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Loss of tyrosine catabolic enzyme HPD promotes glutamine anaplerosis through mTOR signaling in liver cancer.

Cell reports (2021-08-26)
Man Tong, Tin-Lok Wong, Hongzhi Zhao, Yuanyuan Zheng, Yu-Nong Xie, Cheuk-Hin Li, Lei Zhou, Noélia Che, Jing-Ping Yun, Kwan Man, Terence Kin-Wah Lee, Zongwei Cai, Stephanie Ma
RESUMEN

The liver plays central roles in coordinating different metabolic processes, such as the catabolism of amino acids. In this study, we identify a loss of tyrosine catabolism and a concomitant increase in serum tyrosine levels during liver cancer development. Liver cells with disordered tyrosine catabolism, as exemplified by the suppression of a tyrosine catabolic enzyme 4-hydroxyphenylpyruvate dioxygenase (HPD), display augmented tumorigenic and proliferative potentials. Metabolomics profiling and isotope tracing reveal the metabolic reliance of HPD-silenced cells on glutamine, coupled with increased tricarboxylic acid cycle metabolites and their associated amino acid pools. Mechanistically, HPD silencing reduces ketone bodies, which regulate the proliferative and metabolic phenotypes via the AMPK/mTOR/p70S6 kinase pathway and mTOR-dependent glutaminase (GLS) activation. Collectively, our results demonstrate a metabolic link between tyrosine and glutamine metabolism, which could be exploited as a potentially promising anticancer therapy for liver cancer.

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Sigma-Aldrich
Anti-β-actina monoclonal antibody produced in mouse, clone AC-74, ascites fluid
Sigma-Aldrich
Nitisinone, ≥95% (HPLC)
Sigma-Aldrich
L-Glutamic acid γ-(4-nitroanilide), γ-glutamyl transpeptidase substrate