Epithelial-to-mesenchymal transition (EMT) is a coordinated process, occurring both during morphogenesis and tumor progression, that allows epithelial cells to dissociate from initial contacts and migrate to secondary sites. The transcriptional repressors of the Snail family induce EMT in different epithelial cell lines and their expression is strictly correlated with EMT during the development and progression of carcinomas. We have previously shown that EMT in hepatocytes correlates with the downregulation of hepatic differentiation key factors HNFs (hepatocyte nuclear factors), and in particular of HNF4alpha. Here, we demonstrate that Snail overexpression is sufficient (i) to induce EMT in hepatocytes with conversion of morphology, downregulation of several epithelial adhesion molecules, reduction of proliferation and induction of matrix metalloproteinase 2 expression and, (ii) most relevantly, to repress the transcription of the HNF4alpha gene through a direct binding to its promoter. These finding demonstrate that Snail is at the crossroads of the regulation of EMT in hepatocytes by a dual control of epithelial morphogenesis and differentiation.
U16 belongs to the family of box C/D small nucleolar RNAs (snoRNAs) whose members participate in ribosome biogenesis, mainly acting as guides for site-specific methylation of the pre-rRNA. Like all the other members of the family, U16 is associated with a set of protein factors forming a ribonucleoprotein particle, localized in the nucleolus. So far, only a few box C/D-specific proteins are known: in Xenopus laevis, fibrillarin and p68 have been identified by UV crosslinking and shown to require the conserved boxes C and D for snoRNA interaction. In this study, we have identified an additional protein factor (p62), common to box C/D snoRNPs, that crosslinks to the internal stem region, distinct from the conserved box C/D "core motif," of U16 snoRNA. We show here that, although the absence of the core motif and, as a consequence, of fibrillarin and p68 binding prevents processing and accumulation of the snoRNA, the lack of the internal stem does not interfere with the efficient release of U16 from its host intron and only slightly affects snoRNA stability. Because this region is likely to be the binding site for p62, we propose that this protein plays an accessory role in the formation of a mature and stable U16 snoRNP particle.
Background: Primary hepatocytes, one of the most widely used cell types for toxicological studies, have a very limited life span and must be freshly derived from mice or even humans. Attempts to use stable cell lines maintaining the enzymatic pattern of liver cells have been so far unsatisfactory. Stress proteins (heat shock proteins, HSPs) have been proposed as general markers of cellular injury and their use for environmental monitoring has been suggested. The aim of this work is to develop a bi-transgenic hepatocyte cell line in order to evaluate the ability of various organic and inorganic chemicals to induce the expression of the HSP70 driven reporter gene.
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