Human and Plasmodium serine hydroxymethyltransferases differ in rate-limiting steps and pH-dependent substrate inhibition behavior

While searching for potential candidate molecules relevant for the pathogenesis of endometriosis, we discovered a 2910-base pair cDNA encoding a novel putative 411-amino acid integral membrane protein that we called shrew-1. The putative open-reading frame was confirmed with antibodies against shrew-1 peptides that labeled a protein of ϳ48 kDa in extracts of shrew-1 mRNA-positive tissue and also detected ectopically expressed shrew-1. Expression of epitopetagged shrew-1 in epithelial cells and analysis by surface biotinylation and immunoblots demonstrated that shrew-1 is indeed a transmembrane protein. Shrew-1 is able to target to E-cadherin-mediated adherens junctions and interact with the E-cadherin-catenin complex in polarized MCF7 and Madin-Darby canine kidney cells, but not with the N-cadherincatenin complex in nonpolarized epithelial cells. Direct interaction of shrew-1 with ␤-catenin in in vitro pull-down assay suggests that ␤-catenin might be one of the proteins that targets and/or retains shrew-1 in the adherens junctions. Interestingly, shrew-1 was partially translocated in response to scatter factor (ligand of receptor tyrosine kinase c-met) from the plasma membrane to the cytoplasm where it still colocalized with endogenous E-cadherin. In summary, we introduce shrew-1 as a novel component of adherens junctions, interacting with E-cadherin-␤-catenin complexes in polarized epithelial cells.

show abstract

Tracing cellular and molecular mechanisms involved in endometriosis

Starzinski‐Powitz

Gaetje²,

Zeitvogel³

et al. 1998

Human Reproduction Update

View full text Add to dashboard Cite

The aetiology and pathogenesis of endometriosis, defined as the presence of endometrium-like tissue outside the uterine cavity, is largely unknown. In this paper we present and discuss possibilities to study the putative pathogenic properties of endometriotic cells in vitro. The current focus of our investigations is on the invasive phenotype of the disease, assuming that this might contribute to the pathogenesis of endometriosis. So far, we have shown that: (i) cytokeratin-positive and E-cadherin-negative endometriotic cells have an invasive phenotype in a collagen invasion assay in vitro similar to metastatic carcinoma cells; (ii) the invasiveness of endometriotic but not of eutopic endometrial cells can be stimulated by a heat-stable protein present in peritoneal fluid; and (iii) the endometriotic cell line EEC145T, which we established, may be a useful tool for the identification of gene products which are, positively or negatively, invasion-related. Finally, our studies suggest that the invasive phenotype in endometriosis shares aspects with tumour metastasis, but might also have unique mechanisms.

show abstract

In Search of Pathogenic Mechanisms in Endometriosis: The Challenge for Molecular Cell Biology

Starzinski‐Powitz

Zeitvogel²,

Schreiner³

et al. 2001

CMM

View full text Add to dashboard Cite

Endometriosis, defined histologically as the presence of endometrium-like glands and stroma outside the uterus, is a chronic, invasive and metastasising disease. It shares features with malignant tumours (invasion and metastasis) but is not neoplastic. Despite the fact that endometriosis is one of the most frequent gynaecological diseases, it is under researched, puzzling and highly debated. The aetiology and pathogenesis is little understood although it is agreed that implantation, at least in many cases, is responsible for endometriosis. This theory advocates retrograde menstruation as the underlying phenomenon, where cells of the menstrual efflux provide the cellular source for endometriotic lesion formation. Causative therapy and non-invasive diagnostics of endometriosis do not exist. Thus, there is a substantial but unmet need for molecular and cellular research to unravel the pathogenic mechanisms of endometriosis as a basis for developing novel diagnostic and therapeutic concepts. In this review, we specifically focus on the cellular basis of lesion formation, the possible modulation of this by cytokines and other factors and the characteristics of endometriotic cells in terms of invasion and metastasis. Considering available experimental information, we concentrate on arguments and ideas in favour of an endometriotic founder cell population exhibiting substantial plasticity for differentiation and self-renewal. Perhaps present in the menstrual efflux or arising by metaplasia (a complementary theory to implantation), this cell type might respond to stimuli present in the ectopic host environment and establish the endometriotic phenotype.

