Epidermal growth factor receptor-dependent PI3K-activation promotes restitution of wounded human gastric epithelial monolayers

Restitution is a crucial event during the healing of superficial injury of the gastric mucosa involving epithelial cell sheet movement into the damaged area. We demonstrated that growth factors promote the restitution of human gastric epithelial cells. However, the intracellular signaling pathways that transmit extracellular cues as well as regulate basal and growth factor-stimulated gastric epithelial cell migration are still unclear. Herein, confluent human gastric epithelial cell monolayers (HGE-17) or primary cultures of gastric epithelial cells were wounded with a razor blade and the migration response was analyzed in presence or absence of TGFalpha or of pharmacological inhibitors of signaling proteins. Kinase activation profile analysis and phase-contrast microscopy were also performed in parallel. We report that ERK1/2 and Akt activities are rapidly stimulated following wounding of HGE-17 cells. Treatment of confluent HGE-17 cells or primary cultures of gastric epithelial cells with the phosphatidylinositol 3-kinase inhibitor LY294002, but not the MEK1 inhibitor, PD98059, significantly inhibits basal and TGFalpha-induced migration following wounding. Conversely, treatment of wounded HGE-17 cells with phosphatidylinositol(3,4,5)-triphosphate is sufficient to stimulate basal cell migration by 235%. In addition, pp60c-src kinase activity and tyrosine phosphorylation of epidermal growth factor receptors (EGFR) are also rapidly enhanced after wounding and pharmacological inhibition of both these activities strongly attenuates basal and TGFalpha-induced migration as well as Akt phosphorylation levels. In conclusion, the present results indicate that EGFR-dependent PI3K activation promotes restitution of wounded human gastric epithelial monolayers.     

Specific signaling cascades involved in cell spreading during healing of micro-wounded gastric epithelial monolayers

Mechanisms that specifically modulate cell spreading and/or cell migration following epithelial wounding are poorly understood. Using micro-wounded human gastric epithelial monolayers, we show herein that EGF and TGFalpha maximally increase spreading of epithelial sheets under a cell proliferation-independent mechanism. Treatment of confluent HGE-17 cells with the phosphatidylinositol 3-kinase inhibitor, LY294002, and the epidermal growth factor receptor inhibitor, PD153035, strongly reduced basal and TGFalpha-stimulated cell spreading. While pharmacological inhibition of pp60src-kinase activity also attenuated basal epithelial spreading, addition of the mTOR/p70S6K inhibitor rapamycin or a specific siRNA targeting ILK sequence did not affect the kinetic rates of wound closure. Epithelial wound healing was initiated by actin purse-string contraction followed by lamellae formation. Conversely, disruption of actin and tubulin stability with cytochalasin D and nocodazole, respectively, inhibited epithelial sheet spreading. Finally, antibodies directed against the alpha3 integrin subunit, but not against the alpha6 or alpha2 subunits, attenuated epithelial sheet spreading as well as lamellae formation. In conclusion, the current investigation establishes that EGF/TGFalpha and the alpha3beta1 integrin, pp60c-src, EGFR and PI3K pathways are mainly associated with the cell spreading of the restitution process during healing of human gastric epithelial wounds.     

Gliadin-specific type 1 regulatory T cells from the intestinal mucosa of treated celiac patients inhibit pathogenic T cells

Celiac disease (CD) results from a permanent intolerance to dietary gluten and is due to a massive T cell-mediated immune response to gliadin, the main component of gluten. In this disease, the regulation of immune responses to dietary gliadin is altered. Herein, we investigated whether IL-10 could modulate anti-gliadin immune responses and whether gliadin-specific type 1 regulatory T (Tr1) cells could be isolated from the intestinal mucosa of CD patients in remission. Short-term T cell lines were generated from jejunal biopsies, either freshly processed or cultured ex vivo with gliadin in the presence or absence of IL-10. Ex vivo stimulation of CD biopsies with gliadin in the presence of IL-10 resulted in suppression of Ag-specific proliferation and cytokine production, indicating that pathogenic T cells are susceptible to IL-10-mediated immune regulation. T cell clones generated from intestinal T cell lines were tested for gliadin specificity by cytokine production and proliferative responses. The majority of gliadin-specific T cell clones had a Th0 cytokine production profile with secretion of IL-2, IL-4, IFN-gamma, and IL-10 and proliferated in response to gliadin. Tr1 cell clones were also isolated. These Tr1 cells were anergic, restricted by DQ2 (a CD-associated HLA), and produced IL-10 and IFN-gamma, but little or no IL-2 or IL-4 upon activation with gliadin or polyclonal stimuli. Importantly, gliadin-specific Tr1 cell clones suppressed proliferation of pathogenic Th0 cells. In conclusion, dietary Ag-specific Tr1 cells are present in the human intestinal mucosa, and strategies to boost their numbers and/or function may offer new therapeutic opportunities to restore gut homeostasis.     

