Low-grade chronic inflammation and reduced differentiation capacity are hallmarks of hy-pertrophic adipose tissue (AT) and key contributors of insulin resistance. We identified PPARG?5 as a dominant-negative splicing isoform overexpressed in the AT of obese/diabetic patients able to impair adipocyte differentiation and PPAR? activity in hypertrophic adipocytes. Herein, we investigate the impact of macrophage-secreted pro-inflammatory factors on PPARG splicing, focusing on PPARG?5. We report that the epididymal AT of LPS-treated mice displays increased Pparg?5/cPparg ratio and reduced expression of Pparg-regulated genes. Interestingly, pro-inflammatory factors secreted from murine and human pro-inflammatory macrophages enhance the PPARG?5/cPPARG ratio in exposed adipogenic precursors. TNF? is identified herein as factor able to alter PPARG splicing-- increasing PPARG?5/cPPARG ratio--through PI3K/Akt signaling and SRp40 splicing factor. In line with in vitro data, TNFA expression is higher in the SAT of obese (vs. lean) patients and posi-tively correlates with PPARG?5 levels. In conclusion, our results indicate that inflammatory factors secreted by metabolically-activated macrophages are potent stimuli that modulate the expression and splicing of PPARG. The resulting imbalance between canonical and dominant negative isoforms may crucially contribute to impair PPAR? activity in hypertrophic AT, exacerbating the defective adipogenic capacity of precursor cells.

TNFα mediates inflammation-induced effects on PPARG splicing in adipose tissue and mesenchymal precursor cells

Cataldi Simona;Aprile Marianna;Melillo Daniela;Italiani Paola;Ciccodicola Alfredo;Costa Valerio
2022

Abstract

Low-grade chronic inflammation and reduced differentiation capacity are hallmarks of hy-pertrophic adipose tissue (AT) and key contributors of insulin resistance. We identified PPARG?5 as a dominant-negative splicing isoform overexpressed in the AT of obese/diabetic patients able to impair adipocyte differentiation and PPAR? activity in hypertrophic adipocytes. Herein, we investigate the impact of macrophage-secreted pro-inflammatory factors on PPARG splicing, focusing on PPARG?5. We report that the epididymal AT of LPS-treated mice displays increased Pparg?5/cPparg ratio and reduced expression of Pparg-regulated genes. Interestingly, pro-inflammatory factors secreted from murine and human pro-inflammatory macrophages enhance the PPARG?5/cPPARG ratio in exposed adipogenic precursors. TNF? is identified herein as factor able to alter PPARG splicing-- increasing PPARG?5/cPPARG ratio--through PI3K/Akt signaling and SRp40 splicing factor. In line with in vitro data, TNFA expression is higher in the SAT of obese (vs. lean) patients and posi-tively correlates with PPARG?5 levels. In conclusion, our results indicate that inflammatory factors secreted by metabolically-activated macrophages are potent stimuli that modulate the expression and splicing of PPARG. The resulting imbalance between canonical and dominant negative isoforms may crucially contribute to impair PPAR? activity in hypertrophic AT, exacerbating the defective adipogenic capacity of precursor cells.
2022
Istituto di genetica e biofisica "Adriano Buzzati Traverso"- IGB - Sede Napoli
Adipocyte precursors
Dominant negative isoform
Hypertrophic obesity
Inflammation
PPARG splicing
TNFα
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/413439
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