Epithelial distribution of neural receptors in the guinea pig small intestine

Neural and paracrine agents, such as dopamine, epinephrine, and histamine, affect intestinal epithelial function, but it is unclear if these agents act on receptors directly at the enterocyte level. The cellular localization and villus-crypt distribution of adrenergic, dopamine, and histamine receptors within the intestinal epithelium is obscure and needs to be identified. Single cell populations of villus or crypt epithelial cells were isolated from the jejunum of adult guinea pigs. Enterocytes were separated from intraepithelial lymphocytes by flow cytometry and specific binding was determined using fluorescent probes. Alpha1-adrenergic receptors were located on villus and crypt intraepithelial lymphocytes and enterocytes. Beta-adrenergic receptors were found on villus and crypt enterocytes. Dopamine receptors were found on all cell types examined, whereas histamine receptors were not detected (<10% for each cell population). These studies demonstrated that (1) receptors for epinephrine and dopamine exist on epithelial cells of the guinea pig jejunum, (2) beta-adrenergic receptors are found primarily on villus and crypt enterocytes and (3) intraepithelial lymphocytes contain alpha1-adrenergic, but have few beta-adrenergic, receptors. The presence of neural receptors suggests that these agents are acting, at least in part, at the enterocyte or intraepithelial lymphocyte levels to modulate intestinal and immune function.     

Use of a lectin as an enterocyte-specific cell surface marker for flow cytometric analysis of isolated native small intestinal epithelial cells

Little use has been made of flow cytometry in evaluating small intestinal epithelial cells. Obtaining pure epithelial cell populations devoid of peripheral blood contaminants and intraepithelial lymphocytes contributes to the difficulties encountered in flow cytometry studies. We have investigated the use of lectins as enterocyte specific cell markers using lectin histochemistry, and have identified one lectin, UEA-1, which binds exclusively and specifically to intestinal epithelial cell brush border. Additionally, we have exploited that specificity using flow cytometry and FITC-UEA-1 to identify and separate native intestinal epithelial cells from a mixed cell population isolated by mechanical vibration. This fluorescent-lectin technique is a unique and simple method to identify native small intestinal epithelial cells in a mixed cell population; it may be exploited by flow cytometric sorting of a pure population for biochemical study or as an enterocyte specific label for surface receptor flow cytometric studies in the research or clinical setting.     

Peroxynitrite inhibits enterocyte proliferation and modulates Src kinase activity in vitro

Overproduction of nitric oxide (NO) or its toxic metabolite, peroxynitrite (ONOO-), after endotoxemia promotes gut barrier failure, in part, by inducing enterocyte apoptosis. We hypothesized that ONOO- may also inhibit enterocyte proliferation by disrupting the Src tyrosine kinase signaling pathway, thereby blunting repair of the damaged mucosa. We examined the effect of ONOO- on enterocyte proliferation and Src kinase activity. Sprague-Dawley rats were challenged with LPS or saline, whereas intestinal epithelial cell line cells were treated with ONOO- or decomposed ONOO- in vitro. Enterocyte proliferation in vivo and in vitro was measured by 5-bromo-2'-deoxyuridine (BrdU) or [3H]thymidine incorporation. Src kinase activity in cell lysates was determined at various times. LPS challenge in vivo and ONOO- treatment in vitro inhibited enterocyte proliferation. ONOO- treatment blunted the activity of Src and its downstream target, focal adhesion kinase, in a time-dependent manner. ONOO- blocked mitogen (FBS, EGF)-induced enterocyte proliferation and Src phosphorylation while increasing Src nitration. Thus ONOO- may promote gut barrier failure not only by inducing enterocyte apoptosis but also by disrupting signaling pathways involved in enterocyte proliferation.     

Adoptive transfer of delayed-type hypersensitivity to Sendai virus. I. Induction of two different subsets of T lymphocytes which differ in H-2 restriction as well as in the Lyt phenotype

