The Constitutively Active Orphan G-protein-coupled Receptor GPR39 Protects from Cell Death by Increasing Secretion of Pigment Epithelium-derived Growth Factor

Anna Pantlen,Stefan Golz,Andreas Geerts,Ana-Luisa Pina,Axel Methner,Mert Sahin,Diamandis Toutzaris,Ambrish Saxena,Sonja Dittmer

doi:10.1074/jbc.m704323200

Abstract

GPR39 is a constitutively active orphan G-protein-coupled receptor capable of increasing serum response element-mediated transcription. We found GPR39 to be up-regulated in a hippocampal cell line resistant against diverse stimulators of cell death and show that its overexpression protects against oxidative and endoplasmic reticulum stress, as well as against direct activation of the caspase cascade by Bax overexpression. In contrast, silencing GPR39 rendered cells more susceptible to cell death. An array analysis of transcripts induced by GPR39 revealed up-regulation of RGS16 (inhibitor of G-protein signaling 16), which suggested coupling to Galpha(13) and induction of serum response element-mediated transcription by the small GTPase RhoA. In line with this, co-expression of GPR39 with RGS16, dominant-negative RhoA, or serum response factor abolished cell protection, whereas overexpression of the serum response factor protected from cell death. Further downstream the signaling cascade, GPR39 overexpression leads to increased secretion of the cytoprotective pigment epithelium-derived growth factor (PEDF). Medium conditioned by cells overexpressing GPR39 contained 4-fold more PEDF, and when stripped off it lost most but not all of its protective properties. We conclude that GPR39 is a novel inhibitor of cell death, which might represent a therapeutic target with implications for processes involving apoptosis and endoplasmic reticulum stress like cancer, ischemia/reperfusion injury, and neurodegenerative disease.

Highlights

Vated by a wide variety of natural ligands, and pharmacological alteration of their signaling constitutes one of the most successful approaches to the treatment of human disease, which makes G-protein-coupled receptors (GPCRs) the most targeted protein superfamily in pharmaceutical research [2]
We investigated the expression of 82 orphan GPCR in HT22R and wild type cells, which identified GPR39 as a candidate regulator of cell death
HT22R Cells Are Resistant against Cell Death Caused by Diverse Cytotoxic Pathways—HT22R cells have been described before; they are resistant against oxidative stress elicited by glutamate and hydrogen peroxide by up-regulation of the glutamate/cysteine exchanger xCT [6] and the cytoprotective G-protein-coupled receptor VPAC2 [3]

Summary

Introduction

Vated by a wide variety of natural ligands, and pharmacological alteration of their signaling constitutes one of the most successful approaches to the treatment of human disease, which makes GPCRs the most targeted protein superfamily in pharmaceutical research [2]. GPR39 is a constitutively active orphan G-protein-coupled receptor capable of increasing serum response element-mediated transcription. We found GPR39 to be up-regulated in a hippocampal cell line resistant against diverse stimulators of cell death and show that its overexpression protects against oxidative and endoplasmic reticulum stress, as well as against direct activation of the caspase cascade by Bax overexpression.

Results

Conclusion