentiation effect of endogenous retinoic acid. These results establish renal progenitors as critical determinants of glomerular disease outcome and a pharmacological enhancement of their differentiation as a possible therapeutic strategy.
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