Molfino Alessio, Imbimbo Giovanni, Gallicchio Carmen, Muscaritoli Maurizio
Department of Translational and Precision Medicine, Sapienza University of Rome, Rome, Italy.
Curr Opin Clin Nutr Metab Care. 2024 May 1;27(3):316-321. doi: 10.1097/MCO.0000000000001021. Epub 2024 Feb 12.
To describe the role of Tryptophan (Trp) metabolism and Kynurenine (Kyn) metabolites in nutritional and metabolic changes in cancer.
Trp is in part utilized for protein and neurotransmitters biosynthesis, but more than 95% is implicated in Kyn pathways. In this molecular cascade, metabolites are produced with distinct biological activities regulating the immune response and neurotransmission with potential implications in malnutrition/cachexia during cancer. Immune dysfunction is a phenomenon occurring during cancer and malnutrition. Kyn metabolites regulate lymphocytes activity and recent data in animals showed that the inhibition of indoleamine-2,3-dioxygenase (IDO) via 1-methyl-tryptophan determines partial amelioration of inflammation, but no positive effects on the preservation of muscularity were observed. Kynurenines seem to contribute to muscle catabolism via NAD+ biosynthesis and ROS generation. Trp metabolism via the serotonin biosynthesis is involved in appetite control in cancer. Moreover, kynurenines have a role in determining fatigue in conditions associated with inflammation.
Trp metabolism has implications in immune and energy balance in cancer. The modulation of Trp and kynurenines have impact on central nervous system mechanisms, including appetite, fatigue, and muscle wasting/cachexia. Research focusing on these clinical implications will open new scenario for therapeutic interventions aimed at counteracting nutritional derangements in cancer.
描述色氨酸(Trp)代谢及犬尿氨酸(Kyn)代谢产物在癌症营养和代谢变化中的作用。
Trp部分用于蛋白质和神经递质的生物合成,但超过95%参与Kyn途径。在这个分子级联反应中,会产生具有不同生物活性的代谢产物,这些代谢产物调节免疫反应和神经传递,对癌症期间的营养不良/恶病质可能产生影响。免疫功能障碍是癌症和营养不良期间出现的一种现象。Kyn代谢产物调节淋巴细胞活性,最近动物实验数据表明,通过1-甲基色氨酸抑制吲哚胺-2,3-双加氧酶(IDO)可部分改善炎症,但未观察到对肌肉维持有积极作用。犬尿氨酸似乎通过NAD+生物合成和活性氧生成促进肌肉分解代谢。通过5-羟色胺生物合成的Trp代谢参与癌症患者的食欲控制。此外,犬尿氨酸在与炎症相关的情况下导致疲劳方面起作用。
Trp代谢在癌症的免疫和能量平衡中具有重要意义。Trp和犬尿氨酸的调节对中枢神经系统机制有影响,包括食欲、疲劳和肌肉消耗/恶病质。关注这些临床意义的研究将为旨在对抗癌症营养紊乱的治疗干预开辟新的前景。