This paper investigates kinetics and antigenic and genetic requirements for transfer of delayed-type hypersensitivity (DTH) reactions against Sendai virus. Kinetics of sensitization of effector cells are similar to those described in other virus systems. Maximum DTH response is elicited in the footpad 7 days after sensitization; maximal increase in footpad thickness is found approximately 24 hr after injection of virus and transfer of immune lymphocytes. DTH effector cells are Ig^? and are susceptible to treatment with anti-theta antibody and complement. After transfer of immune lymphocytes a DTH reaction can be elicited by infectious virus, uv light-inactivated virus or cell-cultured Sendai virus which lacks fusion capacity. Requirements of H-2 compatibility are dependent on the biological nature of the virus preparation used for challenge: High doses of infectious or uv light-inactivated Sendai virus require K, D, or IA region compatibility; low concentrations of infectious virus require K and/or D region compatibility, while cell-cultured fusion-negative Sendai virus requires IA region homology. At the level of induction K, D region-restricted DTH-effector T lymphocytes (Td) and cytolytic T lymphocytes (Tc) are stimulated to a greater extent by infectious virus than by uv light-inactivated virus. Furthermore, stimulation of these T lymphocytes is dependent on the route chosen for immunization: intravenous (iv) injection is superior to intraperitoneal (ip) injection; subcutaneous (sc) injection causes the lowest degree of sensitization. IA region-restricted Td lymphocytes are stimulated to comparable amounts by infectious or uv light-inactivated Sendai virus independent of the route of immunization. Td lymphocytes, which require IA region compatibility and Td lymphocytes which require K or D region compatibility can be distinguished by their Lyt phenotype, e.g., IA region-restricted Td lymphocytes are characterized by Lyt-1⁺2^? antigens, while K or D region-restricted Td lymphocytes are phenotypically Lyt-1(⁺)2⁺.     

Virus-induced alterations of lymphoid tissues. II. Lymphocyte receptors for Newcastle disease virus

Newcastle disease virus (NDV) agglutinates rat, mouse and human lymphocytes. Viral agglutination of rat thoracic duct lymphocytes was specifically inhibited by N-acetylneuraminic acid implying that the receptors terminate in sialic acid. While the attachment of virus to lymphocytes was rapid the reaction was unstable and NDV was shown to elute at 37 °C. Evidence was obtained that the eluting virus cleaved sialic acid from the surface of lymphocytes and concomitantly destroyed this lymphocyte receptor.     

Replication of dengue-2 virus in cultured human lymphoblastoid cells and subpopulations of human peripheral leukocytes.

We studied the susceptibility of four human lymphoblastoid cell lines (HCL) and of subpopulations of circulating peripheral human leukocytes to dengue-2 virus infection. HCL with B cell characteristics (Raji, Wil 2WT, 8866), B-type peripheral lymphocytes, and macrophages were productively infected by dengue-2 virus. In contrast, an HCL with T cell characteristics (MOLT-4), T type peripheral lymphocytes, and polymorphonuclear (PMN) cells did not become infected and replicate dengue-2 virus. PMN cells did not adsorb dengue-2 virus, suggesting lack of viral receptors. However, T-type cultured lymphoblasts and T-type peripheral lymphocytes adsorbed dengue-2 virus, suggesting that the block in viral replication involves some stage of infection occurring after adsorption. Permissiveness of B-type HCL to dengue-2 virus infection was dependent on the virus seed used but the virus titers obtained among the susceptible HCL varied. HCL infected persistently with dengue-2 virus have been established. Human peripheral lymphocytes inoculated after cultivation for 3 days in complete medium alone or complete medium supplemented with mitogens replicated dengue-2 virus. In contrast, unstimulated peripheral lymphocytes inoculated immediately after isolation adsorbed dengue-2 but did not support its replication. Mitogen-treated and untreated macrophages replicated dengue-2 virus equally well. The efficiency of dengue-2 virus replication by macrophages was higher than that of peripheral lymphocytes but lower than that of HCL.     

Interferon-gamma inhibits enterocyte migration by reversibly displacing connexin43 from lipid rafts

Necrotizing enterocolitis (NEC) is associated with the release of interferon-gamma (IFN) by enterocytes and delayed intestinal restitution. Our laboratory has recently demonstrated that IFN inhibits enterocyte migration by impairing enterocyte gap junctions, intercellular channels that are composed of connexin43 (Cx43) monomers and that are required for enterocyte migration to occur. The mechanisms by which IFN inhibits gap junctions are incompletely understood. Lipid rafts are cholesterol-sphingolipid-rich microdomains of the plasma membrane that play a central role in the trafficking and signaling of various proteins. We now hypothesize that Cx43 is present on enterocyte lipid rafts and that IFN inhibits enterocyte migration by displacing Cx43 from lipid rafts in enterocytes. We now confirm our previous observations that intestinal restitution is impaired in NEC and demonstrate that Cx43 is present on lipid rafts in IEC-6 enterocytes. We show that lipid rafts are required for enterocyte migration, that IFN displaces Cx43 from lipid rafts, and that the phorbol ester phorbol 12-myristate 13-acetate (PMA) restores Cx43 to lipid rafts after treatment with IFN in a protein kinase C-dependent manner. IFN also reversibly decreased the phosphorylation of Cx43 on lipid rafts, which was restored by PMA. Strikingly, restoration of Cx43 to lipid rafts by PMA or by transfection of enterocytes with adenoviruses expressing wild-type Cx43 but not mutant Cx43 is associated with the restoration of enterocyte migration after IFN treatment. Taken together, these findings suggest an important role for lipid raft-Cx43 interactions in the regulation of enterocyte migration during exposure to IFN, such as NEC.     

