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Open Access 01-12-2015 | Primary research

The association between Salt-inducible kinase 2 (SIK2) and gamma isoform of the regulatory subunit B55 of PP2A (B55gamma) contributes to the survival of glioma cells under glucose depletion through inhibiting the phosphorylation of S6K

Authors: Ya-nan Li, Yi-qun Cao, Xi Wu, Guo-sheng Han, Lai-xing Wang, Yu-hui Zhang, Xin Chen, Bin Hao, Zhi-jian Yue, Jian-min Liu

Published in: Cancer Cell International | Issue 1/2015

Abstract

Background

PPP2R2C encodes a gamma isoform of the regulatory subunit B55 subfamily consisting PP2A heterotrimeric with A and C subunits. Currently, the precise functions of B55gamma in cancer are still under investigating. In this project, we reported a novel function of B55gamma in the regulation of glucose metabolism in Glioma cells.

Methods

Western blot and immunoprecipitation were performed to determine protein expression and interaction. Cell viability was measured by Typan Blue staining and direct cell counting using hematocytometer. siRNA technology was used to down regulate protein expression.

Results

Glucose uptake and lactate product were suppressed by overexpression of B55gamma in Glioma cells. In addition, cancer cells with larger amount of B55gamma showed higher survival advantages in response to glucose starvation through the dephosphorylation of S6K. From proteomic analysis, we found B55gamma binds with and up regulates SIK2 through the stabilization of SIK2 protein which is required for the B55gamma-mediated suppression of S6K pathway. Knocking down of SIK2 in B55gamma over expressing cells recovered the phosphorylation of S6K.

Conclusion

In summary, our project will provide novel insight into the design and development of therapeutic strategies to target the B55gamma-mediated glucose metabolism for the treatment of human brain tumor patients.

Seshacharyulu P, Pandey P, Datta K, Batra SK. Phosphatase: PP2A structural importance, regulation and its aberrant expression in cancer. Cancer Lett. 2013;335:9–18.CrossRefPubMedCentralPubMed

Tonks NK. Protein tyrosine phosphatases: from genes, to function, to disease. Nat Rev Mol Cell Biol. 2006;7:833–46.CrossRefPubMed

Abraham D, Podar K, Pacher M, Kubicek M, Welzel N, Hemmings BA, et al. Raf-1-associated protein phosphatase 2A as a positive regulator of kinase activation. J Biol Chem. 2000;275:22300–4.CrossRefPubMed

Bae D, Ceryak S. Raf-independent, PP2A-dependent MEK activation in response to ERK silencing. Biochem Biophys Res Commun. 2009;385:523–7.CrossRefPubMedCentralPubMed

Kuo YC, Huang KY, Yang CH, Yang YS, Lee WY, Chiang CW. Regulation of phosphorylation of Thr-308 of Akt, cell proliferation, and survival by the B55alpha regulatory subunit targeting of the protein phosphatase 2A holoenzyme to Akt. J Biol Chem. 2008;283:1882–92.CrossRefPubMed

Sablina AA, Hector M, Colpaert N, Hahn WC. Identification of PP2A complexes and pathways involved in cell transformation. Cancer Res. 2010;70:10474–84.CrossRefPubMedCentralPubMed

Eichhorn PJ, Creyghton MP, Wilhelmsen K, van Dam H, Bernards R. A RNA interference screen identifies the protein phosphatase 2A subunit PR55gamma as a stress-sensitive inhibitor of c-SRC. PLoS Genet. 2007;3:e218.CrossRefPubMedCentralPubMed

Bluemn EG, Spencer ES, Mecham B, Gordon RR, Coleman I, Lewinshtein D, et al. PPP2R2C loss promotes castration-resistance and is associated with increased prostate cancer-specific mortality. Mol Cancer Res. 2013;11:568–78.CrossRefPubMedCentralPubMed

Vander HM, Cantley LC, Thompson CB. Understanding the Warburg effect: the metabolic requirements of cell proliferation. Science. 2009;324:1029–33.CrossRef

10.

