Distinct Domains for Anti- and Pro-apoptotic Activities of IEX-1

Li Shen,Jinjin Guo,Cynthia Santos-Berrios,Mei X Wu

doi:10.1074/jbc.m600054200

Li Shen, Jinjin Guo + Show 2 more

Open Access

https://doi.org/10.1074/jbc.m600054200

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Abstract

IEX-1 (immediate early response gene X-1) is a stress-inducible gene. Its overexpression can suppress or enhance apoptosis dependent on the nature of stress, yet the polypeptide does not possess any of the functional domains that are homologous to those present in well characterized effectors or inhibitors of apoptosis. This study using sequence-targeting mutagenesis reveals a transmembrane-like integrated region of the protein to be critical for both pro-apoptotic and anti-apoptotic functions. Substitution of the key hydrophobic residues with hydrophilic ones within this region impairs the capacity IEX-1 to positively and negatively regulate apoptosis. Mutations at N-linked glycosylation and phosphorylation sites or truncation of the C terminus of IEX-1 also abrogated its potential to promote cell survival. However, distinguished from the transmembrane-like domain, these mutants preserved pro-apoptotic activity of IEX-1 fully. On the contrary, mutation of nuclear localization sequence, despite its importance in apoptosis, did not impede IEX-1-mediated cell survival. Strikingly, all the mutants that lose their anti-apoptotic ability are unable to prevent acute increases in production of intracellular reactive oxygen species (ROS) at the initial onset of apoptosis, whereas those mutants that can sustain anti-death function also control acute ROS production as sufficiently as wild-type IEX-1. These findings suggest a critical role of IEX-1 in regulation of intracellular ROS homeostasis, providing new insight into the mechanism underlying IEX-1-mediated cell survival.

Highlights

Integrity, apoptotic effectors often stimulate an acute increase in the mitochondrial membrane potential ⌬␺m that facilitates the formation of reactive oxygen species (ROS),2 the amplitude of which determines a cell to die by apoptosis or to adapt [4, 7,8,9,10,11]
Like Bcl-2 and Bcl-xL, IEX-1 has a TM-like integrated region at positions 86 –101 that can potentially target the protein to the ER, Golgi, and the mitochondria as predicted by the program PSORT
T18 phosphorylation, N-glycosylation, and the C terminus of IEX-1 are critical for anti-death function of IEX-1, but these structures display no significant effects on pro-apoptotic activity

Summary

Introduction

Integrity, apoptotic effectors often stimulate an acute increase in the mitochondrial membrane potential ⌬␺m that facilitates the formation of reactive oxygen species (ROS),2 the amplitude of which determines a cell to die by apoptosis or to adapt [4, 7,8,9,10,11]. The TM-like Domain Is Required for Both Anti- and Pro-apoptosis— To determine effects of IEX-1 mutations on cell survival, WT IEX-1 and its variant constructs were transfected, along with or without a ␤-galactosidase-expressing reporter plasmid, into CHO cells, followed by stimulation of the transfectants for 6 h with staurosporin.

Results

Conclusion