Infection and chronic disease activate a systemic brain-muscle signaling axis.

Infection and chronic disease activate a systemic brain-muscle signaling axis.

Publication date: Jul 12, 2024

Infections and neurodegenerative diseases induce neuroinflammation, but affected individuals often show nonneural symptoms including muscle pain and muscle fatigue. The molecular pathways by which neuroinflammation causes pathologies outside the central nervous system (CNS) are poorly understood. We developed multiple models to investigate the impact of CNS stressors on motor function and found that Escherichia coli infections and SARS-CoV-2 protein expression caused reactive oxygen species (ROS) to accumulate in the brain. ROS induced expression of the cytokine Unpaired 3 (Upd3) in Drosophila and its ortholog, IL-6, in mice. CNS-derived Upd3/IL-6 activated the JAK-STAT pathway in skeletal muscle, which caused muscle mitochondrial dysfunction and impaired motor function. We observed similar phenotypes after expressing toxic amyloid-β (Aβ42) in the CNS. Infection and chronic disease therefore activate a systemic brain-muscle signaling axis in which CNS-derived cytokines bypass the connectome and directly regulate muscle physiology, highlighting IL-6 as a therapeutic target to treat disease-associated muscle dysfunction.

Concepts Keywords
Amyloid Amyloid beta-Peptides
Coli Amyloid beta-Peptides
Drosophila Animals
Models Brain
Neuroinflammation Chronic Disease
COVID-19
Drosophila melanogaster
Drosophila Proteins
Drosophila Proteins
Escherichia coli Infections
Humans
Interleukin-6
Interleukin-6
Mice
Muscle, Skeletal
Reactive Oxygen Species
Reactive Oxygen Species
SARS-CoV-2
Signal Transduction

Semantics

Type Source Name
disease MESH Infection
disease MESH chronic disease
disease MESH neurodegenerative diseases
pathway REACTOME Neurodegenerative Diseases
disease MESH neuroinflammation
disease MESH muscle fatigue
disease MESH causes
disease MESH Escherichia coli infections
disease VO SARS-CoV-2 protein
disease MESH COVID-19

Original Article

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