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24.09.2015 | Original Article

Osteopontin splice variants expression is involved on docetaxel resistance in PC3 prostate cancer cells

verfasst von: K. D. M. Nakamura, T. M. Tilli, J. L. Wanderley, A. Palumbo Jr., R. M. Mattos, A. C. Ferreira, C. E. Klumb, L. E. Nasciutti, E. R. Gimba

Erschienen in: Tumor Biology | Ausgabe 2/2016

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Abstract

Osteopontin (OPN) is a phosphoprotein that activates several aspects of tumor progression. Alternative splicing of the OPN primary transcript generates three splicing isoforms, OPNa, OPNb and OPNc. In this report, we investigated some cellular mechanisms by which OPN splice variants could mediate PC3 prostate cancer (PCa) cell survival and growth in response to docetaxel (DXT)-induced cell death. Cell survival before and after DXT treatment was analyzed by phase-contrast microscopy and crystal-violet staining assays. Quantitative real-time PCR and immunocytochemical staining assays were used to evaluate the putative involvement of epithelial-mesenchymal transition (EMT) and OPN isoforms on mediating PC3 cell survival. Upon DXT treatment, PC3 cells overexpressing OPNb or OPNc isoforms showed higher cell densities, compared to cells overexpressing OPNa and controls. Notably, cells overexpressing OPNb or OPNc isoforms showed a downregulated pattern of EMT epithelial cell markers, while mesenchymal markers were mostly upregulated in these experimental conditions. We concluded that OPNc or OPNb overexpression in PC3 cells can mediate resistance and cell survival features in response to DXT-induced cell death. Our data also provide evidence the EMT program could be one of the molecular mechanisms mediating survival in OPNb- or OPNc-overexpressing cells in response to DXT treatment. These data could further contribute to a better understanding of the mechanisms by which PCa cells acquire resistance to DXT treatment.

Weber GF. The metastasis gene osteopontin: a candidate target for cancer therapy. Biochim Biophys Acta. 2001;1552:61–85.CrossRefPubMed

Rangaswami H, Bulbule A, Kundu GC. Osteopontin: role in cell signaling and cancer progression. Trends Cell Biol. 2006;16:79–87.CrossRefPubMed

Johnston NI, Gunasekharan VK, Ravindranath A, El-Tanani MK, et al. Osteopontin as a target for cancer therapy. Front Biosci. 2008;13:4361–72.CrossRefPubMed

Shevde LA, Das S, Clark DW, Samant RS. Osteopontin: an effector and an effect of tumor metastasis. Curr Mol Med. 2010;10:71–81.CrossRefPubMed

Ivanov S, Ivanova AV, Goparaju CM, Pass HI, et al. Tumorigenic properties of alternative osteopontin isoforms in mesothelioma. Biochem Biophys Res Commun. 2009;8:514–8.CrossRef

Anborgh PH, Mutrie JC, Tuck AB, Chambers AF. Pre- and post-translational regulation of osteopontin in cancer. J Cell Commun Signal. 2011;5:111–22.CrossRefPubMedPubMedCentral

He B, Mirza M, Weber GF. An osteopontin splice variant induces anchorage independence in human breast cancer. Oncogene. 2006;25:2192–202.CrossRefPubMed

Gimba ER, Tilli TM. Human osteopontin splicing isoforms: known roles, potential clinical applications and activated signaling pathways. Cancer Lett. 2013;331:11–7.CrossRefPubMed

Blasberg J, Goparaju CM, Pass HI, Donington JS. Lung cancer osteopontin isoforms exhibit angiogenic functional heterogeneity. J Thorac Cardiovasc Surg. 2009;139:1587–93.CrossRefPubMedPubMedCentral

10.

Mirza M, Shaughnessy E, Hurleym JK, Vanpattenm KA, Weber GF, et al. Osteopontin-c is a selective marker for breast cancer. Int J Cancer. 2008;122:889–97.CrossRefPubMed

11.

Tilli TM, Mello KD, Ferreira LB, Matos AR, Accioly MT, Gimba ER. Both osteopontin-c and osteopontin-b splicing isoforms exert pro-tumorigenic roles in prostate cancer cells. Prostate. 2012;72:1688–99.CrossRefPubMed

12.

Liang J, Slingerland JM. Multiple roles of the PI3K/PKB (Akt) pathway in cell cycle progression. Cell Cycle. 2003;2:339–45.CrossRefPubMed

13.

