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<i>Bckdk</i>‐Mediated Branch Chain Amino Acid Metabolism Reprogramming Contributes to Muscle Atrophy during Cancer Cachexia

Li Chen, Hong Zhang, Mengyi Chi, Yaxian Wang, Xinting Zhu, Leng Han, Bo Xin, Run Gan, Yixin Tu, Xipeng Sun, Jinmiao Lu, Jie Li, Jinlu Huang, Jianping Zhang, Yonglong Han, Cheng Guo, Quanjun Yang

2023Molecular Nutrition & Food Research13 citationsDOI

Abstract

SCOPE: Branched chain amino acids (BCAAs) are essential amino acids and important nutrient signals for energy and protein supplementation. The study uses muscle-specific branched-chain α-keto acid dehydrogenase kinase (Bckdk) conditional knockout (cKO) mice to reveal the contribution of BCAA metabolic dysfunction to muscle wasting. METHOD AND RESULTS: mice. Lewis lung cancer (LLC) tumor transplantation is used to establish the cancer cachexia model. The occurrence of cancer cachexia is accelerated in the muscle-specific Bckdk-cKO mice after bearing LLC tumor. Wasting skeletal muscle is characterized by increased protein ubiquitination degradation and impaired protein synthesis. The wasting muscle gastrocnemius is mechanized as a distinct BCAA metabolic dysfunction. Based on the atrophy phenotype resulting from BCAA metabolism dysfunction, the optimized BCAA supplementation improves the survival of cancer cachexia in muscle-specific Bckdk-cKO mice bearing LLC tumors, and improves the occurrence of cancer cachexia. The mechanism of BCAA supplementation on muscle mass preservation is based on the promotion of protein synthesis and the inhibition of protein ubiquitination degradation. CONCLUSIONS: Dysfunctional BCAA metabolism contributes to the inhibition of protein synthesis and increases protein degradation in the cancer cachexia model of muscle-specific Bckdk-cKO mice bearing LLC tumors. The reprogramming of BCAA catabolism exerts therapeutic effects by stimulating protein synthesis and inhibiting protein degradation in skeletal muscle.

Topics & Concepts

CachexiaProtein degradationEndocrinologyInternal medicineBiologyWastingSkeletal muscleMuscle atrophyProtein turnoverCatabolismCancerBiochemistryMetabolismMedicineProtein biosynthesisMuscle metabolism and nutritionNutrition and Health in AgingCancer, Hypoxia, and Metabolism
<i>Bckdk</i>‐Mediated Branch Chain Amino Acid Metabolism Reprogramming Contributes to Muscle Atrophy during Cancer Cachexia | Litcius