Target cells for interferon production in human leukocytes stimulated by sendai virus.

Whole leukocytes, mononuclear cells, polymorphonuclear cells (PMN), MONOCYTES, PURIFIED LYMPHOCYTES, AND T (rosette-forming cells, RFC) and non-T (nonrosette-forming cells, nonRFC) lymphocytes isolated from the human peripheral blood were stimulated by Sendai virus, respectively, and examined for interferon production in their culture fluids. High levels of interferon were produced by mononuclear cells, but not by PMN. Removal of monocytes from the mononuclear cell population did not affect at all the levels of interferon produced, although it strongly suppressed interferon induction by polyinosinic-polycytidylic acid (poly IC) and mitogenic response to phytohemagglutinin (PHA) of the lymphocytes. Purified monocytes and T lymphocytes were unresponsive to the virus. In contrast, a population of purified non-T lymphocytes produced high levels of interferon. Addition of monocytes to the interferon-producing non-T lymphocytes did not affect the levels of interferon produced. No detectable levels of interferon were produced in the mixture of T lymphocytes and monocytes. It is concluded that non-T lymphocytes may be a major target for interferon induction of human leukocytes by Sendai virus.     

Effects of purified measles virus components on proliferating human lymphocytes.

Preparations of purified measles virus and both core and membrane-rich fractions suppressed mitogen-induced proliferation of human lymphocytes without reducing viability or the number of T lymphocytes in culture. The suppressive activity of the measles virus was heat labile. The virus preparations by themselves did not induce lymphocyte proliferation.     

IGF-I augments resection-induced mucosal hyperplasia by altering enterocyte kinetics

Our objective was to determine if exogenous insulin-like growth factor-I (IGF-I) augments the adaptive growth response to mid small bowel resection in association with changes in enterocyte kinetics. We determined structural adaptation and concomitant changes in enterocyte proliferation, apoptosis, and migration of the jejunum in growing, parenterally fed rats after mid small bowel resection or small bowel transection, and treatment with IGF-I or vehicle. IGF-I treatment in resected rats significantly increased jejunal mucosal mass by 20% and mucosal concentrations of protein and DNA by 36 and 33%, respectively, above the response to resection alone. The enhancement of resection-induced adaptive growth and cellularity by IGF-I reflected an increase in enterocyte proliferation, an expansion of the proliferative compartment in the crypt, and no further decrease in enterocyte apoptosis or increase in enterocyte migration beyond the effects of resection. The ability of IGF-I to augment the mucosal hyperplasia stimulated by the endogenous response to resection substantiates the role of IGF-I as an intestinal mitogen that promotes tissue regeneration.     

Release of xenotropic type C RNA virus in response to lipopolysaccharide: acitivity of lipid-A portion upon B lymphocytes.

The present studies demonstrate that lipopolysaccharide (LPS) causes the release of endogenous xenotropic type-C RNA virus from BALB/c spleen cells. The evidence suggests that virus release is stimulated by the lipid-A portion of LPS and primarily involves an action of LPS on B lymphocytes. LPS had little or no effect on virus release by T lymphocytes, macrophages, or fibroblasts. These results indicate that the differentiated state of the cell plays an important role in the regulation of endogenous virus release.     

