Phospholipase and Esterase Production by Clinical Strains of <Emphasis Type="Italic">Fonsecaea pedrosoi</Emphasis> and Their Interactions with Epithelial Cells

Fonsecaea pedrosoi is the major etiologic agent of chromoblastomycosis. The virulence of F. pedrosoi is a meagerly explored phenomenon. The ability to interact with host cells and the production of hydrolytic enzymes are thought to be important virulence mechanisms of fungal pathogens. Here, we measured the production of two distinct lipolytic enzymes, phospholipase and esterase, by three clinical strains of F. pedrosoi isolated from chromoblastomycosis lesions, as well as their capabilities to interact with epithelial cells. All the strains were excellent esterase producers, generating elevated hydrolytic halos after 5 days of growth. Conversely, phospholipase activity was detected only after 10 days, except for the most recent strain of F. pedrosoi (Magé) in which measurable phospholipase activity was detected on day 5. The ability to interact with epithelial cells was also investigated. Regarding the adhesion capability, an indirect connection was observed in relation to the adaptation time of each strain in axenic culture, in which Magé strain showed the best adhesion ability followed by LDI 11428 and 5VPL strains. Both 5VPL and Magé strains were also detected inside the epithelial cells, while the LDI 11428 strain was rarely detected in cytoplasmatic vacuolar compartments. Moreover, these F. pedrosoi strains were able to cause injury in epithelial cells.     

Decrypting the communication between microbes and the intestinal mucosa—A brief review on Pathogénie Microbienne Moléculaire's latest research

Over the past 10 years, the “Pathogénie Microbienne Moléculaire” unit of Professor Philippe Sansonetti has studied the molecular cross talk between the intestinal microbiota and the gut epithelium, aiming to better understand how this mutualistic symbiosis delineates homoeostasis and, when perturbed, prompts pathology. To do so, the unit has manipulated both bacterial and epithelial cells, and used cutting‐edge technology. More recently, the lab has turned its focus also on studying the intestinal crypt and more specifically the intestinal stem cell for their role in epithelial regeneration and long‐term epithelium renewal. Here, we provide a brief review summarising recent results obtained from the lab, with particular focus on the intestinal crypt.     

Activation of Rho GTPases by Cytotoxic Necrotizing Factor 1 Induces Macropinocytosis and Scavenging Activity in Epithelial Cells

Macropinocytosis, a ruffling-driven process that allows the capture of large material, is an essential aspect of normal cell function. It can be either constitutive, as in professional phagocytes where it ends with the digestion of captured material, or induced, as in epithelial cells stimulated by growth factors. In this case, the internalized material recycles back to the cell surface. We herein show that activation of Rho GTPases by a bacterial protein toxin, the Escherichia coli cytotoxic necrotizing factor 1 (CNF1), allowed epithelial cells to engulf and digest apoptotic cells in a manner similar to that of professional phagocytes. In particular, we have demonstrated that 1) the activation of all Rho, Rac, and Cdc42 by CNF1 was essential for the capture and internalization of apoptotic cells; and 2) such activation allowed the discharge of macropinosomal content into Rab7 and lysosomal associated membrane protein-1 acidic lysosomal vesicles where the ingested particles underwent degradation. Taken together, these findings indicate that CNF1-induced "switching on" of Rho GTPases may induce in epithelial cells a scavenging activity, comparable to that exerted by professional phagocytes. The activation of such activity in epithelial cells may be relevant, in mucosal tissues, in supporting or integrating the scavenging activity of resident macrophages.     

Expression of a duplicate Na,K-ATPase beta(1)-isoform in the European eel (Anguilla anguilla)

Recent studies on teleost fish have suggested that their genomes have undergone ancient polyploidization events resulting in the duplication of the genome. A duplicate copy of the Na,K-ATPase beta(1)-isoform (called beta(233)) has been identified in the European eel (Anguilla anguilla). The beta(233)-isoform shares high levels of nucleotide (74.8%) and amino acid (69.9%) homology with the eel beta(1)-subunit as well as other vertebrate beta(1)-sequences. Compared with the widely expressed beta(1)-isoform, expression of beta(233)-mRNA is mainly restricted to epithelial tissues. Seawater acclimation induced increases in beta(233)-mRNA levels in kidney, gill, and intestine of migratory "silver" but not the nonmigratory "yellow" adult eels, suggesting that the factors responsible for this upregulation are themselves developmentally regulated. Expression of a variably glycosylated 40- to 52-kDa beta(233)-protein in both gill "chloride" and intestinal epithelial cells suggests that the beta(233)-isoform of Na,K-ATPase may play an important functional role in the major osmoregulatory tissues of euryhaline fish such as the eel.     

