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《Cell cycle (Georgetown, Tex.)》2013,12(6):638-642
While the activity of Snail genes is required during embryonic development for the formation of different tissues and organs, they must be repressed in the adult in order to maintain epithelial integrity and homeostasis. Indeed, pathological activation of Snail in epithelial tumors induces malignancy and the recurrence of tumors. Here we show that in dedifferentiated areas of human renal carcinomas, Snail undergoes a process of reactivation. In addition to tumor progression, renal fibrosis is also linked to the activity of Snail genes and indeed, reactivation of Snail in the adult kidney is sufficient to induce fibrosis. Thus, Snail genes illustrate a paradigm whereby reactivation of crucial embryonic genes in adult tissues provokes the onset of devastating diseases. 相似文献
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Snail induction of epithelial to mesenchymal transition in tumor cells is accompanied by MUC1 repression and ZEB1 expression 总被引:13,自引:0,他引:13
Guaita S Puig I Franci C Garrido M Dominguez D Batlle E Sancho E Dedhar S De Herreros AG Baulida J 《The Journal of biological chemistry》2002,277(42):39209-39216
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Martínez-Alvarez C Blanco MJ Pérez R Rabadán MA Aparicio M Resel E Martínez T Nieto MA 《Developmental biology》2004,265(1):207-218
Palate fusion is a complex process that involves the coordination of a series of cellular changes including cell death and epithelial to mesenchymal transition (EMT). Since members of the Snail family of zinc-finger regulators are involved in both triggering of the EMT and cell survival, we decided to study their putative role in palatal fusion. Furthermore, Snail genes are induced by transforming growth factor beta gene (TGF-beta) superfamily members, and TGF-beta(3) null mutant mice (TGF-beta(3)-/-) show a cleft palate phenotype. Here we show that in the wild-type mouse at the time of fusion, Snail is expressed in a few cells of the midline epithelial seam (MES), compatible with a role in triggering of the EMT in a small subpopulation of the MES. We also find an intriguing relationship between the expression of Snail family members and cell survival associated to the cleft palate condition. Indeed, Snail is expressed in the medial edge epithelial (MEE) cells in TGF-beta(3)-/-mouse embryo palates, where it is activated by the aberrant expression of its inducer, TGF-beta(1), in the underlying mesenchyme. In contrast to Snail-deficient wild-type pre-adhesion MEE cells, Snail-expressing TGF-beta(3) mutant MEE cells survive as they do their counterparts in the chick embryo. Interestingly, Slug is the Snail family member expressed in the chick MEE, providing another example of interchange of Snail and Slug expression between avian and mammalian embryos. We propose that in the absence of TGF-beta(3), TGF-beta(1) is upregulated in the mesenchyme, and that in both physiological (avian) and pathological (TGF-beta(3)-/-mammalian) cleft palates, it induces the expression of Snail genes promoting the survival of the MEE cells and permitting their subsequent differentiation into keratinized stratified epithelium. 相似文献