Puhr M, Hoefer J, Schäfer G, Erb HH, Oh SJ, Culig Z, et al. Epithelial-to-mesenchymal transition leads to docetaxel resistance in prostate cancer and is mediated by reduced expression of miR-200c and miR-205. Am J Pathol. 2012;181:2188–201.CrossRefPubMed

14.

Emadi BM, Soheili ZS, Schmitz I, Sameie S, Schulz WA. Snail regulates cell survival and inhibits cellular senescence in human metastatic prostate cancer cell lines. Cell Biol Toxicol. 2010;26(6):553–67.CrossRef

15.

Jennbacken K, Tesan T, Wang W, Gustavsson H, Damber JE, Welén K. N-cadherin increases after androgen deprivation and is associated with metastasis in prostate cancer. Endocr Relat Cancer. 2010;17(2):469–79.CrossRefPubMed

16.

Sánchez C, Mendoza P, Contreras HR, Vergara J, Castellón EA, et al. Expression of multidrug resistance proteins in prostate cancer is related with cell sensitivity to chemotherapeutic drugs. Prostate. 2009;69:1448–59.CrossRefPubMed

17.

Chi KN, Siu LL, Hirte H, Hotte SJ, Knox J, Eisenhauer E, et al. A phase I study of OGX-011, a 2′-methoxyethyl phosphorothioate antisense to clusterin, in combination with docetaxel in patients with advanced cancer. Clin Cancer Res. 2008;14(3):833–9.CrossRefPubMed

18.

Tolcher AW, Chi K, Kuhn J, Gleave M, Patnaik A, Rowinsky E, et al. A phase II, pharmacokinetic, and biological correlative study of oblimersen sodium and docetaxel in patients with hormone-refractory prostate cancer. Clin Cancer Res. 2002;11(10):3854–61.CrossRef

19.

Patterson SG, Wei S, Chen X, Sallman DA, Gilvary DL, Djeu JY, et al. Novel role of Stat1 in the development of docetaxel resistance in prostate tumor cells. Oncogene. 2006;25(45):6113–22.CrossRefPubMed

20.

Domingo-Domenech J, Oliva C, Rovira A, Codony-Servat J, Bosch M, Mellado B, et al. Interleukin 6, a nuclear factor-kappaB target, predicts resistance to docetaxel in hormone-independent prostate cancer and nuclear factor-kappaB inhibition by PS-1145 enhances docetaxel antitumor activity. Clin Cancer Res. 2006;12(18):5578–86.CrossRefPubMed

21.

Maddika S, Ande SR, Panigrahi S, Paranjothy T, Weglarczyk K, Los M, et al. Cell survival, cell death and cell cycle pathways are interconnected: implications for cancer therapy. Drug Resist Updat. 2007;10(1–2):13–29.CrossRefPubMed

22.

Dorsey K, Agulnik M. Promising new molecular targeted therapies in head and neck cancer. Drugs. 2013;73:315–25.CrossRefPubMed

23.

Li YS, Deng ZH, Zeng C, Lei GH. Role of osteopontin in osteosarcoma. Med Oncol. 2015;32(1):49.

24.

Nakamura T, Shinriki S, Jono H, Ueda M, Nagata M, Ando Y, et al. Osteopontin-integrin αvβ3 axis is crucial for 5-fluorouracil resistance in oral squamous cell carcinoma. FEBS Lett. 2015;589(2):231–9.CrossRefPubMed

25.

Hsu KH, Tsai HW, Lin PW, Hsu YS, Lu PJ, Shan YS. Anti-apoptotic effects of osteopontin through the up-regulation of Mcl-1 in gastrointestinal stromal tumors. World J Surg Oncol. 2014;12:189.CrossRefPubMedPubMedCentral

26.

Graessmann M, Berg B, Fuchs B, Klein A, Graessmann A. Chemotherapy resistance of mouse WAP-SVT/t breast cancer cells is mediated by osteopontin, inhibiting apoptosis downstream of caspase-3. Oncogene. 2007;6(20):2840–50.CrossRef

27.

Hsieh IS, Huang WH, Liou HC, Chuang WJ, Yang RS, Fu WM. Upregulation of drug transporter expression by osteopontin in prostate cancer cells. Mol Pharmacol. 2013;83(5):968–77.CrossRefPubMed

28.