Helicobacter pylori releases a factor(s) inhibiting cell cycle progression of human gastric cell lines by affecting cyclin E/cdk2 kinase activity and Rb protein phosphorylation through enhanced p27(KIP1) protein expression

Helicobacter pylori, the main cause of chronic gastritis, plays a central role in the etiology of peptic ulcer disease and gastric cancer. In vitro studies have shown that H. pylori increases gastric epithelial cell turnover, thus increasing the risk for the development of neoplastic clones. The mechanisms by which H. pylori promotes perturbation of cell proliferation are not yet elucidated. To investigate whether products released by H. pylori in culture media interfere with cell cycle progression of human gastric epithelial cells, four cell lines (MKN 28, MKN 7, MKN 74, and AGS) were incubated in the presence of H. pylori broth culture filtrate. Cell cycle analysis showed that a H. pylori-released factor(s) significantly inhibited the G1- to S-phase progression of MKN 28 and MKN 7 cell lines, with a reversible, nonlethal mechanism, independent of the expression of VacA, CagA, and/or urease. The cell cycle inhibition occurred concomitantly with an increase in p27(KIP1) protein levels, a reduction in Rb protein phosphorylation on serine residues 807-811, and a significant decrease in cyclin E-associated cdk2 activity. In contrast, the cell cycle progression of MKN 74 and AGS cell lines was not affected by the H. pylori-released factor(s). In normal human fibroblasts, G1-phase cell accumulation was concomitant with the reduction in Rb protein phosphorylation; that, however, appeared to be dependent on p21(WAF1/CIP1) rather than on p27(KIP1) protein. A preliminary characterization showed that the molecular mass of the partially purified cell cycle inhibitory factor(s) was approximately 40 kDa. These results suggest that H. pylori releases a soluble factor(s) that may affect cell cycle progression of gastric epithelial cells through elevated levels of cdk inhibitor p27(KIP1). This factor(s) might act in vivo on noncolonized distant cells, the most proliferating cells of human gastric mucosa.     

CD4+ Th0 cell clones,isolated from a metastatic lymph node of a melanoma patient,possess cytolytic function

In the present study T lymphocytes isolated from a metastatic lymph node (T-LNL) of a melanoma patient have been cloned. In the attempt to verify whether T-LNL may acquire in vitro functional activities in the absence of tumour-associated antigens, they were cloned utilizing allogeneic lymphocytes as feeder cells. Nineteen clones generated from T-LNL proved to be CD4+ and, among these, five were able to kill autologous and allogeneic human melanoma cells in HLA-class-II-restricted way. On the basis of their cytokine production, these CD4+ cytolytic T-LNL clones were shown to belong to the Th0 subset and three of them expersseed the V17 chain of the T cell receptor. These results suggest the presence of melanomaspecific but functionally inactive lymphocytes with T cell receptor oligoclonality in the lymph node environment. These specific T cells may acquire in vitro the capacity to kill autologous and allogeneic tumours without any induction by autologous melanoma cells.     

Physical mapping of human chromosome 17 using fragment-containing microcell hybrids

Hybrid cell lines were generated by microcell-mediated transfer of human chromosome 17 into rat recipient cells. The genotypes of 36 such lines were analyzed using a set of human chromosome 17-derived sequences to probe the structural integrity of the chromosome. Four classes of hybrids were obtained: clones with an apparently intact chromosome 17, clones containing large fragments of the chromosome including both the centromere and the selected marker, clones containing only the selected marker and flanking sequences, and clones containing two 17-derived fragments--the pericentric region plus the region of the selected marker. Data from these hybrids were used in conjunction with published regional localization information to obtain a provisional linear map of the chromosome. Results of this analysis are compared to the gene maps predicted from recent linkage studies and from other somatic cell hybrid experiments.     