A historic photomicrograph of a parasite (Trichomonas vaginalis)

Knowing that Alfred Donné was the discoverer of an important human parasite, and finding that he was also a pioneer of photomicrography, it occurred to me that his parasite might well have become a subject of his photography. It was a simple matter to confirm that this was indeed the case. The parasite he discovered was Trichomonas vaginalis; and, in collaboration with Foucault, Donné made a photomicrograph showing several protozoan parasites lying among vaginal epithelial cells. His publication of an engraved image of the photomicrograph in 1845, was a landmark in the history of photography and microbiology.     

Loss of epithelial differentiation and gain of invasiveness correlates with tyrosine phosphorylation of the E-cadherin/beta-catenin complex in cells transformed with a temperature-sensitive v-SRC gene

Loss of histotypic organization of epithelial cells is a common feature in normal development as well as in the invasion of carcinomas. Here we show that the v-src oncogene is a potent effector of epithelial differentiation and invasiveness. MDCK epithelial cells transformed with a temperature-sensitive mutant of v-src exhibit a strictly epithelial phenotype at the nonpermissive temperature for pp60v-src activity (40.5 degrees C) but rapidly loose cell-to-cell contacts and acquire a fibroblast-like morphology after culture at the permissive temperature (35 degrees C). Furthermore, the invasiveness of the cells into collagen gels or into chick heart fragments was increased at the permissive temperature. The profound effects of v-src on intercellular adhesion were not linked to changes in the levels of expression of the epithelial cell adhesion molecule E-cadherin. Rather, we observed an increase in tyrosine phosphorylation of E-cadherin and, in particular, of the associated protein beta-catenin. These results suggest a mechanism by which v-src counteracts junctional assembly and thereby promotes invasiveness and dedifferentiation of epithelial cells through phosphorylation of the E-cadherin/catenin complex.     

Immunophenotyping of mitotic cells from long-term cultures of chorionic villi

Chromosomal mosaicism in chorionic villus samples (CVS) may arise from different sources, such as clonal diversity within the chorionic tissue or contamination with maternal cells. To determine the origin of karyotyped cells, we compared the immunocytochemical features of mitotic cells in CVS long-term cultures with histological sections of their tissue of origin, i.e. chorionic villi. Immunolabelling of intermediate filaments specific for epithelial cells (cytokeratin) and mesenchymal cells (vimentin) established that mitoses yielded from CVS long-term cultures indeed stem from independently growing clones derived from both the epithelial and mesenchymal parts of the chorionic villi. Thus, mosaicism in CVS cultures may reflect true genetic heterogeneity within the biopsy. However, epithelial chorionic cells undergo in vitro metaplasia leading to co-expression of cytokeratins and vimentin. Fetal-specific immune markers (-HCG and SP1-glycoprotein) are not reliably expressed in CVS cell culture.     

Generation of a human IgM monoclonal antibody directed against HLA class II molecules: a potential agent in the treatment of haematological malignancies

Major histocompatibility complex (MHC) class II molecules have been considered as a good target molecule for use in immunotherapy, because of the high expression in some lymphoma and leukaemia cells and, also, because of their restricted expression on human cells (monocytes, dendritic, B lymphocytes, thymic epithelial cells, and some cytokine-activated cells, such as T lymphocytes). We have obtained a human IgM monoclonal antibody directed against human leukocyte antigen (HLA) class II molecules, using transgenic mice carrying human Ig genes. The antibody BH1 (IgM/κ isotype) recognises HLA-class II on the surface of tumour cells from patients suffering from haematological malignancies, such as chronic and acute lymphocytic leukaemias, non-Hodgkin lymphomas and myeloid leukaemias. Interestingly, functional studies revealed that BH1 mAb recognises and kills very efficiently tumour cells from several leukaemia patients in the presence of human serum as a source of complement. These results suggest that this human IgM monoclonal antibody against HLA-class II could be considered as a potential agent in the treatment of several malignancies. Belén Díaz, Irene Sanjuan and Susana Magadán share authorship; Francisco Gambón and áfrica González–Fernández share leadership.     

