In the present study, we tested the hypothesis that resident progenitor cells may contribute to tumor vascularization and growth. CD133+ cells were isolated from 30 human renal carcinomas and characterized as renal resident progenitor cells on the basis of the expression of renal embryonic and mesenchymal stem cell markers. CD133+ progenitors differentiated into endothelial and epithelial cells as the normal CD133+ counterpart present in renal tissue. In the presence of tumor-derived growth factors, these cells were committed to differentiate into endothelial cells able to form vessels in vivo in SCID mice. Undifferentiated CD133+ progenitors were unable to form tumors when transplanted alone in SCID mice. When co-transplanted with renal carcinoma cells, CD133+ progenitors significantly enhanced tumor development and growth. This effect was not attributable to the tumorigenic nature of CD133+ progenitor cells because the same results were obtained with CD133+ cells from normal kidney. CD133+ progenitors contributed to tumor vascularization as the majority of neoformed vessels present within the transplanted tumors were of human origin and derived from the co-transplanted CD133+ progenitors. In conclusion, these results indicate the presence of a renal progenitor cell population in renal carcinomas that may differentiate in endothelial cells and favor vascularization and tumor growth.

CD133+ renal progenitor cells contribute to tumor angiogenesis

BRUNO, Stefania;BUSSOLATI, Benedetta;GRANGE, CRISTINA;COLLINO, Federica;CAMUSSI, Giovanni
2006-01-01

Abstract

In the present study, we tested the hypothesis that resident progenitor cells may contribute to tumor vascularization and growth. CD133+ cells were isolated from 30 human renal carcinomas and characterized as renal resident progenitor cells on the basis of the expression of renal embryonic and mesenchymal stem cell markers. CD133+ progenitors differentiated into endothelial and epithelial cells as the normal CD133+ counterpart present in renal tissue. In the presence of tumor-derived growth factors, these cells were committed to differentiate into endothelial cells able to form vessels in vivo in SCID mice. Undifferentiated CD133+ progenitors were unable to form tumors when transplanted alone in SCID mice. When co-transplanted with renal carcinoma cells, CD133+ progenitors significantly enhanced tumor development and growth. This effect was not attributable to the tumorigenic nature of CD133+ progenitor cells because the same results were obtained with CD133+ cells from normal kidney. CD133+ progenitors contributed to tumor vascularization as the majority of neoformed vessels present within the transplanted tumors were of human origin and derived from the co-transplanted CD133+ progenitors. In conclusion, these results indicate the presence of a renal progenitor cell population in renal carcinomas that may differentiate in endothelial cells and favor vascularization and tumor growth.
2006
169
2223
2235
Bruno S; Bussolati B; Grange C; Collino F; Graziano ME; Ferrando U; Camussi G.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/71104
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