Zoning in on podocytes

Podocytes undergo defined morphologic changes during development, homeostasis, and aging, and on injury. Quantitative podometric assessments of podocyte endowment provide a powerful tool to interrogate glomerular health. Expanding this approach to a regional assessment demonstrates that the podocytes from cortical, subcortical, and juxtamedullary glomeruli are not only morphologically heterogeneous per se, but respond differently to stressors, such as age and hypertension. This suggests that zonal glomerular changes harbor critical information to understand glomerulopathies. Podocytes undergo defined morphologic changes during development, homeostasis, and aging, and on injury. Quantitative podometric assessments of podocyte endowment provide a powerful tool to interrogate glomerular health. Expanding this approach to a regional assessment demonstrates that the podocytes from cortical, subcortical, and juxtamedullary glomeruli are not only morphologically heterogeneous per se, but respond differently to stressors, such as age and hypertension. This suggests that zonal glomerular changes harbor critical information to understand glomerulopathies. Associations between nephron number and podometrics in human kidneysKidney InternationalVol. 102Issue 5PreviewPodocyte loss and resultant nephron loss are common processes in the development of glomerulosclerosis and chronic kidney disease. While the cortical distribution of glomerulosclerosis is known to be non-uniform, the relationship between the numbers of non-sclerotic glomeruli (NSG), podometrics and zonal differences in podometrics remain incompletely understood. To help define this, we studied autopsy kidneys from 50 adults with median age 68 years and median eGFR 73.5 mL/min/1.73m2 without apparent glomerular disease in a cross-sectional analysis. Full-Text PDF Open Access