BH3-only BIK Regulates BAX,BAK-dependent Release of Ca2+ from Endoplasmic Reticulum Stores and Mitochondrial Apoptosis during Stress-induced Cell Death

Gordon C. Shore,Marc Germain,Jaigi P. Mathai

doi:10.1074/jbc.m500800200

Abstract

BIK, a pro-apoptotic BH3-only member of the BCL-2 family, targets the membrane of the endoplasmic reticulum (ER). It is induced in human cells in response to several stress stimuli, including genotoxic stress (radiation, doxorubicin) and overexpression of E1A or p53 but not by ER stress pathways resulting from protein malfolding. BIK initiates an early release of Ca2+ from ER upstream of the activation of effector caspases. Release of the mobile ER Ca2+ stores in baby mouse kidney cells doubly deficient in BAX and BAK, on the other hand, is resistant to BIK but is sensitive to ectopic BAK. Over-expression of p53 stimulates recruitment of BAK to the ER, and both its recruitment and assembly into higher order structures is inhibited by BIK small interfering RNA. Employing small interfering RNA knockdowns, we also demonstrated that release of ER Ca2+ and mitochondrial apoptosis in human epithelial cells requires BIK and that a Ca2+-regulated target, the dynamin-related GTPase DRP1, is involved in p53-induced mitochondrial fission and release of cytochrome c to the cytosol. Endogenous cellular BIK, therefore, regulates a BAX,BAK-dependent ER pathway that contributes to mitochondrial apoptosis.

Highlights

Utilizing a DNA microarray analysis of genes that are stimulated by the oncogenic E1A protein of adenovirus, we previously identified BH3-only BIK as a strong responder in human KB epithelial cells
Employing small interfering RNA knockdowns, we demonstrated that release of endoplasmic reticulum (ER) Ca2؉ and mitochondrial apoptosis in human epithelial cells requires BIK and that a Ca2؉-regulated target, the dynamin-related GTPase DRP1, is involved in p53-induced mitochondrial fission and release of cytochrome c to the cytosol
In the Fas death pathway, for example, cleavage of BAP31 at the ER membrane causes an early release of ER Ca2ϩ stores and concomitant uptake of Ca2ϩ by mitochondria, which triggers the recruitment of a dynamin-related GTPase, DRP1, to the organelle surface followed by mitochondrial fission [18]

Summary

Introduction

Utilizing a DNA microarray analysis of genes that are stimulated by the oncogenic E1A protein of adenovirus, we previously identified BH3-only BIK as a strong responder in human KB epithelial cells. SiRNA-BIK145 was capable of knocking down a significant fraction of the endogenous BIK that was induced by p53 (Fig. 3D, gel insert), substantial effector caspase activity was still observed, lower than that of cells transfected with control siRNA-LUC.

Results

Conclusion