Alternatively Spliced Landscape of PPARγ mRNA in Podocytes Is Distinct from Adipose Tissue

Abstract: Podocytes are highly differentiated epithelial cells, and their structural and functional integrity is compromised in a majority of glomerular and renal diseases, leading to proteinuria, chronic kidney disease, and kidney failure. Traditional agonists (e.g., pioglitazone) and selective modulators (e.g., GQ-16) of peroxisome-proliferator-activated-receptor-γ (PPARγ) reduce proteinuria in animal models of glomerular disease and protect podocytes from injury via PPARγ activation. This indicates a pivotal role for… Show more

“…However, PPARγ signaling in podocytes seems to be different from its well-understood role in driving insulin sensitivity and adipogenesis. Bryant et al showed in this Special Issue of Cells that the expression of PPARγ splice variants differ between podocytes and adipocytes and liver [ 32 ]. Podocytes express the PPARγ Var 1 (encoding γ1) but not γ2, which is expressed in adipocytes.…”

Recent Insights into the Role of PPARs in Disease

“…However, PPARγ signaling in podocytes seems to be different from its well-understood role in driving insulin sensitivity and adipogenesis. Bryant et al showed in this Special Issue of Cells that the expression of PPARγ splice variants differ between podocytes and adipocytes and liver [ 32 ]. Podocytes express the PPARγ Var 1 (encoding γ1) but not γ2, which is expressed in adipocytes.…”

Recent Insights into the Role of PPARs in Disease

Kidney lipid dysmetabolism and lipid droplet accumulation in chronic kidney disease