Differential surface characteristics of M cells from mouse intestinal Peyer''s and caecal patches

Summary The mouse caecal patch is located near the blind end of the caecum, and consists of a group of lymphoid follicles. In common with the Peyer's patches, the follicle-associated epithelium overlying these follicles is largely composed of enterocytes, goblet cells and membranous epithelial (M) cells. Each of these types of cell was readily identified by electron microscopy, although caecal patch enterocytes and M cells were morphologically distinct from those of the Peyer's patches. Staining for alkaline phosphatase activity demonstrated that the majority of caecal follicle-associated epithelial cells were alkaline phosphatase-negative, positive cells consisting of a mixture of enterocytes and M cells. In contrast, it has previously been found that Peyer's patch enterocytes are positive for alkaline phosphatase while the M cells are relatively lacking in alkaline phosphatase activity. Lectin histochemistry revealed that surface glycoconjugate expression differs between the caecal and Peyer's patch follicle-associated epithelial cells; in particular, the characteristic staining of Peyer's patch M cells by Ulex europaeus agglutinin 1 was absent on the caecal patch follicle-associated epithelium. These altered surface characteristics indicate that the development of the caecal patch follicle-associated epithelial cells is influenced by the local environment, and these altered properties may be indicative of modified functional roles for the cells at this site.     

Arginine methyltransferase Capsuleen is essential for methylation of spliceosomal Sm proteins and germ cell formation in Drosophila

Although arginine modification has been implicated in a number of cellular processes, the in vivo requirement of protein arginine methyltransferases (PRMTs) in specific biological processes remain to be clarified. In this study we characterize the Drosophila PRMT Capsuléen, homologous to human PRMT5. During Drosophila oogenesis, catalytic activity of Capsuléen is necessary for both the assembly of the nuage surrounding nurse cell nuclei and the formation of the pole plasm at the posterior end of the oocyte. In particular, we show that the nuage and pole plasm localization of Tudor, an essential component for germ cell formation, are abolished in csul mutant germ cells. We identify the spliceosomal Sm proteins as in vivo substrates of Capsuléen and demonstrate that Capsuléen, together with its associated protein Valois, is essential for the synthesis of symmetric di-methylated arginyl residues in Sm proteins. Finally, we show that Tudor can be targeted to the nuage in the absence of Sm methylation by Capsuléen, indicating that Tudor localization and Sm methylation are separate processes. Our results thus reveal the role of a PRMT in protein localization in germ cells.     

Inhibition of caspase-dependent mitochondrial permeability transition protects airway epithelial cells against mustard-induced apoptosis

In the present study, the toxicity of yperite, SM, and its structural analogue mechlorethamine, HN2, was investigated in a human bronchial epithelial cell line 16HBE. Cell detachment was initiated by caspase-2 activation, down-regulation of Bcl-2 and loss of mitochondrial membrane potential. Only in detached cells, mustards induced apoptosis associated with increase in p53 expression, Bax activation, decrease in Bcl-2 expression, opening of the mitochondrial permeability transition pore, release of cytochrome c, caspase-2, -3, -8, -9 and -13 activation and DNA fragmentation. Apoptosis, occurring only in detached cells, could be recognized as anoikis and the mitochondrion, involved both in cell detachment and subsequent cell death, appears to be a crucial checkpoint. Based on our understanding of the apoptotic pathway triggered by mustards, we demonstrated that inhibition of the mitochondrial pathway by ebselen, melatonin and cyclosporine A markedly prevented mustard-induced anoikis, pointing to these drugs as interesting candidates for the treatment of mustard-induced airway epithelial lesions. This work was support by the Délégation Générale pour l’Armement (D.G.A./D.S.P. No. 95-151). A. Deniaud received a fellowship from Ligue contre le Cancer. C. Brenner is supported by the Association pour la Recherche sur le Cancer (ARC). The authors are grateful to D.C. Gruenert for providing us with the human bronchial epithelial cell line.     

