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  • Phosphatase of regenerating liver-3 regulates cancer cell metabolism in multiple myeloma.

Phosphatase of regenerating liver-3 regulates cancer cell metabolism in multiple myeloma.

FASEB journal : official publication of the Federation of American Societies for Experimental Biology (2021-02-11)
Pegah Abdollahi, Esten N Vandsemb, Samah Elsaadi, Lisa M Røst, Rui Yang, Magnus A Hjort, Trygve Andreassen, Kristine Misund, Tobias S Slørdahl, Torstein B Rø, Anne-Marit Sponaas, Siver Moestue, Per Bruheim, Magne Børset
ABSTRACT

Cancer cells often depend on microenvironment signals from molecules such as cytokines for proliferation and metabolic adaptations. PRL-3, a cytokine-induced oncogenic phosphatase, is highly expressed in multiple myeloma cells and associated with poor outcome in this cancer. We studied whether PRL-3 influences metabolism. Cells transduced to express PRL-3 had higher aerobic glycolytic rate, oxidative phosphorylation, and ATP production than the control cells. PRL-3 promoted glucose uptake and lactate excretion, enhanced the levels of proteins regulating glycolysis and enzymes in the serine/glycine synthesis pathway, a side branch of glycolysis. Moreover, mRNAs for these proteins correlated with PRL-3 expression in primary patient myeloma cells. Glycine decarboxylase (GLDC) was the most significantly induced metabolism gene. Forced GLDC downregulation partly counteracted PRL-3-induced aerobic glycolysis, indicating GLDC involvement in a PRL-3-driven Warburg effect. AMPK, HIF-1α, and c-Myc, important metabolic regulators in cancer cells, were not mediators of PRL-3's metabolic effects. A phosphatase-dead PRL-3 mutant, C104S, promoted many of the metabolic changes induced by wild-type PRL-3, arguing that important metabolic effects of PRL-3 are independent of its phosphatase activity. Through this study, PRL-3 emerges as one of the key mediators of metabolic adaptations in multiple myeloma.

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