Xueliang Gao scite author profile

Summary Pyruvate kinase isoform M2 (PKM2) is a glycolysis enzyme catalyzing conversion of phosphoenolpyruvate (PEP) to pyruvate with transferring a phosphate from PEP to ADP. We report here that PKM2 localizes to the cell nucleus. The levels of nuclear PKM2 correlate with cell proliferation. PKM2 activates transcription of MEK5 by phosphorylating stat3 at Y705. In vitro phosphorylation assays show that PKM2 is a protein kinase using PEP as phosphate donor. ADP competes with the protein substrate binding, indicating that the substrate may bind to the ADP site of PKM2. Our experiments suggest that PKM2 dimer is an active protein kinase, while the tetramer is an active pyruvate kinase. Expression a PKM2 mutant that exists as a dimer promotes cell proliferation, indicating that protein kinase activity of PKM2 plays a role in promoting cell proliferation. Our study reveals an important link between metabolism alteration and gene expression during tumor transformation and progression.

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An F876L Mutation in Androgen Receptor Confers Genetic and Phenotypic Resistance to MDV3100 (Enzalutamide)

Korpal

et al. 2013

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Castration-resistant prostate cancer (CRPC) is the most aggressive, incurable form of prostate cancer. MDV3100 (enzalutamide), an antagonist of the androgen receptor (AR), was approved for clinical use in men with metastatic CRPC. Although this compound showed clinical effi cacy, many initial responders later developed resistance. To uncover relevant resistant mechanisms, we developed a model of spontaneous resistance to MDV3100 in LNCaP prostate cancer cells. Detailed characterization revealed that emergence of an F876L mutation in AR correlated with blunted AR response to MDV3100 and sustained proliferation during treatment. Functional studies confi rmed that AR F876L confers an antagonist-to-agonist switch that drives phenotypic resistance. Finally, treatment with distinct antiandrogens or cyclin-dependent kinase (CDK)4/6 inhibitors effectively antagonized AR F876L function. Together, these fi ndings suggest that emergence of F876L may (i) serve as a novel biomarker for prediction of drug sensitivity, (ii) predict a "withdrawal" response to MDV3100, and (iii) be suitably targeted with other antiandrogens or CDK4/6 inhibitors. SIGNIFICANCE:We uncovered an F876L agonist-switch mutation in AR that confers genetic and phenotypic resistance to the antiandrogen drug MDV3100. On the basis of this fi nding, we propose new therapeutic strategies to treat patients with prostate cancer presenting with this AR mutation. Cancer Discov; 3(9); 1030-43.

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The metabolic function of cyclin D3–CDK6 kinase in cancer cell survival

Wang

Nicolay

Chick

et al. 2017

Nature

284

282

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D-type cyclins (D1, D2 and D3) together with their associated cyclin-dependent kinases CDK4 and CDK6 are components of the core cell cycle machinery that drives cell proliferation1,2. Inhibitors of CDK4 and CDK6 are currently in clinical trials for patients with several cancer types, with promising results2. Here, we show that cyclin D3-CDK6 phosphorylates and inhibits the catalytic activity of two key enzymes in the glycolytic pathway, 6-phosphofructokinase and pyruvate kinase M2. This re-directs the glycolytic intermediates into the pentose phosphate (PPP) and serine pathways. Inhibition of cyclin D3-CDK6 in tumor cells reduces PPP and serine pathway flows, thereby depleting anti-oxidants NADPH and glutathione. This, in turn elevates the levels of reactive oxygen species and causes tumor cell apoptosis. The pro-survival function of cyclin D-associated kinase operates in tumors expressing high levels of cyclin D3-CDK6 complexes. We propose that measuring the levels of cyclin D3-CDK6 in human cancers might help to identify tumor subsets that undergo cell death and tumor regression upon CDK4/6-inhibition. Cyclin D3-CDK6, through its ability to link cell cycle and cell metabolism represents a particularly powerful oncogene that affects cancer cells at several levels, and this property can be exploited for anti-cancer therapy.

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Inhibition of de novo lipogenesis targets androgen receptor signaling in castration-resistant prostate cancer

Zadra

Ribeiro

Chetta

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

218

211

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SignificanceStandard of care for metastatic castration-resistant prostate cancer (mCRPC) mainly relies on suppression of androgen receptor (AR) signaling. This approach has no lasting benefit due to the emergence of resistance mechanisms, such as ligand-independent splicing variant AR-V7. A metabolic feature of mCRPC is the upregulation of de novo lipogenesis to provide substrates and fuel for metastatic spread. Whether increased levels of fats affect AR signaling to promote an aggressive disease remains to be determined. Using a selective and potent inhibitor of fatty acid synthase we demonstrate that suppression of this key enzyme inhibits AR, most importantly AR-V7, and reduces mCRPC growth. Our findings offer a therapeutic opportunity for mCRPC and a potential mechanism to overcome resistance to AR inhibitors.

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Xueliang Gao

Pyruvate Kinase M2 Regulates Gene Transcription by Acting as a Protein Kinase

An F876L Mutation in Androgen Receptor Confers Genetic and Phenotypic Resistance to MDV3100 (Enzalutamide)

The metabolic function of cyclin D3–CDK6 kinase in cancer cell survival

Inhibition of de novo lipogenesis targets androgen receptor signaling in castration-resistant prostate cancer

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