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Formation of colorectal liver metastases induces musculoskeletal and metabolic abnormalities consistent with exacerbated cachexia
Joshua R. Huot, Leah J. Novinger, Fabrizio Pin, Ashok Narasimhan, Teresa A. Zimmers, Thomas M. O’Connell, Andrea Bonetto
Joshua R. Huot, Leah J. Novinger, Fabrizio Pin, Ashok Narasimhan, Teresa A. Zimmers, Thomas M. O’Connell, Andrea Bonetto
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Research Article Cell biology Muscle biology

Formation of colorectal liver metastases induces musculoskeletal and metabolic abnormalities consistent with exacerbated cachexia

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Abstract

Advanced colorectal cancer (CRC) is often accompanied by development of liver metastases (LMs) and skeletal muscle wasting (i.e., cachexia). Despite plaguing the majority of CRC patients, cachexia remains unresolved. By using mice injected with Colon-26 mouse tumors, either subcutaneously (s.c.; C26) or intrasplenically to mimic hepatic dissemination of cancer cells (mC26), here we aimed to further characterize functional, molecular, and metabolic effects on skeletal muscle and examine whether LMs exacerbate CRC-induced cachexia. C26-derived LMs were associated with progressive loss of body weight, as well as with significant reductions in skeletal muscle size and strength, in line with reduced phosphorylation of markers of protein anabolism and enhanced protein catabolism. mC26 hosts showed prevalence of fibers with glycolytic metabolism and enhanced lipid accumulation, consistent with abnormalities of mitochondrial homeostasis and energy metabolism. In a comparison with mice bearing s.c. C26, cachexia appeared exacerbated in the mC26 hosts, as also supported by differentially expressed pathways within skeletal muscle. Overall, our model recapitulates the cachectic phenotype of metastatic CRC and reveals that formation of LMs resulting from CRC exacerbate cancer-induced skeletal muscle wasting by promoting differential gene expression signatures.

Authors

Joshua R. Huot, Leah J. Novinger, Fabrizio Pin, Ashok Narasimhan, Teresa A. Zimmers, Thomas M. O’Connell, Andrea Bonetto

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Figure 2

mC26 induces muscle atrophy and weakness.

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mC26 induces muscle atrophy and weakness.
(A) Muscle weights normalized ...
(A) Muscle weights normalized to initial body weight (IBW) in CD2F1 male mice (12 weeks old) intrasplenically injected with C26 tumor cells (250,000 cells/mouse in sterile PBS, mC26) or an equal volume of vehicle (Sham) (n = 5). (B) Weekly whole body grip strength assessment (expressed in grams). (C) Cross-sectional area (CSA) of entire tibialis anterior muscles and representative CSA image of tibialis anterior muscle sections stained with anti-dystrophin antibody. Scale bars: 100 μm. Data are expressed as mean ± SD. Two-tailed t tests were used to determine differences between Sham and mC26. *P < 0.05, **P < 0.01 versus Sham.

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