Oxidative metabolism of linoleic acid modulates PPAR-beta/delta suppression of PPAR-gamma activity

摘要

Peroxisome proliferator–activated receptors (PPARs) are transcription factors that strongly influence molecular events in normal and cancer cells. PPAR-beta/delta overexpression suppresses the activity of PPAR-gamma and -alpha. This interaction has been questioned, however, by studies with synthetic ligands of PPARs in PPAR-beta/delta–null cells, and it is not known whether an interaction between PPAR-beta/delta and -gamma exists, especially in relation to the signaling by natural PPAR ligands. Oxidative metabolites of linoleic and arachidonic acids are natural ligands of PPARs. 13-S-hydroxyoctadecadienoic acid (13-S-HODE), the main product of 15-lipoxygenase-1 (15-LOX-1) metabolism of linoleic acid, downregulates PPAR-beta/delta. We tested (a) whether PPAR-beta/delta expression modulates PPAR-gamma activity in experimental models of the loss and gain of PPAR-beta/delta function in colon cancer cells and (b) whether 15-LOX-1 formation of 13-S-HODE influences the interaction between PPAR-beta/delta and PPAR-gamma. We found that (a) 15-LOX-1 formation of 13-S-HODE promoted PPAR-gamma activity, (b) PPAR-beta/delta expression suppressed PPAR-gamma activity in models of both loss and gain of PPAR-beta/delta function, (c) 15-LOX-1 activated PPAR-gamma by downregulating PPAR-beta/delta , and (d) 15-LOX-1 expression induced apoptosis in colon cancer cells via modulating PPAR-beta/delta suppression of PPAR-gamma. These findings elucidate a novel mechanism of the signaling by natural ligands of PPARs, which involves modulating the interaction between PPAR-beta/delta and PPAR-gamma.