Magadoux L, Isambert N, Plenchette S, Jeannin JF, Laurens V. Emerging targets to monitor and overcome docetaxel resistance in castration resistant prostate cancer (review). Int J Oncol. 2014;45(3):919–28.PubMed

29.

Sartor O, Michels RM, Massard C, de Bono JS. Novel therapeutic strategies for metastatic prostate cancer in the post-docetaxel setting. Oncologist. 2001;16(11):487–97.

30.

Ganju A, Yallapu MM, Khan S, Behrman SW, Chauhan SC, Jaggi M. Nanoways to overcome docetaxel resistance in prostate cancer. Drug Resist Updat. 2014;17(1–2):13–23.CrossRefPubMedPubMedCentral

31.

Chang L, Graham PH, Hao J, Ni J, Bucci J, Li Y, et al. Acquisition of epithelial-mesenchymal transition and cancer stem cell phenotypes is associated with activation of the PI3K/Akt/mTOR pathway in prostate cancer radioresistance. Cell Death Dis. 2013;24(4):e875.CrossRef

32.

Arumugam T, Ramachandran V, Fournier KF, Wang H, Marquis L, Choi W, et al. Epithelial to mesenchymal transition contributes to drug resistance in pancreatic cancer. Cancer Res. 2009;69:5820–8.CrossRefPubMedPubMedCentral

33.

Leibowitz-Amit R, Joshua AM. The changing landscape in metastatic castration-resistant prostate cancer. Curr Opin Support Palliat Care. 2013;7:243–8.CrossRefPubMed

34.

Wissing MD, Van Diest PJ, Van der Wall E, Gelderblom H. Antimitotic agents for the treatment of patients with metastatic castrate-resistant prostate cancer. Expert Opin Investig Drugs. 2013;22:635–61.CrossRefPubMed

35.

Oltean S, Bates DO. Hallmarks of alternative splicing in cancer. Oncogene. 2014;33(46):311–8.CrossRef

36.

Marín-Aguilera M, Codony-Servat J, Reig O, Lozano JJ, Fernández PL, Mellado B. Epithelial-to-mesenchymal transition mediates docetaxel resistance and high risk of relapse in prostate cancer. Mol Cancer Ther. 2014;13:1270–84.CrossRefPubMed

37.

Guo YL, Chakraborty S, Rajan SS, Wang R, Huang F. Effects of oxidative stress on mouse embryonic stem cell proliferation, apoptosis, senescence, and self-renewal. Stem Cells Dev. 2010;19:1321–31.CrossRefPubMedPubMedCentral

38.

Ewald JA, Desotelle GW, Wilding G, Jarrard DF. Therapy-induced senescence in cancer. J Natl Cancer Inst. 2010;102:1536–46.CrossRefPubMedPubMedCentral

39.

Boidot R, Vegran F, Lizard-Nacol S. Predictive value of surviving alternative transcript expression in locally advanced breast cancer patients treated with neoadjuvant chemotherapy. Int J Mol Med. 2009;23:285–91.PubMed

40.

Thadani-Mulero M, Portella L, Sun S, Sung M, Matov A, Giannakakou P, et al. Androgen receptor splice variants determine taxane sensitivity in prostate cancer. Cancer Res. 2014;74:2270–82.CrossRefPubMedPubMedCentral

41.

Couter D, Cao H, Kwok S, Kong C, Banh A, Le QT, et al. The RGD domain of human osteopontin promotes tumor growth and metastasis through activation of survival pathways. PLoS ONE. 2010;5(3):e9633.CrossRef

Titel: Osteopontin splice variants expression is involved on docetaxel resistance in PC3 prostate cancer cells
verfasst von: K. D. M. Nakamura
T. M. Tilli
J. L. Wanderley
A. Palumbo Jr.
R. M. Mattos
A. C. Ferreira
C. E. Klumb
L. E. Nasciutti
E. R. Gimba
Publikationsdatum: 24.09.2015
Verlag: Springer Netherlands
Erschienen in: Tumor Biology / Ausgabe 2/2016
Print ISSN: 1010-4283
Elektronische ISSN: 1423-0380
DOI: https://doi.org/10.1007/s13277-015-4095-6

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25.04.2024 | Nierenkarzinom | Nachrichten

Springer Medizin

Osteopontin splice variants expression is involved on docetaxel resistance in PC3 prostate cancer cells

Abstract

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Springer Medizin

Abstract

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