.FI T.V.Petrova and T.Ma Èkinen contributed equally to this workLymphatic vessels are essential for¯uid homeostasis, immune surveillance and fat adsorption, and also serve as a major route for tumor metastasis in many types of cancer. We found that isolated human primary lymphatic and blood vascular endothelial cells (LECs and BECs, respectively) show interesting differences in gene expression relevant for their distinct functions in vivo. Although these phenotypes are stable in vitro and in vivo, overexpression of the homeobox transcription factor Prox-1 in the BECs was capable of inducing LEC-speci®c gene transcription in the BECs, and, surprisingly, Prox-1 suppressed the expression of~40% of the BEC-speci®c genes. Prox-1 did not have global effects on the expression of LEC-speci®c genes in other cell types, except that it up-regulated cyclin E1 and E2 mRNAs and activated the cyclin e promoter in various cell types. These data suggest that Prox-1 acts as a cell proliferation inducer and a fate determination factor for the LECs. Furthermore, the data provide insights into the phenotypic diversity of endothelial cells and into the possibility of transcriptional reprogramming of differentiated endothelial cells.
Epithelial-mesenchymal transitions (EMT) are essential for organogenesis and triggered in carcinoma progression into an invasive state1. Transforming growth factor-β (TGF-β) cooperates with signalling pathways, such as Ras and Wnt, to induce EMT2-5, but the molecular mechanisms are not clear. Here, we report that SMAD3 and SMAD4 interact and form a complex with SNAIL1, a transcriptional repressor and promoter of EMT6, 7. The SNAIL1-SMAD3/4 complex was targeted to the gene promoters of CAR, a tight junction protein, and E-cadherin during TGF-β-driven EMT in breast epithelial cells. SNAIL1 and SMAD3/4 acted as co-repressors of CAR, occludin, claudin-3 and E-cadherin promoters in transfected cells. Conversely, co-silencing of SNAIL1 and SMAD4 by siRNA inhibited the repression of CAR and occludin during EMT. Moreover, loss of CAR and E-cadherin correlated with nuclear co-expression of SNAIL1 and SMAD3/4 in a mouse model of breast carcinoma and at the invasive fronts of human breast cancer. We propose that activation of a SNAIL1-SMAD3/4 transcriptional complex represents a novel mechanism of gene repression during EMT.
Tenascin and fibronectin are extracellular matrix glycoproteins expressed during morphogenesis and tissue repair. In the present study bronchial biopsies were studied by the morphometric method of immunocytochemistry to reveal the distribution of different tenascin and fibronectin isoforms as well as the presence of inflammatory cells in the airway mucosa of patients with chronic asthma (n = 32) and those with seasonal birch-pollen-sensitive asthma out of season (n = 17), both in comparison with healthy control subjects (n = 12). The results showed an increase in tenascin immunoreactivity in the bronchial subepithelial reticular basement membrane layer in patients with chronic asthma (p < 0.0001) and in those with seasonal asthma (p < 0.01) compared with control subjects. The tenascin immunoreactivity, appearing as an intense wide subepithelial band in asthma, was seen only occasionally in the basement membrane of control specimens. Instead, a diffuse immunoreaction against both total fibronectin and locally produced extradomain A fibronectin was similarly visible in the airway mucosa of both patients and control subjects. Despite the significant increase in the airway mucosa of eosinophils and lymphocytes in patients with chronic asthma (p < 0.0001 and p < 0.0001, respectively) and of eosinophils in patients with seasonal asthma (p < 0.001), there was no correlation between the number of these cell types and level of tenascin expression. In patients with birch-pollen-sensitive asthma during the birch-pollen season, inhaled corticosteroid treatment, budesonide 400 micrograms twice daily, decreased tenascin immunoreactivity, in comparison with effects of placebo (p = 0.01). Our results suggest that the higher amount of tenascin reflects disease activity in asthma and may be an indicator of a remodeling process rather than of injury itself.