Characterization of JOK-1, a human gastric epithelial cell line

Summary Human gastric epithelial cells were isolated from samples of human gastric lining and immortalized with simian virus 40 (SV40) to generate the stable human gastric epithelial cell line “JOK-1” These cells express conventional, epithelial markers (vimentin, cytokeratin-18, occludin, N-and E-cadherins, β-catenin, ZO-1, ZO-2, mucin, epithelial specific antigen) as well as SV40 large T-antigen. These cells rapidly externalized E-cadherin in response to acidic medium, and exhibited epitheliallike barrier properties that are also regulated by media pH. In contrast, the kidney epithelial cell line “MDCK” also expresses serveral epithelial markers (vimentin, cytokeratin-18, occludin, N-and E-cadherin, β-catenin, ZO-1, ZO-2, epithelial specific antigen), but does not express mucin, or large T-antigen. However, MDCK rapidly internalize their E-cadherin from the cell surface and increase the solute flux in an acidic medium. These data suggest that the JOK-1 cell line is a potentially useful cell line for developing models of gastric epithelial function, development, and disease.     

Epstein-Barr virus infection of human gastric carcinoma cells: implication of the existence of a new virus receptor different from CD21.

Recombinant Epstein-Barr virus (EBV) with a selectable marker successfully infected the human gastric carcinoma cell lines AGS, MKN28, and MKN74. Following incubation in selective media, drug-resistant cell clones were isolated and proved to be infected with EBV. All gastric carcinoma cell clones were positive for EBNA 1 but negative for EBNA 2. LMP 1 expression was negative in most clones, but there were a few exceptions. Gastric carcinoma cells were negative for the EBV receptor CD21, and infection was not inhibited by pretreatment of cells with the anti-CD21 monoclonal antibody OKB7. The results indicate that gastric carcinoma cells are susceptible to EBV infection and that infection is mediated via a new receptor different from CD21.     

Development and characterization of new immortalized human breast cell lines

New human breast cell lines were developed from metastatic breast cancer tissues and normal breast tissues. Primary cultures were initiated from cellular outgrowths of explanted tissues or from mechanically isolated cells in two serum-free media. Cell cultures derived from both cancer and normal tissues were immortalized with pRSV-T plasmid to generate permanent breast cell lines that exhibited an epithelial morphology. Cell lines generated in this study were characterized with respect to morphology, growth rate, karyotype, presence of specific genes, and the expression of epithelial and breast markers. The cell lines expressed the epithelial cell markers, cytokeratins 8 and 18, and retained the capacity to produce human milk fat globulin. They also express the BRCA-1, erbB2, and EGF receptor genes and possess the H-ras, K-ras, and p53 genes. Preliminary data showed that one of the new cancer cell lines was highly sensitive to the cytotoxic action of taxol. It is envisioned that the new breast cell lines will be useful as targets for identification of therapeutic agents against breast cancer and as models for carcinogenesis studies. This revised version was published online in June 2006 with corrections to the Cover Date.     

Strategies for rapidly mapping proviral integration sites and assessing cardiogenic potential of nascent human induced pluripotent stem cell clones

Recent methodological advances have improved the ease and efficiency of generating human induced pluripotent stem cells (hiPSCs), but this now typically results in a greater number of hiPSC clones being derived than can be wholly characterized. It is therefore imperative that methods are developed which facilitate rapid selection of hiPSC clones most suited for the downstream research aims. Here we describe a combination of procedures enabling the simultaneous screening of multiple clones to determine their genomic integrity as well as their cardiac differentiation potential within two weeks of the putative reprogrammed colonies initially appearing. By coupling splinkerette-PCR with Ion Torrent sequencing, we could ascertain the number and map the proviral integration sites in lentiviral-reprogrammed hiPSCs. In parallel, we developed an effective cardiac differentiation protocol that generated functional cardiomyocytes within 10 days without requiring line-specific optimization for any of the six independent human pluripotent stem cell lines tested. Finally, to demonstrate the scalable potential of these procedures, we picked 20 nascent iPSC clones and performed these independent assays concurrently. Before the clones required passaging, we were able to identify clones with a single integrated copy of the reprogramming vector and robust cardiac differentiation potential for further analysis.     

