Proteomic analysis identifies proteins that continue to grow hepatic stem-like cells without differentiation

To understand the molecular mechanism underlying vigorous proliferative activity of hepatic stem-like (HSL) cells, we performed two-dimensional electrophoresis to identify the proteins statistically more abundant in rapidly growing undifferentiated HSL cells than in sodium butyrate-treated differentiated HSL cells. Matrix-assisted laser desorption/ionization-time of flight mass spectrometry and Mascot search identified 6 proteins including prohibitin, vimentin, ezrin, annexin A3, acidic ribosomal phosphoprotein P0 and Grp75. Prohibitin and vimentin control the mitogen-activated protein (MAP) kinase pathway. Ezrin is phosphorylated by various protein-tyrosine kinases and modulates interactions between cytoskeletal and membrane proteins. Annexin A3 has a role in DNA synthesis. Acidic ribosomal phosphoprotein P0 and Grp75 play in protein synthesis. These results suggest that the proteins related to the MAP kinase cascade had some role in continuous proliferation of HSL cells without differentiation

An intramolecular SH3-domain interaction regulates c-Abl activity

The ABL1 proto-oncogene encodes a cytoplasmic and nuclear protein tyrosine kinase (c-Abl) that has been implicated in processes of cell differentiation, cell division, cell adhesion and stress response. Alterations of ABL1 by chromosomal rearrangement or viral transduction can lead to malignant transformation. Activity of the c-Abl protein is negatively regulated by its SH3 domain through an unknown mechanism, and deletion of the SH3 domain turns ABL1 into an oncogene. We present evidence for an intramolecular inhibitory interaction of the SH3 domain with the catalytic domain and with the linker between the SH2 and catalytic domain (SH2-CD linker). Site-directed mutations in each of these three elements activate c-Abl. Mutations in the linker cause a conformational change of the molecule and increase binding of the SH3 domain to peptide ligands. Individual mutation of two charged residues in the SH3 and catalytic domain activates c-Abl, while inhibition is restored in the double reciprocal mutant. We propose that regulators of c-Abl will have opposite effects on its activity depending on their ability to favour or disrupt these intramolecular interactions

Transcriptional regulation of the ezrin gene during rat intestinal development and epithelial differentiation

Polarized intestinal epithelial cells are characterized by the presence of a brush border at their apical surface. The brush border cytoskeleton is assembled during cell differentiation and is composed of parallel actin bundles, held together by specific actin-binding proteins. Using specific cDNA probes we have studied the expression of the mRNAs encoding ezrin and moesin, two members of a class of proteins that connect the microvillar cytoskeleton to the plasma membrane, during the process of enterocyte maturation that occurs both in the embryonic and in the adult small intestine, along the crypt-villus axis. The steady state levels of ezrin mRNA were found to increase in the fetal gut epithelium between day 15 and day 20 of gestation and during the first week after birth, in parallel with the morphogenetic process that leads to cell polarization and brush border assembly. On the contrary, moesin mRNA is expressed at very low levels in the mature small intestine, with a sudden drop in transcription occurring at birth. In the continuously renewing epithelium of adult animals, ezrin mRNA levels are higher in the differentiated villus cells of the distal portions of the gastrointestinal tract and very low in undifferentiated crypt cells. These data demonstrate that the expression of the ezrin gene is regulated at the level of mRNA abundance during development and differentiation of the intestinal epithelium

Nuclear tyrosine phosphorylation: the beginning of a map

Tyrosine phosphorylation is usually associated with cytoplasmic events. Yet, over the years, many reports have accumulated on tyrosine phosphorylation of individual molecules in the nucleus, and several tyrosine kinases and phosphatases have been found to be at least partially nuclear. The question arises as to whether nuclear tyrosine phosphorylation represents a collection of loose ends of events originating in the cytoplasm or if there may be intranuclear signaling circuits relying on tyrosine phosphorylation to regulate specific processes. The recent discovery of a mechanism causing nuclear tyrosine phosphorylation has prompted us to review the cumulative evidence for nuclear tyrosine phosphorylation pathways and their possible role. While we found that no complex nuclear function has yet been shown to rely upon intranuclear tyrosine phosphorylation in an unambiguous fashion, we found a very high number of compelling observations on individual molecules that suggest underlying networks linking individual events. A systematic proteomics approach to nuclear tyrosine phosphorylation should help chart possible interaction pathways

Regulation of human c-Abl tyrosine kinase activity in Xenopus oocytes and acceleration of progesterone-induced G2/M transition by oncogenic forms

Deregulated activity of the Abl protein tyrosine kinase is oncogenic in humans and in animals. The normal cellular form of the enzyme is maintained at a low state of activity by mechanisms that have not yet been entirely elucidated. In particular, little is known about the</p

Effects of retinoids on gene expression in different epithelial models in vivo and in vitro

We have previously reported that the induction of Vitamin A deficiency results in a threefold decrease in the hepatic expression of cellular retinol binding protein I (CRBP I) mRNA in vivo and that the treatment of intestinal cell lines in vitro with retinoids leads to the induction of CRBP I transcription. In the present paper we extend the analysis to retinoid-dependent gene expression in the testicular epithelium in vivo and in the intestinal cell line FRIC B. In rat testis excess Vitamin A results in the reduced production of mature spermatozoa and in the premature release of immature germ cells in the lumen, while Vitamin A deficiency leads to almost complete degeneration of the germinal epithelium. We show reduced level of expression of CRBP I mRNA in vitamin A deficient testis. Retinoid treatment of cultured intestinal cells, which induces a reorganization of the actin cytoskeleton, has no effect on the expression of the differentiation induced gene Dri 42. The results show that even though unable to trigger by themselves the differentiation process, retinoids exert a direct effect on the expression of specific genes

A nuclear tyrosine phosphorylation circuit: c-Jun as an activator and substrate of c-Abl and JNK

The nuclear function of the c–Abl tyrosine kinase is not well understood. In order to identify nuclear substrates of Abl, we constructed a constitutively active and nuclear form of the protein. We found that active nuclear Abl efficiently phosphorylate c–Jun, a transcription factor not previously known to be tyrosine phosphorylated. After phosphorylation of c–Jun by Abl on Tyr170, both proteins interacted via the SH2 domain of Abl. Surprisingly, elevated levels of c–Jun activated nuclear Abl, resulting in activation of the JNK serine/threonine kinase. This phosphorylation circuit generates nuclear tyrosine phosphorylation and represents a reversal of previously known signalling models