Recognition of Apoptotic Cells by Epithelial Cells: CONSERVED VERSUS TISSUE-SPECIFIC SIGNALING RESPONSES*

During apoptosis, cells acquire new activities that enable them to modulate the fate and function of interacting phagocytes, particularly macrophages (mϕ). Although the best known of these activities is anti-inflammatory, apoptotic targets also influence mϕ survival and proliferation by modulating proximal signaling events, such as MAPK modules and Akt. We asked whether modulation of these same signaling events extends to epithelial cells, a minimally phagocytic cell type. We used BU.MPT cells, a mouse kidney epithelial cell line, as our primary model, but we also evaluated several epithelial cell lines of distinct tissue origins. Like mϕ, mouse kidney epithelial cells recognized apoptotic and necrotic targets through distinct non-competing receptors, albeit with lower binding capacity and markedly reduced phagocytosis. Also, modulation of inflammatory activity and MAPK-dependent signaling by apoptotic and necrotic targets was indistinguishable in kidney epithelial cells and mϕ. In contrast, modulation of Akt-dependent signaling differed dramatically between kidney epithelial cells and mϕ. In kidney epithelial cells, modulation of Akt was linked to target cell recognition, independently of phagocytosis, whereas in mϕ, modulation was linked to phagocytosis. Moreover, recognition of apoptotic and necrotic targets by kidney epithelial cells elicited opposite responses; apoptotic targets inhibited whereas necrotic targets stimulated Akt activity. These data confirm that nonprofessional phagocytes recognize and respond to dying cells, albeit in a manner partially distinct from mϕ. By acting as sentinels of environmental change, apoptotic and necrotic targets may permit neighboring viable cells, especially non-migratory epithelial cells, to monitor and adapt to local stresses.     

Identification of a novel intracellular interaction domain essential for Bves function

While Blood vessel epicardial substance (Bves) confers adhesive properties, the molecular mechanism of regulating this activity is unknown. No predicted functional motifs in this highly conserved integral membrane protein, other than the transmembrane domain, have been identified. Here, we report for the first time that Bves interacts with itself through an intracellular interaction domain that is essential for its intercellular adhesion activity. Glutathione-S-transferase (GST) pull-down and SPOTs analyses mapped this domain to amino acids 268-274 in the intracellular C-terminus. Site-directed mutagenesis revealed that lysines 272 and 273 are essential for homodimerization and cell adhesion. Human corneal cells transfected with wild-type Bves trafficked the protein to the cell surface, assembled junction complexes and formed epithelial sheets. In contrast, cells expressing Bves mutated at these positions did not form continuous epithelial sheets or maintain junctional proteins such as ZO-1 and E-cadherin at the membrane. A dramatic reduction in transepithelial electrical resistance was also observed indicating a functional loss of tight junctions. Importantly, expression of mutated Bves in epithelial cells promoted the transformation of cells from an epithelial to a mesenchymal phenotype. This study is the first to demonstrate the essential nature of any domain within Bves for maintenance of epithelial phenotype and function.     

Hydra,a powerful model for aging studies

Cnidarian Hydra polyps escape senescence, most likely due to the robust activity of their three stem cell populations. These stem cells continuously self-renew in the body column and differentiate at the extremities following a tightly coordinated spatial pattern. Paul Brien showed in 1953 that in one particular species, Hydra oligactis, cold-dependent sexual differentiation leads to rapid aging and death. Here, we review the features of this inducible aging phenotype. These cellular alterations, detected several weeks after aging was induced, are characterized by a decreasing density of somatic interstitial cell derivatives, a disorganization of the apical nervous system, and a disorganization of myofibers of the epithelial cells. Consequently, tissue replacement required to maintain homeostasis, feeding behavior, and contractility of the animal are dramatically affected. Interestingly, this aging phenotype is not observed in all H. oligactis strains, thus providing a powerful experimental model for investigations of the genetic control of aging. Given the presence in the cnidarian genome of a large number of human orthologs that have been lost in ecdysozoans, such approaches might help uncover novel regulators of aging in vertebrates.     

