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2012 | 59 | 3 |

Tytuł artykułu

Properties of B16-F10 murine melanoma cells subjected to metabolic stress conditions

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Neoplastic cells which co-form tumors are usually subjected to various stress factors, mainly hypoxia and shortage of nutrient factors. Such cells employ different strategies that permit their survival under such conditions. Experiments in vitro are usually carried out in the presence of 21% oxygen and medium supplemented with 10% FBS. Altering these parameters can approximate the in vivo conditions found within tumor mass. The present paper reports certain properties (especially ability to metastasize) of B16-F10 cells able to grow upon exposure to altered growth conditions (medium supplemented with 0.06% FBS or presence of 1% oxygen for 24 or 72 hours). These properties were compared with those of control cells cultured in the presence of 21% oxygen and in medium supplemented with 10% FBS. Some properties of the cells exposed to medium supplemented with 0.06% FBS differ from those of cells cultured under low oxygenation conditions (ability to form metastases, to migrate, or to express various proteins). Only the partial deprivation of oxygen did increase both the number of migrating cells and the number of metastases formed. Serum deficiency enhanced only the cell ability to metastasize, but not to migrate. It appears that cultured B16-F10 cells employ different adaptation strategies under conditions of oxygen shortage and those of serum deficiency. Under oxygen deprivation, such cells most likely undergo an epithelial-mesenchymal transition, whereas serum deficiency ("starvation"), while increasing the tumorigenicity of B16-F10 cells, does not induce the epithelial-mesenchymal transition.

Wydawca

-

Rocznik

Tom

59

Numer

3

Opis fizyczny

p.363-366,fig.,ref.

Twórcy

autor
  • Center for Translational Research and Molecular Biology of Cancer, Maria Sklodowska-Curie Memorial Cancer Center and Institute of Oncology, Gliwice Branch, Gliwice, Poland
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Bibliografia

  • Bursch W, Karwan A, Mayer M, Dornetshuber J, Fröhwein U, Schulte-Hermann R, Fazi B, Di Sano F, Piredda L, Piacentini M, Petrovski G, Fésüs L, Gerner C (2008) Cell death and autophagy: cytokines, drugs, and nutritional factors. Toxicology 254: 147-157.  
  • Cannito S, Novo E, Compagnone A, Valfrè di Bonzo L, Busletta C, Zamara E, Paternostro C, Povero D, Bandino A, Bozzo F, Cravanzola C, Bravoco V, Colombatto S, Parola M (2008) Redox mechanisms switch on hypoxia-dependent epithelial-mesenchymal transition in cancer cells. Carcinogenesis 29: 2267-2278.  
  • Choi KS (2012) Autophagy and cancer. Exp Mol Med 44: 109-120. 
  • Dou J, Pan M, Wen P, Li Y, Tang Q, Chu L, Zhao F, Jiang C, Hu W, Hu K, Gu N (2007) Isolation and identification of cancer stem-like cells from murine melanoma cell lines. Cell Mol Immunol 4: 467-472.  
  • Gazdar AF, Gao B, Minna JD (2010) Lung cancer cell lines: Useless artifacts or invaluable tools for medical science? Lung Cancer 68: 309-318. 
  • Gillies RJ, Gatenby RA (2007) Hypoxia and adaptive landscapes in the evolution of carcinogenesis. Cancer Metastasis Rev 26: 311-317. 
  • Hill RP, Marie-Egyptienne DT, Hedley DW (2009) Cancer stem cells, hypoxia and metastasis. Semin Radiat Oncol 19: 106-111. 
  • Lobo NA, Shimono Y, Qian D, Clarke M (2007) The biology of cancer stem cells. Annu Rev Cell Dev Biol 23: 675-699. 
  • Mani SA, Guo W, Liao MJ, Eaton EN, Ayyanan A, Zhou AY, Brooks M, Reinhard F, Zhang CC, Shipitsin M, Campbell LL, Polyak K, Brisken C, Yang J, Weinberg RA (2008) The epithelial-mesenchymal transition generates cells with properties of stem cells. Cell 133: 704-715. 
  • Polyak K, Weinberg RA (2009) Transitions between epithelial and mesenchymal states: acquisition of malignant and stem cell traits. Nat Rev Cancer 9: 265-273.  
  • van Staveren WC, Solís DY, Hébrant A, Detours V, Dumont JE, Maenhaut C (2009) Human cancer cell lines: Experimental models for cancer cells in situ? For cancer stem cells? Biochim Biophys Acta 1795: 92-103. 
  • Vaupel P, Harrison L (2004) Tumor hypoxia: causative factors, compensatory mechanisms, and cellular response. Oncologist 9 Suppl 5: 4-9.  
  • Vaupel P (2010) Metabolic microenvironment of tumor cells: a key factor in malignant progression. Exp Oncol 32: 125-127

Typ dokumentu

Bibliografia

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