Amino Acid Metabolism in Cancer Cachexia and Chemotherapy Myotoxicity.

Cancer induced skeletal muscle wasting (cachexia) is responsible for over 20% of cancer related deaths, yet much about the pathophysiology of the condition remains unknown. Importantly, cancer cachexia does not seem wholly responsive to traditional anabolic stimuli such as nutritional interventions. It is possible that tumours directly or indirectly target skeletal muscle for their dynamic and abundant pool of amino acids that can be reliably used by tumours to supplement energy production and biomass synthesis. Therefore, understanding how the presence of a tumour alters circulating and tissue level amino acid pools could provide valuable insight into tumour induced muscle wasting. The purpose of this review was to examine the current body of research that has studied amino acids in the context of cancer cachexia, to better understand how amino acids behave during the development of cancer, cachexia, and various cancer chemotherapies. Distinct heterogeneity was observed in the behaviour of amino acids when comparing weight stable vs. cachectic patients with cancer, and there may be important temporal considerations based on rhythmic changes in amino acid turnover and mealtimes. Overall, there was very little consistency in the reported fluctuations of amino acids from study to study, suggesting there may be heterogenous pathophysiology based on tumour type, stage, and patient age and co-morbidities. Further work is required to characterize longitudinal changes in amino acid metabolism with consideration for these factors. Enhancing our understanding of amino acid metabolism during cancer cachexia could provide opportunities for advancement in practical methodologies in cachexia research and treatment strategies.