TY - JOUR
T1 - Stemness markers characterize IGR-CaP1, a new cell line derived from primary epithelial prostate cancer
AU - Chauchereau, Anne
AU - Al Nakouzi, Nader
AU - Gaudin, Catherine
AU - Le Moulec, Sylvestre
AU - Compagno, Daniel
AU - Auger, Nathalie
AU - Bénard, Jean
AU - Opolon, Paule
AU - Rozet, François
AU - Validire, Pierre
AU - Fromont, Gaëlle
AU - Fizazi, Karim
N1 - Funding Information:
We would like to thank E. Connault and F. Tabarin for excellent technical assistance. We also thank gratefully F. Commo for his help in statistical analysis. N.A.N was supported by the Association pour la Recherche sur les Tumeurs de la Prostate (ARTP) and is supported by the Association pour la Recherche sur le Cancer (ARC). D.C. is supported by ARTP (France), by the Prostate Cancer Research Fundation (PCRF, UK) and SALES Fundation (Argentina). We also thank L. Saint-Ange for editing.
PY - 2011/2/1
Y1 - 2011/2/1
N2 - Deciphering molecular pathways involved in the early steps of prostate oncogenesis requires both in vitro and in vivo models derived from human primary tumors. However the few recognized models of human prostate epithelial cancer originate from metastases. To date, very few models are proposed from primary tumors and immortalizing normal human prostate cells does not recapitulate the natural history of the disease. By culturing human prostate primary tumor cells onto human epithelial extra-cellular matrix, we successfully selected a new prostate cancer cell line, IGR-CaP1, and clonally-derived subclones. IGR-CaP1 cells, that harbor a tetraploid karyotype, high telomerase activity and mutated TP53, rapidly induced subcutaneous xenografts in nude mice. Furthermore, IGR-CaP1 cell lines, all exhibiting negativity for the androgen receptor and PSA, express the specific prostate markers alpha-methylacyl-CoA racemase and a low level of the prostate-specific membrane antigen PSMA, along with the prostate basal epithelial markers CK5 and CK14. More importantly, these clones express high CD44, CD133, and CXCR4 levels associated with high expression of α2β1-integrin and Oct4 which are reported to be prostate cancer stemness markers. RT-PCR data also revealed high activation of the Sonic Hedgehog signalling pathway in these cells. Additionally, the IGR-CaP1 cells possess a 3D sphere-forming ability and a renewal capacity by maintaining their CSC potential after xenografting in mice. As a result, the hormone-independent IGR-CaP1 cellular clones exhibit the original features of both basal prostate tissue and cancer stemness. Tumorigenic IGR-CaP1 clones constitute invaluable human models for studying prostate cancer progression and drug assessment in vitro as well as in animals specifically for developing new therapeutic approaches targeting prostate cancer stem cells.
AB - Deciphering molecular pathways involved in the early steps of prostate oncogenesis requires both in vitro and in vivo models derived from human primary tumors. However the few recognized models of human prostate epithelial cancer originate from metastases. To date, very few models are proposed from primary tumors and immortalizing normal human prostate cells does not recapitulate the natural history of the disease. By culturing human prostate primary tumor cells onto human epithelial extra-cellular matrix, we successfully selected a new prostate cancer cell line, IGR-CaP1, and clonally-derived subclones. IGR-CaP1 cells, that harbor a tetraploid karyotype, high telomerase activity and mutated TP53, rapidly induced subcutaneous xenografts in nude mice. Furthermore, IGR-CaP1 cell lines, all exhibiting negativity for the androgen receptor and PSA, express the specific prostate markers alpha-methylacyl-CoA racemase and a low level of the prostate-specific membrane antigen PSMA, along with the prostate basal epithelial markers CK5 and CK14. More importantly, these clones express high CD44, CD133, and CXCR4 levels associated with high expression of α2β1-integrin and Oct4 which are reported to be prostate cancer stemness markers. RT-PCR data also revealed high activation of the Sonic Hedgehog signalling pathway in these cells. Additionally, the IGR-CaP1 cells possess a 3D sphere-forming ability and a renewal capacity by maintaining their CSC potential after xenografting in mice. As a result, the hormone-independent IGR-CaP1 cellular clones exhibit the original features of both basal prostate tissue and cancer stemness. Tumorigenic IGR-CaP1 clones constitute invaluable human models for studying prostate cancer progression and drug assessment in vitro as well as in animals specifically for developing new therapeutic approaches targeting prostate cancer stem cells.
KW - Basal epithelial cells
KW - Gene expression profiling
KW - Prostatic neoplasms
KW - Tumor cells cultured
KW - Tumor stem cells
UR - http://www.scopus.com/inward/record.url?scp=78650041981&partnerID=8YFLogxK
U2 - 10.1016/j.yexcr.2010.10.012
DO - 10.1016/j.yexcr.2010.10.012
M3 - Article
AN - SCOPUS:78650041981
SN - 0014-4827
VL - 317
SP - 262
EP - 275
JO - Experimental Cell Research
JF - Experimental Cell Research
IS - 3
ER -