Sansone Pasquale, Storci Gianluca, Giovannini Catia, Pandolfi Silvia, Pianetti Simona, Taffurelli Mario, Santini Donatella, Ceccarelli Claudio, Chieco Pasquale, Bonafé Massimiliano
Center for Applied Biomedical Research, St. Orsola-Malpighi University Hospital, University of Bologna, Bologna, Italy.
Stem Cells. 2007 Mar;25(3):807-15. doi: 10.1634/stemcells.2006-0442. Epub 2006 Dec 7.
The comprehension of the basic biology of stem cells is expected to provide a useful insight into the pathogenesis of cancer. In particular, there is evidence that hypoxia promotes stem cell renewal in vitro as well as in vivo. It therefore seems reasonable that stem cell survival and hypoxia response are strictly connected at molecular level. We here report that the 66-kDa isoform of the SHC gene (p66Shc) is induced in a breast cancer cell line by the exposure to hypoxic environment and that it controls the expression of the stem cell regulatory gene Notch-3. Then, we show that p66Shc/Notch-3 interplay modulates self-renewal (by inducing the Notch-ligand Jagged-1) and hypoxia survival (by inducing the hypoxia-survival gene carbonic anhydrase IX) in mammary gland stem/progenitor cells, expanded in vitro as multicellular spheroids (mammospheres). We conclude that mechanisms that regulate stem cell renewal and hypoxia survival are integrated at the level of the p66Shc/Notch3 interplay. Because Notch-3, Jagged-1, and carbonic anhydrase IX are dysregulated in breast cancer, and because p66Shc is an aging-regulating gene, we envision that these data may help in understanding the relationship among aging, cancer, and stem cells.
对干细胞基本生物学的理解有望为癌症发病机制提供有益的见解。特别是,有证据表明缺氧在体外和体内均能促进干细胞更新。因此,干细胞存活与缺氧反应在分子水平上紧密相连似乎是合理的。我们在此报告,SHC基因的66 kDa异构体(p66Shc)在乳腺癌细胞系中因暴露于缺氧环境而被诱导,并且它控制干细胞调节基因Notch-3的表达。然后,我们表明p66Shc/Notch-3相互作用调节乳腺干/祖细胞的自我更新(通过诱导Notch配体Jagged-1)和缺氧存活(通过诱导缺氧存活基因碳酸酐酶IX),这些细胞在体外作为多细胞球体(乳腺球)扩增。我们得出结论,调节干细胞更新和缺氧存活的机制在p66Shc/Notch3相互作用水平上是整合的。由于Notch-3、Jagged-1和碳酸酐酶IX在乳腺癌中失调,并且由于p66Shc是一个衰老调节基因,我们设想这些数据可能有助于理解衰老、癌症和干细胞之间的关系。