show abstract

The kinetics of simian virus 40-induced progression of quiescent cells into S phase depend on four independent functions of large T antigen

Dickmanns¹,

Zeitvogel²,

Simmersbach³

et al. 1994

J Virol

View full text Add to dashboard Cite

Microinjection of purified simian virus 40 large-T-antigen protein or DNA encoding T antigen into serum-starved cells stimulates them to re-enter the cell cycle and progress through G, into the S phase. Genetic analysis of T antigen indicated that neither its Rb/p107-binding activity nor its p53-binding activity is essential to induce DNA synthesis in CV1P cells. However, T antigens bearing missense mutations that inactivate either activity induced slower progression of the cells into the S phase than did wild-type T antigen. Inactivation of both activities resulted in a T antigen essentially unable to induce DNA synthesis. Missense mutations in either the DNA-binding region or the N terminus also impaired the ability of full-length T antigen to stimulate DNA synthesis in CVlP cells. The wild-type kinetics of cell cycle progression were restored by genetic complementation after coinjection of plasmid DNAs encoding different mutant T antigens or coinjection of purified mutant T-antigen proteins, suggesting that the four mitogenic functions of T antigen are independent. The maximal rate of induction of DNA synthesis in secondary primate cells and established rodent cell lines required the same four functions of T antigen. A model to explain how four independent activities could cooperate to stimulate cell cycle progression is presented.

show abstract

Endometriose - eine Stammzellerkrankung?

Starzinski‐Powitz

Zeitvogel²,

Schreiner³

et al. 2003

Zentralbl Gynakol

View full text Add to dashboard Cite

Endometriosis is an estrogen-dependent and chronic disease with an unknown etiology and pathogenesis. It is however likely and well accepted that retrograde menstruation of endometrial cells into the pelvic cavity is the origin of this disease in many cases. Here we discuss a model in which retrogradely menstruated endometrial cells have different inherent developmental properties because they represent in fact a mixture of different developmental cell stages. These stages can be distinguished in part by the expression of marker proteins such as cytokeratin (intermediate filament protein of epithelial cells) or E-cadherin (intercellular adhesion protein of epithelial cells and metastasis suppressor molecule). Cytokeratin-positive E-cadherin negative cells, for example, would be less differentiated epithelial cells than cytokeratin-positive E-cadherin positive cells. In analogy to findings in other cell systems we assume that the cells which are undifferentiated or not fully differentiated still have the potential to give rise to differentiated daughter cells and, on the other hand, could be maintained as a pool of rather undifferentiated cells and capable of self renewal. This feature would be similar to stem cells (SC) and cells with plasticity. Interestingly we find epithelial cells of different developmental stages in deep infiltrating (e. g. of colon) or peritoneal endometriotic lesions. Therefore we conclude that less differentiated cells in retrogradely menstruated endometrial cell populations possibly representing SC features or plasticity might be the cellular source of primary endometriotic lesions and those present in lesions may contribute to the persistence of the disease by detaching and forming secondary lesions.

show abstract

O-75

Grund

Kagan

Tran

et al. 2006

Fertility and Sterility

View full text Add to dashboard Cite

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Andreas Zeitvogel

Identification of an Invasive, N-Cadherin-Expressing Epithelial Cell Type in Endometriosis Using a New Cell Culture Model

Tumor Necrosis Factor-α Regulates Inflammatory and Mesenchymal Responses via Mitogen-Activated Protein Kinase Kinase, p38, and Nuclear Factor κB in Human Endometriotic Epithelial Cells

Novel Membrane Protein shrew-1 Targets to Cadherin-Mediated Junctions in Polarized Epithelial Cells

Tracing cellular and molecular mechanisms involved in endometriosis

In Search of Pathogenic Mechanisms in Endometriosis: The Challenge for Molecular Cell Biology

The kinetics of simian virus 40-induced progression of quiescent cells into S phase depend on four independent functions of large T antigen

Endometriose - eine Stammzellerkrankung?

O-75

Contact Info

Product

Resources

About