Macrophage Fumarate Hydratase Restrains MtRNA-mediated Interferon Production

Overview

Journal Nature

Specialty Science

Date 2023 Mar 8

PMID 36890227

Authors

Alexander Hooftman

Christian G Peace

Dylan G Ryan

Emily A Day

Ming Yang

Anne F Mcgettrick

Maureen Yin

Erica N Montano

Lihong Huo

Juliana E Toller-Kawahisa

Vincent Zecchini

Tristram A J Ryan

Alfonso Bolado-Carrancio

Alva M Casey

Hiran A Prag

Ana S H Costa

Gabriela De Los Santos

Mariko Ishimori

Daniel J Wallace

Swamy Venuturupalli

Efterpi Nikitopoulou

Norma Frizzell

Cecilia Johansson

Alexander von Kriegsheim

Michael P Murphy

Caroline Jefferies

Christian Frezza

Luke A J ONeill

Affiliations

Soon will be listed here.

Abstract

Metabolic rewiring underlies the effector functions of macrophages, but the mechanisms involved remain incompletely defined. Here, using unbiased metabolomics and stable isotope-assisted tracing, we show that an inflammatory aspartate-argininosuccinate shunt is induced following lipopolysaccharide stimulation. The shunt, supported by increased argininosuccinate synthase (ASS1) expression, also leads to increased cytosolic fumarate levels and fumarate-mediated protein succination. Pharmacological inhibition and genetic ablation of the tricarboxylic acid cycle enzyme fumarate hydratase (FH) further increases intracellular fumarate levels. Mitochondrial respiration is also suppressed and mitochondrial membrane potential increased. RNA sequencing and proteomics analyses demonstrate that there are strong inflammatory effects resulting from FH inhibition. Notably, acute FH inhibition suppresses interleukin-10 expression, which leads to increased tumour necrosis factor secretion, an effect recapitulated by fumarate esters. Moreover, FH inhibition, but not fumarate esters, increases interferon-β production through mechanisms that are driven by mitochondrial RNA (mtRNA) release and activation of the RNA sensors TLR7, RIG-I and MDA5. This effect is recapitulated endogenously when FH is suppressed following prolonged lipopolysaccharide stimulation. Furthermore, cells from patients with systemic lupus erythematosus also exhibit FH suppression, which indicates a potential pathogenic role for this process in human disease. We therefore identify a protective role for FH in maintaining appropriate macrophage cytokine and interferon responses.

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