TY - JOUR
T1 - Reduced mitochondrial resilience enables non-canonical induction of apoptosis after TNF receptor signaling in virus-infected hepatocytes
AU - Lampl, Sandra
AU - Janas, Marianne K.
AU - Donakonda, Sainitin
AU - Brugger, Marcus
AU - Lohr, Kerstin
AU - Schneider, Annika
AU - Manske, Katrin
AU - Sperl, Laura E.
AU - Kläger, Susan
AU - Küster, Bernhard
AU - Wettmarshausen, Jennifer
AU - Müller, Constanze
AU - Laschinger, Melanie
AU - Hartmann, Daniel
AU - Hüser, Norber
AU - Perocchi, Fabiana
AU - Schmitt-Kopplin, Philippe
AU - Hagn, Franz
AU - Zender, Lars
AU - Hornung, Veit
AU - Borner, Christoph
AU - Pichlmair, Andreas
AU - Kashkar, Hamid
AU - Klingenspor, Martin
AU - Prinz, Marco
AU - Schreiner, Sabrina
AU - Conrad, Marcus
AU - Jost, Philipp J.
AU - Zischka, Hans
AU - Steiger, Katja
AU - Krönke, Martin
AU - Zehn, Dietmar
AU - Protzer, Ulrike
AU - Heikenwälder, Mathias
AU - Knolle, Percy A.
AU - Wohlleber, Dirk
N1 - Publisher Copyright:
© 2020 European Association for the Study of the Liver
PY - 2020/12
Y1 - 2020/12
N2 - Background & Aims: Selective elimination of virus-infected hepatocytes occurs through virus-specific CD8 T cells recognizing peptide-loaded MHC molecules. Herein, we report that virus-infected hepatocytes are also selectively eliminated through a cell-autonomous mechanism. Methods: We generated recombinant adenoviruses and genetically modified mouse models to identify the molecular mechanisms determining TNF-induced hepatocyte apoptosis in vivo and used in vivo bioluminescence imaging, immunohistochemistry, immunoblot analysis, RNAseq/proteome/phosphoproteome analyses, bioinformatic analyses, mitochondrial function tests. Results: We found that TNF precisely eliminated only virus-infected hepatocytes independently of local inflammation and activation of immune sensory receptors. TNF receptor I was equally relevant for NF-kB activation in healthy and infected hepatocytes, but selectively mediated apoptosis in infected hepatocytes. Caspase 8 activation downstream of TNF receptor signaling was dispensable for apoptosis in virus-infected hepatocytes, indicating an unknown non-canonical cell-intrinsic pathway promoting apoptosis in hepatocytes. We identified a unique state of mitochondrial vulnerability in virus-infected hepatocytes as the cause for this non-canonical induction of apoptosis through TNF. Mitochondria from virus-infected hepatocytes showed normal biophysical and bioenergetic functions but were characterized by reduced resilience to calcium challenge. In the presence of unchanged TNF-induced signaling, reactive oxygen species-mediated calcium release from the endoplasmic reticulum caused mitochondrial permeability transition and apoptosis, which identified a link between extrinsic death receptor signaling and cell-intrinsic mitochondrial-mediated caspase activation. Conclusion: Our findings reveal a novel concept in immune surveillance by identifying a cell-autonomous defense mechanism that selectively eliminates virus-infected hepatocytes through mitochondrial permeability transition. Lay summary: The liver is known for its unique immune functions. Herein, we identify a novel mechanism by which virus-infected hepatocytes can selectively eliminate themselves through reduced mitochondrial resilience to calcium challenge.
AB - Background & Aims: Selective elimination of virus-infected hepatocytes occurs through virus-specific CD8 T cells recognizing peptide-loaded MHC molecules. Herein, we report that virus-infected hepatocytes are also selectively eliminated through a cell-autonomous mechanism. Methods: We generated recombinant adenoviruses and genetically modified mouse models to identify the molecular mechanisms determining TNF-induced hepatocyte apoptosis in vivo and used in vivo bioluminescence imaging, immunohistochemistry, immunoblot analysis, RNAseq/proteome/phosphoproteome analyses, bioinformatic analyses, mitochondrial function tests. Results: We found that TNF precisely eliminated only virus-infected hepatocytes independently of local inflammation and activation of immune sensory receptors. TNF receptor I was equally relevant for NF-kB activation in healthy and infected hepatocytes, but selectively mediated apoptosis in infected hepatocytes. Caspase 8 activation downstream of TNF receptor signaling was dispensable for apoptosis in virus-infected hepatocytes, indicating an unknown non-canonical cell-intrinsic pathway promoting apoptosis in hepatocytes. We identified a unique state of mitochondrial vulnerability in virus-infected hepatocytes as the cause for this non-canonical induction of apoptosis through TNF. Mitochondria from virus-infected hepatocytes showed normal biophysical and bioenergetic functions but were characterized by reduced resilience to calcium challenge. In the presence of unchanged TNF-induced signaling, reactive oxygen species-mediated calcium release from the endoplasmic reticulum caused mitochondrial permeability transition and apoptosis, which identified a link between extrinsic death receptor signaling and cell-intrinsic mitochondrial-mediated caspase activation. Conclusion: Our findings reveal a novel concept in immune surveillance by identifying a cell-autonomous defense mechanism that selectively eliminates virus-infected hepatocytes through mitochondrial permeability transition. Lay summary: The liver is known for its unique immune functions. Herein, we identify a novel mechanism by which virus-infected hepatocytes can selectively eliminate themselves through reduced mitochondrial resilience to calcium challenge.
KW - Antiviral immunity
KW - Hepatocyte apoptosis
KW - Mitochondrial function
KW - Mitochondrial permeability transition
KW - TNF
UR - http://www.scopus.com/inward/record.url?scp=85091606958&partnerID=8YFLogxK
U2 - 10.1016/j.jhep.2020.06.026
DO - 10.1016/j.jhep.2020.06.026
M3 - Article
C2 - 32598967
AN - SCOPUS:85091606958
SN - 0168-8278
VL - 73
SP - 1347
EP - 1359
JO - Journal of Hepatology
JF - Journal of Hepatology
IS - 6
ER -