Browsing by Subject "Desmosome"
Now showing 1 - 4 of 4
Results Per Page
Sort Options
- PublicationOpen AccessDesmosomes and disease(Murcia : F. Hernández, 1997) Chidgey, M.A.J.Considerable progress has been made in our knowledge of desmosomes and their components. Molecular cloning of the desmosomal glycoproteins has established that desmoglein 1 and desmoglein 3 are targets for autoantibodies in the blistering diseases pemphigus foliaceus and pemphigus vulgaris respectively. New evidence suggests that another desmosomal glycoprotein, desmocollin 1, is the major target antigen in the upper epidermal form of intercellular IgA dermatosis (IgA pemphigus). In human cancer there is accumulating evidence which suggests a role for desmosomes in the prevention of invasion and metastasis. The possibility exists that a mutation in a desmosomal glycoprotein gene is responsible for an inheritable human disease, the striated form of palmoplantar keratodenna.
- PublicationOpen AccessDesmosomes and disease: an update(Murcia : F. Hernández, 2002) Chidgey, M.A.J.Desmosomes play a critical role in the maintenance of normal tissue architecture. Skin blistering can occur when desmosomal adhesion is compromised by antibodies in autoimmune diseases such as pemphigus. Inherited mutations in genes encoding desmosomal constituents can adversely affect the skin, and result in heart abnormalities. Desmosomes may have a tumour suppressor function: expression of desmosomal components is reduced in some human cancers, and desmosomal cadherins have the capacity to suppress the invasiveness of cells in culture. Transgenic animal research has provided important insights into the role of these junctions in normal epithelial morphogenesis and disease.
- PublicationOpen AccessHuman keratinocytes cultured without a feeder layer undergo progressive loss of differentiation markers(Murcia : F. Hernández, 1999) Prignano, F.; Domenici Lombardo, L.; Gerlini, G.; Pimpinelli, N.; Romagnoli, P.Culture of keratinocytes in conventional medium without a mesenchyme-derived feeder layer leads to poor growth and impaired differentiation; however, the exact pathway and degree of differentiation achieved in such conditions is unclear. We have cultured normal human keratinocytes in Rheinwald and Green's medium, on plastic without a feeder layer, in order to investigate the degree of differentiation that they achieve in these conditions. Intermediate filament proteins, tonofibrils and desmosomes were assumed as markers of differentiation and their expression was analyzed by immunohistochemistry and electron micros~opy. Before reaching confluence, keratinocytes expressed keratin molecules, as well as vimentin, and formed tonofibrils and desmosomes. The expression of these markers was progressively reduced until confluence and was totally lost thereafter, while cultures could be propagated for at least six passages. On the contrary, reseeding on a feeder layer after the first passage led to rapid cell death. It could be concluded that signals from a feeder layer are relevant to support continuous synthesis of intermediate filaments proteins and formation of tonofibils and desmosomes, and that the derangement of the cytoskeleton in these conditions leads to altered, not simply defective, response to delayed stimulation by a feeder layer.
- PublicationOpen AccessRenal clear-cell carcinoma: an ultrastructural study on the junctional complexes(Murcia : F. Hernández, 2005) Kim, G.; Rajasekaran, Sigrid A.; Thomas, G.; Rosen, E.A.; Landaw, E.M.; Shintaku, P.; Lassman, C.; Said, J.; Rajasekaran, Ayyappan K.Junctional complexes such as tight junctions, adherens junctions, and desmosomes play crucial roles in the structure and function of epithelial cells. These junctions are involved in increasing cell-cell contact and as well serve as signaling centers regulating multiple functions in epithelial cells. Carcinoma cell lines cultured in the laboratory generally lack junctional complexes. However, studies directed towards understanding the distribution of junctional complexes in human cancer tissues are lacking. In this study, we analyzed by electron microscopy the distribution of junctional complexes in patients diagnosed with renal clear-cell carcinoma. We found that both tight junctions and adherens junctions were drastically reduced in patients with cancer compared to normal tissues. Desmosomes were not detected in normal proximal tubules while distinctly present in cancer tissues. These results suggest that analysis of junctional complexes in human tumors should provide valuable information that might have prognostic and diagnostic value.