Analysis of human monoclonal antibodies derived from lymphocytes of patients with cancer

Human lymphocytes from tumor-bearing patients and normal individuals have been fused with the NS-1 mouse myeloma line or the LICR -LON- HMY2 ( LICR -2) or SK0 -007 human cell lines. For a given number of lymphocytes, fusions with NS-1 produced 8 times more clones than fusions with LICR -2 and greater than 20 times more clones than fusions with SK0 -007. The percentage of clones that secrete human immunoglobulin (Ig) and the range of Ig production were comparable for clones derived from the three myeloma/lymphoblastoid lines. Clones derived from fusions with LICR -2 and SK0 -007 were found to secrete new species of light and heavy Ig chains in addition to those of the myeloma/lymphoblastoid lines, and clones derived from fusions with NS-1 secreted human Ig and contained both mouse and human chromosomes, which indicates that true hybrid cells were derived from fusions with each of the myeloma/lymphoblastoid lines under study. The stability of Ig production was similar for clones derived from fusions with NS-1, LICR -2, or SK0 -007; these results were comparable to those obtained with standard mouse/mouse hybrids. Stable clones producing human monoclonal antibodies that react with cell surface, cytoplasmic, cytoskeletal, nuclear, or nucleolar antigens have been isolated from tumor-bearing patients and normal individuals. A number of human monoclonal antibodies reactive with cytoskeletal antigens appear to be directed against components of the intermediate filament family. Techniques for the production of human monoclonal antibody appear to be sufficiently advanced to initiate a serological dissection of the humoral immune response to cancer.     

Prostanoid receptors in intestinal epithelium: selective expression, function, and change with inflammation

The tissue concentration of PGE(2)is heightened during mucosal inflammation. Nevertheless, the cellular targets of this prostanoid and its effects on epithelial cell physiology are incompletely understood. We used a panel of specific immunoglobulin and mRNA probes in order to localize and quantitate the four member EP family of prostanoid receptors for binding PGE(2)on cells of histologically normal and inflamed human colonic mucosa, and then examined the physiological consequences for the epithelial component of intestine, with special attention to its barrier function. Prostanoid receptors were selectively expressed on a limited number of human colonic mucosal cells, and differed markedly between normal and inflamed tissue. In non-inflamed mucosa, EP(2)and EP(3)were expressed on epithelia at the apex of crypts; while EP(4)was expressed on surface and lateral crypt epithelia. Dual immunostaining and in situ hybridization with digoxygenin-labelled RNA probes largely confirmed the epithelial localization of EP(4). On the other hand, during inflammation, lateral crypt (non-surface) epithelial cells newly and significantly expressed prostanoid receptors EP(2)and EP(3)(p<0.05, by computer-assisted densitometry). Functionally, exogenous E series prostanoids applied to epithelial monolayers in nM concentrations brought about a 24% increase in the level of barrier function; an associated rise in intracellular cAMP (EC(50)of 281); and protection of epithelium from the effects of T cell cytokines. A major perturbation in the number and distribution of functional eicosonoid receptors on epithelia occurs in chronic inflammation of human colonic mucosa.     

Helicobacter pylori cag pathogenicity island-positive strains induce syndecan-4 expression in gastric epithelial cells

Helicobacter pylori is recognized as the main cause of gastritis and is associated with gastric carcinogenesis. Syndecan-4 represents the major source of heparan sulfate (HS) in the gastric cells. HS proteoglycans expressed on the cell surface constitute targets for H. pylori at the early stage of infection. The aim of this study was to determine whether H. pylori induction of syndecan-4 expression is affected by the virulence characteristics of the infecting strain, namely the cytotoxic-associated gene ( cag ) pathogenicity island (PAI). We observed that individuals infected with highly pathogenic H. pylori strains express syndecan-4 in the foveolar epithelium of the gastric mucosa. The association between the cag PAI status of the infecting strain and syndecan-4 expression was further demonstrated by infection of gastric epithelial cell lines with a panel of cag PAI⁺ and cag PAI⁻ H. pylori strains, showing that expression of syndecan-4 was significantly increased in response to infection with the highly pathogenic strains. Moreover, infection of gastric cells with cag A and cag E mutant strains further confirmed that syndecan-4 induction is dependent on an intact cag PAI. The present study shows that highly pathogenic H. pylori strains induce syndecan-4 expression, both in human gastric mucosa and in gastric cell lines, in a cag PAI-dependent manner.     

