Ceramide-Initiated Protein Phosphatase 2A Activation Contributes to Arterial Dysfunction In Vivo

Overview

Journal Diabetes

Specialty Endocrinology

Date 2015 Aug 9

PMID 26253611

Citations 65

Authors

Leena P Bharath

Ting Ruan

Youyou Li

Anindita Ravindran

Xin Wan

Jennifer Kim Nhan

Matthew Lewis Walker

Lance Deeter

Rebekah Goodrich

Elizabeth Johnson

Derek Munday

Robert Mueller

David Kunz

Deborah Jones

Van Reese

Scott A Summers

Pon Velayutham Anandh Babu

William L Holland

Quan-Jiang Zhang

E Dale Abel

J David Symons

Affiliations

Soon will be listed here.

Abstract

Prior studies have implicated accumulation of ceramide in blood vessels as a basis for vascular dysfunction in diet-induced obesity via a mechanism involving type 2 protein phosphatase (PP2A) dephosphorylation of endothelial nitric oxide synthase (eNOS). The current study sought to elucidate the mechanisms linking ceramide accumulation with PP2A activation and determine whether pharmacological inhibition of PP2A in vivo normalizes obesity-associated vascular dysfunction and limits the severity of hypertension. We show in endothelial cells that ceramide associates with the inhibitor 2 of PP2A (I2PP2A) in the cytosol, which disrupts the association of I2PP2A with PP2A leading to its translocation to the plasma membrane. The increased association between PP2A and eNOS at the plasma membrane promotes dissociation of an Akt-Hsp90-eNOS complex that is required for eNOS phosphorylation and activation. A novel small-molecule inhibitor of PP2A attenuated PP2A activation, prevented disruption of the Akt-Hsp90-eNOS complex in the vasculature, preserved arterial function, and maintained normal blood pressure in obese mice. These findings reveal a novel mechanism whereby ceramide initiates PP2A colocalization with eNOS and demonstrate that PP2A activation precipitates vascular dysfunction in diet-induced obesity. Therapeutic strategies targeted to reducing PP2A activation might be beneficial in attenuating vascular complications that exist in the context of type 2 diabetes, obesity, and conditions associated with insulin resistance.

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