Jang M, Kim SS, Lee J. Cancer cell metabolism: implications for therapeutic targets. Exp Mol Med. 2013;45:e45.CrossRefPubMedCentralPubMed

11.

Coloff JL, Macintyre AN, Nichols AG, Liu T, Gallo CA, Plas DR, et al. Akt-dependent glucose metabolism promotes Mcl-1 synthesis to maintain cell survival and resistance to Bcl-2 inhibition. Cancer Res. 2011;71:5204–13.CrossRefPubMedCentralPubMed

12.

Riley JK, Carayannopoulos MO, Wyman AH, Chi M, Moley KH. Phosphatidylinositol 3-kinase activity is critical for glucose metabolism and embryo survival in murine blastocysts. J Biol Chem. 2006;281:6010–9.CrossRefPubMed

13.

Cheung EC, Vousden KH. The role of p53 in glucose metabolism. Curr Opin Cell Biol. 2010;22:186–91.CrossRefPubMed

14.

Du Y, Kowluru A, Kern TS. PP2A contributes to endothelial death in high glucose: inhibition by benfotiamine. Am J Physiol Regul Integr Comp Physiol. 2010;299:R1610–7.CrossRefPubMedCentralPubMed

15.

Cvrljevic AN, Akhavan D, Wu M, Martinello P, Furnari FB, Johnston AJ, et al. Activation of Src induces mitochondrial localisation of de2-7EGFR (EGFRvIII) in glioma cells: implications for glucose metabolism. J Cell Sci. 2011;124:2938–50.CrossRefPubMedCentralPubMed

16.

Gaglio D, Metallo CM, Gameiro PA, Hiller K, Danna LS, Balestrieri C, et al. Oncogenic K-Ras decouples glucose and glutamine metabolism to support cancer cell growth. Mol Syst Biol. 2011;7:523.CrossRefPubMedCentralPubMed

17.

Dang CV, Le A, Gao P. MYC-induced cancer cell energy metabolism and therapeutic opportunities. Clin Cancer Res. 2009;15:6479–83.CrossRefPubMedCentralPubMed

18.

Okamoto M, Takemori H, Katoh Y. Salt-inducible kinase in steroidogenesis and adipogenesis. Trends Endocrinol Metab. 2004;15:21–6.CrossRefPubMed

19.

Sasaki T, Takemori H, Yagita Y, Terasaki Y, Uebi T, Horike N, et al. SIK2 is a key regulator for neuronal survival after ischemia via TORC1-CREB. Neuron. 2011;69:106–19.CrossRefPubMed

20.

Backx L, Vermeesch J, Pijkels E, de Ravel T, Seuntjens E, Van Esch H. PPP2R2C, a gene disrupted in autosomal dominant intellectual disability. Eur J Med Genet. 2010;53:239–43.CrossRefPubMed

21.

Gleason CE, Lu D, Witters LA, Newgard CB, Birnbaum MJ. The role of AMPK and mTOR in nutrient sensing in pancreatic beta-cells. J Biol Chem. 2007;282:10341–51.CrossRefPubMed

22.

Fan YL, Chen L, Wang J, Yao Q, Wan JQ. Over expression of PPP2R2C inhibits human glioma cells growth through the suppression of mTOR pathway. FEBS Lett. 2013;587:3892–7.CrossRefPubMed

Title: The association between Salt-inducible kinase 2 (SIK2) and gamma isoform of the regulatory subunit B55 of PP2A (B55gamma) contributes to the survival of glioma cells under glucose depletion through inhibiting the phosphorylation of S6K
Authors: Ya-nan Li
Yi-qun Cao
Xi Wu
Guo-sheng Han
Lai-xing Wang
Yu-hui Zhang
Xin Chen
Bin Hao
Zhi-jian Yue
Jian-min Liu
Publication date: 01-12-2015
Publisher: BioMed Central
Published in: Cancer Cell International / Issue 1/2015
Electronic ISSN: 1475-2867
DOI: https://doi.org/10.1186/s12935-015-0164-6

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Abstract

Background

Methods

Results

Conclusion

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