Sex Differences in Cachexia Outcomes and Branched-Chain Amino Acid Metabolism Following Chemotherapy in Aged Mice

Cachexia is a complex muscle wasting syndrome that affects majority of hospitalized cancer patients receiving chemotherapy. It is often unresponsive to nutritional interventions, including provision of branched-chain amino acids (BCAA: leucine, isoleucine and valine). BCAA are anabolic for skeletal muscle. We wondered whether their ineffectiveness in managing cachexia might be related to altered metabolism of these amino acids, a subject that has received minimal attention. Because estrogen limits BCAA catabolism, we hypothesized that the effects of chemotherapy on cachexia in old mice would be worse in males compared to females, and that this would be related to greater tissue release of BCAA in males. To better reflect age population for which cachexia is an issue, we treated aged male and female mice (18±2 months) with the chemotherapy drug cocktail FOLFIRI (50mg/kg 5-fluorouracil (5FU), 90mg/kg Leucovorin, and 24mg/kg CPT11) or vehicle twice per week for 6 weeks. This cocktail is used in treating colon cancer. Metabolism and concentrations of the BCAA and their metabolites were measured in plasma and tissues. There was a main effect of chemotherapy, reflected in reduced body weight, skeletal muscle, myofibrillar protein content, anabolic signalling and protein synthesis. In response to chemotherapy, males showed worsened outcomes for skeletal muscle weight and ubiquitinated proteins; they also had higher total plasma BCAA but reduced muscle BCAA. There was a main effect of chemotherapy in reducing the expression of the BCAA transporter LAT1. In response to chemotherapy, gastrocnemius muscle of males but not females had reduced inhibitory phosphorylation of BCKD-E1α ^ser293 , corresponding with increased activity of this enzyme. Chemotherapy reduced muscle and liver ketoacids of the BCAA only in females. These data suggest that sex differences in BCAA catabolism may be linked to the severity of chemotherapy-induced muscle damage and interventions against cachexia need to take this into account.