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The stressosome, a caspase‐8‐activating signalling complex assembled in response to cell stress in an ATG5‐mediated manner

Katarzyna Mnich, Izabela Koryga, Karolina Pakos‐Zebrucka, Mélissa Thomas, Susan E. Logue, Leif A. Eriksson, Adrienne M. Gorman, Afshin Samali

2021Journal of Cellular and Molecular Medicine18 citationsDOIOpen Access PDF

Abstract

Abstract Stress‐induced apoptosis is mediated primarily through the intrinsic pathway that involves caspase‐9. We previously reported that in caspase‐9‐deficient cells, a protein complex containing ATG5 and Fas‐associated death domain (FADD) facilitated caspase‐8 activation and cell death in response to endoplasmic reticulum (ER) stress. Here, we investigated whether this complex could be activated by other forms of cell stress. We show that diverse stress stimuli, including etoposide, brefeldin A and paclitaxel, as well as heat stress and gamma‐irradiation, caused formation of a complex containing ATG5‐ATG12, FADD and caspase‐8 leading to activation of downstream caspases in caspase‐9‐deficient cells. We termed this complex the ‘stressosome’. However, in these cells, only ER stress and heat shock led to stressosome‐dependent cell death. Using in silico molecular modelling, we propose the structure of the stressosome complex, with FADD acting as an adaptor protein, interacting with pro‐caspase‐8 through their respective death effector domains (DEDs) and interacting with ATG5‐ATG12 through its death domain (DD). This suggests that the complex could be regulated by cellular FADD‐like interleukin‐1β‐converting enzyme–inhibitory protein (cFLIP L ), which was confirmed experimentally. This study provides strong evidence for an alternative mechanism of caspase‐8 activation involving the stressosome complex.

Topics & Concepts

FADDCell biologyDeath domainProgrammed cell deathUnfolded protein responseCaspaseCaspase 10ChemistryCaspase 8Endoplasmic reticulumATG5Signal transducing adaptor proteinBiologySignal transductionApoptosisBiochemistryEndoplasmic Reticulum Stress and DiseaseCell death mechanisms and regulationHeat shock proteins research