Human neuromuscular organoids mimic cancer-induced muscle cachexia.

Cancer cachexia, a devastating metabolic wasting syndrome affecting up to 80% of solid cancer patients, remains incurable despite advances in tumor biology understanding. This study introduces neuromuscular organoids (NMOs) derived from human-induced pluripotent stem cells (hiPSCs) as a platform to investigate cancer-driven muscle cachexia. We found that NMOs respond well to atrophic stimuli and replicate the key features of cancer cachexia when treated with conditioned media derived from cachexia-inducing cancer cells. Specifically, cachectic NMOs showed muscle mass loss, impairment of muscle contraction, alteration of intracellular calcium homeostasis, appearance of mitochondrial dysfunction with a metabolic shift, and enhancement of autophagy. Based on these results, we propose NMOs derived from hiPSCs as an in vitro tool for investigating human muscle cachexia, with potential future avenues of patient-specific modeling and therapeutic screening.