Combination therapy with anamorelin and a myostatin inhibitor is advantageous for cancer cachexia in a mouse model.

Cancer cachexia is a multifactorial disease that causes continuous skeletal muscle wasting. Thereby, it seems to be a key determinant of cancer-related death. Although anamorelin, a ghrelin receptor agonist, has been approved in Japan for the treatment of cachexia, few medical treatments for cancer cachexia are currently available. Myostatin (MSTN)/growth differentiation factor 8, which belongs to the transforming growth factor-β family, is a negative regulator of skeletal muscle mass, and inhibition of MSTN signaling is expected to be a therapeutic target for muscle-wasting diseases. Indeed, we have reported that peptide-2, an MSTN-inhibiting peptide from the MSTN prodomain, alleviates muscle wasting due to cancer cachexia. Herein, we evaluated the therapeutic benefit of myostatin inhibitory D-peptide-35 (MID-35), whose stability and activity were more improved than those of peptide-2 in cancer cachexia model mice. The biologic effects of MID-35 were better than those of peptide-2. Intramuscular administration of MID-35 effectively alleviated skeletal muscle atrophy in cachexia model mice, and the combination therapy of MID-35 with anamorelin increased food intake and maximized grip strength, resulting in longer survival. Our results suggest that this combination might be a novel therapeutic tool to suppress muscle wasting in cancer cachexia.