Seed coat anatomy ofCeratozamia mexicana (Cycadales)

The seed coat furnishes protection with a thick cuticle, tannin cells, mucilage, and a hard sclerotesta. The external layer of the seed coat is a sarcotesta; a thick cuticle covers the external walls of its epidermal cells. This epidermis bears stomates and, in the early stages, trichomes. The subepidermal cells have druses. Starch grains are abundant in the sarcotesta from June through August, but they disappear during dispersal in September. The parenchyma is interrupted by mucilage canals lined by epithelial cells. Tannin cells are found in the sarcotesta, sclerotesta, and pachychalaza. Ten sectors of an areole in the sclerotesta around the micropyle may correspond to the tips of the integumentary segments in some fossil plants, such asGenomosperma kidstonii.

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Resumen  La cubierta seminal le imparte protección a la semilla mediante una cutícula gruesa, células de taninos, mucílago, y una esclerotesta dura. La capa externa de la cubierta seminal es la sarcotesta; una cutícula gruesa cubre las paredes externas de las células epidérmicas. Esta epidermis presenta estomas y, en etapas tempranas, tricomas. Cuando la esclerotesta se endurece, los tricomas desaparecen. Las células subepidérmicas presentan drusas. En la sarcotesta los granos de almidón son abundantes desde junio hasta agosto, pero desaparecen durante la dispersión en septiembre. El parénquima se interrumpe por canales de mucílago forrados por células epiteliales. Las células de taninos se encuentran en la sarcotesta, esclerotesta, y paquicálaza. Diez sectores de una areola en la esclerotesta alrededor del micrópilo podrían corresponder a los apéndices del tegumento en algunas plantas fósiles, comoGenomosperma kidstonii.

     

Isolation and characterization of human beta -defensin-3, a novel human inducible peptide antibiotic

The growing public health problem of infections caused by multiresistant Gram-positive bacteria, in particular Staphylococcus aureus, prompted us to screen human epithelia for endogenous S. aureus-killing factors. A novel 5-kDa, nonhemolytic antimicrobial peptide (human beta-defensin-3, hBD-3) was isolated from human lesional psoriatic scales and cloned from keratinocytes. hBD-3 demonstrated a salt-insensitive broad spectrum of potent antimicrobial activity against many potentially pathogenic microbes including multiresistant S. aureus and vancomycin-resistant Enterococcus faecium. Ultrastructural analyses of hBD-3-treated S. aureus revealed signs of cell wall perforation. Recombinant hBD-3 (expressed as a His-Tag-fusion protein in Escherichia coli) and chemically synthesized hBD-3 were indistinguishable from naturally occurring peptide with respect to their antimicrobial activity and biochemical properties. Investigation of different tissues revealed skin and tonsils to be major hBD-3 mRNA-expressing tissues. Molecular cloning and biochemical analyses of antimicrobial peptides in cell culture supernatants revealed keratinocytes and airway epithelial cells as cellular sources of hBD-3. Tumor necrosis factor alpha and contact with bacteria were found to induce hBD-3 mRNA expression. hBD-3 therefore might be important in the innate epithelial defense of infections by various microorganisms seen in skin and lung, such as cystic fibrosis.     

A recombinant matriptase causes an increase in caspase-3 activity in a small-intestinal epithelial IEC-6 line cultured on fibronectin-coated plates

Matriptase is an epithelial-derived type-II transmembrane serine protease. This protease is expressed prominently in the villus tip of small-intestinal epithelia at which senescent cells undergo shedding and/or apoptosis. The basement membrane of epithelial cells, including small-intestinal epithelial cells, contains extracellular matrix (ECM) proteins such as fibronectin and laminin. We found previously that high concentrations of a recombinant matriptase catalytic domain (r-MatCD) (e.g. 1 μM) caused an increased detachment of and increases in the activity of apoptotic effector caspase-3 in a rat small-intestinal epithelial IEC-6 line cultured on laminin-coated plates and proposed that at sites with its high level of expression, matriptase contributes to promoting shedding and/or detachment-induced death of epithelial cells through a mechanism mediating loss of cell-ECM adhesion. In this study, we found that even without increasing cell detachment, a high concentration of r-MatCD causes an increase in caspase-3 activity in IEC-6 cells cultured on fibronectin-coated plates, suggesting that the recombinant matriptase can cause apoptosis by a mechanism unrelated to cell detachment. Also, r-MatCD-treated IEC-6 cells on fibronectin were found to display spindle-like morphological changes. We suggest that r-MatCD causes apoptosis of IEC-6 on fibronectin by a mechanism involving the disruption of cell integrity.