During vasculogenesis and angiogenesis, endothelial cell responses to growth factors are modulated by the compositional and mechanical properties of a surrounding three-dimensional (3D) extracellular matrix (ECM) that is dominated by either cross-linked fibrin or type I collagen. While 3D-embedded endothelial cells establish adhesive interactions with surrounding ligands to optimally respond to soluble or matrix-bound agonists, the manner in which a randomly ordered ECM with diverse physico-mechanical properties is remodeled to support blood vessel formation has remained undefined. Herein, we demonstrate that endothelial cells initiate neovascularization by unfolding soluble fibronectin (Fn) and depositing a pericellular network of fibrils that serve to support cytoskeletal organization, actomyosin-dependent tension, and the viscoelastic properties of the embedded cells in a 3D-specific fashion. These results advance a new model wherein Fn polymerization serves as a structural scaffolding that displays adhesive ligands on a mechanically ideal substratum for promoting neovessel development.[Keywords: Actomyosin; angiogenesis; endothelial cells; extracellular matrix; fibronectin] Supplemental material is available at http://www.genesdev.org.
Antibodies against different cytoskeletal proteins were used to study the cytoskeletal organization of human spermatozoa. A positive staining with actin antibodies was seen in both the acrosomal cap region and the principal piece region of the tail. However, no staining was obtained with nitrobenzoxadiazol-phallacidin, suggesting that most of the actin was in the nonpolymerized form. Most of the myosin immunoreactivity was confined to a narrow band in the neck region of spermatozoa. Tubulin was located to the entire tail, whereas vimentin was only seen in a discrete band-like structure encircling the sperm head, apparently coinciding with the equatorial segment region. Surface staining of the spermatozoa with fluorochrome-coupled Helix pomatia agglutinin revealed a similar band-like structure that codistributed with the vimentin-specific staining. Instead, other lectin conjugates used labeled either the acrosomal cap region (peanut and soybean agglutinins), both the acrosomal cap and the postacrosomal region of the head (concanavalin A), or the whole sperm cell surface membrane (wheat germ and lens culinaris agglutinins and ricinus communis agglutinin I). In lectin blotting experiments, the Helix pomatia agglutinin-binding was assigned to a 80,000-mol-wt polypeptide which, together with vimentin, also resisted treatment with Triton X-100.Only the acrosomal cap and the principal piece of the tail were decorated with rabbit and hydridoma antibodies against an immunoanalogue of erythrocyte c~-spectrin (p230). p230 appeared to be the major calmodulin-binding polypeptide in spermatozoa, as shown by a direct overlay assay of electrophoretic blots of spermatozoa with t251-calmodulin.The results indicate that spermatozoa have a highly specialized cytoskeletal organization and that the distribution of actin, spectrin, and vimentin can be correlated with distinct surface specializations of the sperm cells. This suggests that cytoskeleton may regulate the maintenance of these surface assemblies and, hence, affect the spermatozoan function.Mammalian spermatozoa are highly specialized cells which have many unique properties (for a review, see reference 18). The major compartments of a fully developed spermatozoon are the head, containing the nucleus and the sharply demarcated acrosomal and postacrosomal domains, the neck region, and the tail which contains mitochondria in its middle piece (18). The acrosomal region undergoes drastic changes during acrosomal reaction upon contact with the oocyte (18,30,64). These consist of a dissolution of the acrosomal plasma membrane and exposure of the acrosomal sac which subsequently becomes fused with the oocyte membrane (e.g., reference 30).Although the structure and function of spermatozoa have been the subjects of an intensive study during recent years, many aspects of their motility, activation, and membrane THE JOURNAL OF CELL BIOLOGY . VOLUME 99 SEPTEMBER 1984 1083-1091 © The Rockefeller University Press • 0021-9525/84/09/1083/09 $1.00 organization are still poorly unders...
Aims/hypothesis Based on mouse study findings, pancreatic islet cells are supposed to lack basement membrane (BM) and interact directly with vascular endothelial BM. Until now, the BM composition of human islets has remained elusive. Methods Immunohistochemistry with specific monoclonal and polyclonal antibodies as well as electron microscopy were used to study BM organisation and composition in human adult islets. Isolated islet cells and function-blocking monoclonal antibodies and recombinant soluble Lutheran peptide were further used to study islet cell adhesion to laminin (Lm)-511. Short-term cultures of islets were used to study Lutheran and integrin distribution. Results Immunohistochemistry revealed a unique organisation for human Lm-511/521 as a peri-islet BM, which coinvaginated into islets with vessels, forming an outer endocrine BM of the intra-islet vascular channels, and was distinct from the vascular BM that additionally contained Lm-411/421. These findings were verified by electron microscopy. Lutheran glycoprotein, a receptor for the Lm α5 chain, was found prominently on endocrine cells, as identified by immunohistochemistry and RT-PCR,
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