Improved in vitro model systems for gastrointestinal infection by choice of cell line, pH, microaerobic conditions, and optimization of culture conditions

BACKGROUND: Commonly used in vitro infection cultures do not mimic the human gastrointestinal tract with regard to pH and microaerobic conditions. Furthermore, despite the importance of mucin-Helicobacter interactions, the cell lines used have not been selected for appropriate mucin expression. To make in vitro studies more applicable to human disease, we have developed coculture methods taking these factors into account. MATERIALS AND METHODS: Nine human gastrointestinal epithelial cell lines (MKN1, MKN7, MKN28, MKN45, KATO3, HFE145, PCAA/C11 Caco-2, and LS513) were investigated. Expression and glycosylation of mucins (MUC1, 2, 3, 4, 5AC, 5B, 6, 12, 13, and 16) were determined by immunohistochemistry. We analyzed the effect of microaerobic conditions and acidic pH on cell proliferation, viability, and apoptosis. RESULTS: Microaerobic culture, which is more physiological for the bacteria, did not adversely affect mammalian cell viability, proliferation, or induce apoptosis The cell lines varied in mucin expression, with MKN7 and MKN45 being most similar to gastric mucosa and Caco-2 and LS513 to intestinal mucosa, although none exactly matched normal mucosa. However, changes in culture conditions did not cause major changes in the mucin expression within cell lines. CONCLUSIONS: Culture conditions mimicking the natural environment and allowing the bacterial cells to thrive had no effect on cell viability or apoptosis, and very little influence on mucin expression of human gastrointestinal cells. Thus, it is feasible, using the simple methods we present here, to substantially improve bacterial-mammalian cell in vitro coculture studies to make them more reflective of human infection.     

Causal relationship between the loss of RUNX3 expression and gastric cancer

Runx3/Pebp2alphaC null mouse gastric mucosa exhibits hyperplasias due to stimulated proliferation and suppressed apoptosis in epithelial cells, and the cells are resistant to growth-inhibitory and apoptosis-inducing action of TGF-beta, indicating that Runx3 is a major growth regulator of gastric epithelial cells. Between 45% and 60% of human gastric cancer cells do not significantly express RUNX3 due to hemizygous deletion and hypermethylation of the RUNX3 promoter region. Tumorigenicity of human gastric cancer cell lines in nude mice was inversely related to their level of RUNX3 expression, and a mutation (R122C) occurring within the conserved Runt domain abolished the tumor-suppressive effect of RUNX3, suggesting that a lack of RUNX3 function is causally related to the genesis and progression of human gastric cancer.     

News & Notes: Adhesiveness of Bacteroides fragilis Strains Isolated from Feces of Healthy Donors, Abscesses, and Blood

Bacteroides fragilis strains attached to oral epithelial cells (ECs) and the cell line Intestine 407 and associated with human phagocytes with different efficiencies depending on their source. The 58%, 75%, and 40% of strains isolated from feces, abscesses, and blood respectively adhered to ECs with good efficiency (11–40 bacteria/cell). Of the strains from feces and abscesses, 17% and 20% exhibited a high adherence (>40 bacteria/cell); however, none of the blood isolates presented this property. Similar results were obtained with the cell line Intestine 407 and human phagocytes. Of the isolates from feces, abscesses, and blood, 20%, 56%, and 71% respectively also exhibited hemagglutination ability, indicating that this property is a virulence trait more frequently present among pathogenic isolates than in commensal strains.     

Impaired generation of prostaglandins from isolated gastric surface epithelial cells in portal hypertensive rats

We studied generation of prostaglandins E2 and 6-keto F1a by surface epithelial cell isolated from the gastric mucosa of portal hypertensive and sham-operated rats. Oxygenated cell suspensions containing 80 +/- 3% of surface epithelial cells were incubated for 30 min at 37 degrees C and the concentration of prostaglandin E2 and 6-keto-prostaglandin F1a in medium was measured by radioimmunoassay. Viability of the cells was assessed with Fast green exclusion at baseline and after 30-min and 60-min incubation. Within 30 minutes the surface epithelial cells obtained from portal hypertensive rats generated 22.0 +/- 1.6 (mean +/- SE) pg prostaglandin E2 and 40.7 +/- 4.7 pg 6-keto prostaglandin F1a, per 10(6) cells. These were significantly less than prostaglandin generation by cells obtained from sham-operated rats. The viability of the surface epithelial cells from portal hypertensive rats was also significantly reduced compared with sham-operated rats after 60 minute incubation. Reduced ability of the surface epithelial cells to generate prostaglandins may be one mechanism for increased susceptibility of portal hypertensive gastric mucosa to injury by noxious agents.