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Merck

Ceramide mediates vascular dysfunction in diet-induced obesity by PP2A-mediated dephosphorylation of the eNOS-Akt complex.

Diabetes (2012-05-16)
Quan-Jiang Zhang, William L Holland, Lloyd Wilson, Jason M Tanner, Devin Kearns, Judd M Cahoon, Dix Pettey, Jason Losee, Bradlee Duncan, Derrick Gale, Christopher A Kowalski, Nicholas Deeter, Alexandrea Nichols, Michole Deesing, Colton Arrant, Ting Ruan, Christoph Boehme, Dane R McCamey, Janvida Rou, Kapil Ambal, Krishna K Narra, Scott A Summers, E Dale Abel, J David Symons
RESUMEN

Vascular dysfunction that accompanies obesity and insulin resistance may be mediated by lipid metabolites. We sought to determine if vascular ceramide leads to arterial dysfunction and to elucidate the underlying mechanisms. Pharmacological inhibition of de novo ceramide synthesis, using the Ser palmitoyl transferase inhibitor myriocin, and heterozygous deletion of dihydroceramide desaturase prevented vascular dysfunction and hypertension in mice after high-fat feeding. These findings were recapitulated in isolated arteries in vitro, confirming that ceramide impairs endothelium-dependent vasorelaxation in a tissue-autonomous manner. Studies in endothelial cells reveal that de novo ceramide biosynthesis induced protein phosphatase 2A (PP2A) association directly with the endothelial nitric oxide synthase (eNOS)/Akt/Hsp90 complex that was concurrent with decreased basal and agonist-stimulated eNOS phosphorylation. PP2A attenuates eNOS phosphorylation by preventing phosphorylation of the pool of Akt that colocalizes with eNOS and by dephosphorylating eNOS. Ceramide decreased the association between PP2A and the predominantly cytosolic inhibitor 2 of PP2A. We conclude that ceramide mediates obesity-related vascular dysfunction by a mechanism that involves PP2A-mediated disruption of the eNOS/Akt/Hsp90 signaling complex. These results provide important insight into a pathway that represents a novel target for reversing obesity-related vascular dysfunction.

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Sigma-Aldrich
Myriocin from Mycelia sterilia, ≥98% (HPLC), powder