Immune defence and protection of own cells – main regulator of hepatic metabolism identified during infection

Immune defence and protection of own cells – main regulator of hepatic metabolism identified during infection

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Immune defence and protection of own cells – main regulator of hepatic metabolism identified during infection

Researchers from the CeMM Research Center for Molecular Medicine of the Austrian Academy of Sciences in collaboration with the Vetmeduni Vienna (including members of Richard Moriggl’s group), MedUni Vienna, Hannover Medical School, St. Gallen Cantonal Hospital and Bio-Cancer Treatment International Ltd identified a key mechanism that explains how antiviral immune responses can reprogram liver metabolism. 

The liver is a crucial organ for the systemic metabolism in our body. In addition to the turnover of biomolecules and drug metabolism, the liver removes toxic substances from the organism. The liver is thus a central metabolic hub in a healthy organism, but is also a central organ in the immune defence against infections – previous studies have shown how immune cells improve the liver metabolism to fight pathogens or cancer. Based on this, the authors of the article now published in the journal Immunity examined these immune metabolic changes during viral infection of mice. In addition to the expected inflammatory changes, the authors identified strong changes in liver metabolism. They were able to show that many central metabolic pathways, including the urea cycle, are suppressed when an infection occurs. The antiviral cytokine type I interferon (IFN-I) was then identified as a regulator of the urea cycle – after removal of the receptor for IFN-I from the surface of hepatocytes, the metabolic changes were no longer observed. This was a surprising observation that shows that IFN-I influences important biological processes during an infection. The results shed a new light on how the body’s immune system has developed to regulate liver metabolism so that it controls T cell responses while reducing collateral tissue damage during infection.

Published in Immunity

Alexander Lercher*, Anannya Bhattacharya*, Alexandra M. Popa, Michael Caldera, Moritz F. Schlapansky, Hatoon Baazim, Benedikt Agerer, Bettina Gürtl, Lindsay Kosack, Peter Májek, Julia S. Brunner, Dijana Vitko, Theresa Pinter, Jakob-Wendelin Genger, Anna Orlova, Natalia Pikor, Daniela Reil, Maria Ozsvár-Kozma, Ulrich Kalinke, Burkhard Ludewig, Richard Moriggl, Keiryn L Bennett, Jörg Menche, Paul N. Cheng, Gernot Schabbauer, Michael Trauner, Kristaps Klavins and Andreas Bergthaler (*shared first authors)

Doi: https://doi.org/10.1016/j.immuni.2019.10.014