Abstract

Tandem mass tag (TMT)-based quantitative proteomics was used to examine protein expression in skeletal muscle from mice with moderate and severe cancer cachexia to study mechanisms underlying varied cachexia severity. Weight loss of 10% (moderate) and 20% (severe) was induced by injection of colon-26 cancer cells in 10-week old Balb/c mice. In moderate cachexia, enriched pathways reflected fibrin formation, integrin/mitogen-activated protein kinase (MAPK) signaling, and innate immune system, suggesting an acute phase response and fibrosis. These pathways remained enriched in severe cachexia; however, energy-yielding pathways housed in mitochondria were prominent additions to the severe state. These enrichments suggest distinct muscle proteome expression patterns that differentiate cachexia severity. When analyzed with two other mouse models, eight differentially expressed targets were shared including serine protease inhibitor A3N (Serpina3n), synaptophysin-like protein 2 (Sypl2), Isocitrate dehydrogenase [NAD] subunit alpha, mitochondrial (Idh3a), peroxisomal acyl-coenzyme A oxidase 1 (Acox1), collagen alpha-1(VI) chain (Col6a1), myozenin 3 (Myoz3), UDP-glucose pyrophosphorylase (Ugp2), and solute carrier family 41 member 3 (Slc41a3). Acox1 and Idh3a control lipid oxidation and NADH generation in the TCA cycle, respectively, and Col6a1 comprises part of type VI collagen with reported profibrotic functions, suggesting influential roles in cachexia. A potential target was identified in fragile X mental retardation syndrome-related protein 1 (FXR1), an RNA-binding protein not previously implicated in cancer cachexia. FXR1 decreased in cachexia and related linearly with weight change and myofiber size. These findings suggest distinct mechanisms associated with cachexia severity and potential biomarkers and therapeutic targets.

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