BAK/BAX macropores facilitate mitochondrial herniation and mtDNA efflux during apoptosis

Kate McArthur; Lachlan Whitehead; John M. Heddleston; Lucy Li; Benjamin Scott Padman; Viola Oorschot; Niall D. Geoghegan; Stéphane Chappaz; Sophia Davidson; Hui San Chin; Rachael M. Lane; Marija Dramićanin; Tahnee L. Saunders; Canny Sugiana; Romina Lessene; Laura D. Osellame; Teng-Leong Chew; Grant Dewson; Michael Lazarou; Georg Ramm; Guillaume Lessène; Michael T. Ryan; Kelly L. Rogers; Mark F. van Delft; Benjamin T. Kile

doi:10.1126/science.aao6047

BAK/BAX macropores facilitate mitochondrial herniation and mtDNA efflux during apoptosis

Kate McArthur(The University of Melbourne), Lachlan Whitehead(The University of Melbourne), John M. Heddleston(Howard Hughes Medical Institute), Lucy Li(Walter and Eliza Hall Institute of Medical Research), Benjamin Scott Padman(Discovery Institute), Viola Oorschot(Monash University), Niall D. Geoghegan(The University of Melbourne), Stéphane Chappaz(The University of Melbourne), Sophia Davidson(Walter and Eliza Hall Institute of Medical Research), Hui San Chin(Walter and Eliza Hall Institute of Medical Research), Rachael M. Lane(Monash University), Marija Dramićanin(The University of Melbourne), Tahnee L. Saunders(Monash University), Canny Sugiana(Monash University), Romina Lessene(The University of Melbourne), Laura D. Osellame(Discovery Institute), Teng-Leong Chew(Howard Hughes Medical Institute), Grant Dewson(The University of Melbourne), Michael Lazarou(Discovery Institute), Georg Ramm(Discovery Institute), Guillaume Lessène(The University of Melbourne), Michael T. Ryan(Discovery Institute), Kelly L. Rogers(The University of Melbourne), Mark F. van Delft(The University of Melbourne), Benjamin T. Kile(The University of Melbourne)

Science

February 22, 2018

10.1126/science.aao6047

Cited by 1,006

Abstract

Mitochondrial apoptosis is mediated by BAK and BAX, two proteins that induce mitochondrial outer membrane permeabilization, leading to cytochrome c release and activation of apoptotic caspases. In the absence of active caspases, mitochondrial DNA (mtDNA) triggers the innate immune cGAS/STING pathway, causing dying cells to secrete type I interferon. How cGAS gains access to mtDNA remains unclear. We used live-cell lattice light-sheet microscopy to examine the mitochondrial network in mouse embryonic fibroblasts. We found that after BAK/BAX activation and cytochrome c loss, the mitochondrial network broke down and large BAK/BAX pores appeared in the outer membrane. These BAK/BAX macropores allowed the inner mitochondrial membrane to herniate into the cytosol, carrying with it mitochondrial matrix components, including the mitochondrial genome. Apoptotic caspases did not prevent herniation but dismantled the dying cell to suppress mtDNA-induced innate immune signaling.

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