Galactose effects on enterocyte differentiation in the mouse jejunum

The present work investigates the ability of galactose to affect enterocyte differentiation during normal development in vivo. Energy intake has also been varied to take account of the fact that galactose is poorly metabolized in mice. Brush-border lactase, alpha-glucosidase, dipeptidylpeptidase-IV, aminopeptidase N, alkaline phosphatase and microvillus length were measured as markers of enterocyte differentiation in mice fed diets containing galactose (G diet), corn oil (E diet) or galactose + corn oil (G + E diet). Maintaining mice on a G instead of E diet reduced brush-border lactase activity and enterocyte migration rates; alpha-glucosidase, dipeptidylpeptidase-IV, aminopeptidase N and microvillus length expression increased and alkaline phosphatase activity remained unchanged. Feeding the G + E diet restored enterocyte migration rates, lactase, aminopeptidase N and dipeptidylpeptidase-IV activities to values found in mice fed the E diet. Galactose stimulation of alpha-glucosidase and microvillus length expression was, however, fully maintained in mice fed the G + E diet. Present results show that enterocyte differentiation is affected independently by varying dietary galactose and energy levels; that galactose effects always increase and energy effects usually decrease expression of enterocyte components and that energy stimulation of lactase activity is exceptional.     

Cell-mediated immune response to lymphocytic choriomeningitis and vaccinia virus in rats.

The parameters of cell-mediated immune responses of rats to infection with lymphocytic choriomeningitis virus or vaccinia virus were assessed by measuring primary footpad swelling, increased weights of the local lymph nodes, increased numbers of lymphocytes per lymph node, and the course of virus-specific cytolytic activity by these lymphocytes. Except for lack of a defined swelling caused by vaccinia virus injected into the hind footpads of rats, the kinetics of all these responses correlated and were in accord with the usual time course of cellular immune responses. Starting 3 days after infection, peaking at 5 to 7 days, and disappearing after 10 to 12 days, the responses by rats to both viruses were comparable to those found in mice. The phagocytes of these infected rats inhibited the growth of Listeria monocytogenes in vivo, indicating activation of the macrophages by virus-specific cellular immunity. The rat cytotoxic lymphocytes were thymus derived as judged by various criteria: inactivation by an absorbed rabbit anti-rat brain antiserum plus C, susceptibility to anti Thy 1.1 plus C, restriction of the lytic activity within inbred strains and probably by the Ag-B locus, and the kinetics of the response. The cytotoxic T lymphocytes were virus specific since they killed only target cells infected with the same virus but not uninfected cells, or targets that were infected with an unrelated virus.     

Mechanisms of DNA repair disorders in human cells. Genome instability in lymphocytes of patients with myopathy related to DNA repair disorders

Increased level of cytogenetic damages was observed in lymphocytes of 10 patients with muscular dystrophy (Duchenne, Erba, Landuzi--Degerin). Analysis of DNA repair synthesis revealed inhibition of this process in lymphocytes of 10 patients observed. On the other hand, decreased reactivation of vaccinia virus and increased level of virus mutagenesis induced by 4-nitroquinoline-1-oxide and bleomycin was noted in the experiments with lymphocytes of 3 patients observed.     

Effects of pure interferons on Epstein-Barr virus infection in vitro.

Pure human gamma-interferon as well as alpha-interferon inhibited induction of immunoglobulin synthesis by Epstein-Barr virus but not by pokeweed mitogen in B lymphocytes from adult but not from newborn humans. The interferons inhibited the infected B lymphocytes directly, irrespective of the Epstein-Barr virus immune status of the donor, and their inhibitory effect was synergistic.     

Pathophysiology of enteric infections with Giardia duodenalius

Giardia is the most prevalent human intestinal parasitic protist in the world, and one of the most common parasite of companion animals and young livestock. Giardia is a major cause of diarrhea in children and in travelers. The host-microbial interactions that govern the outcome of infection remain incompletely understood. Findings available to date indicate that the infection causes diarrhea via a combination of intestinal malabsorption and hypersecretion. Malabsorption and maldigestion mainly result from a diffuse shortening of epithelial microvilli. This enterocytic injury is mediated by activated host T lymphocytes. Pathophysiological activation of lymphocytes is secondary to Giardia-induced disruption of epithelial tight junctions, which in turn increases intestinal permeability. Loss of epithelial barrier function is a result of Giardia-induced enterocyte apoptosis. Recent findings suggest that these effects may facilitate the development of chronic enteric disorders, including inflammatory bowel disease, irritable bowel syndrome, and allergies, via mechanisms that remain poorly understood. A newly discovered SGLT-1 glucose uptake-mediated host cytoprotective mechanism may represent an effective modulator of the epithelial apoptosis induced by this parasite, and, possibly, by other enteropathogens. A better understanding of the pathogenesis of giardiasis will shed light on new potential therapeutic targets.     

Role of CD8(+) lymphocytes in control and clearance of measles virus infection of rhesus monkeys

The creation of an improved vaccine for global measles control will require an understanding of the immune mechanisms of measles virus containment. To assess the role of CD8(+) cytotoxic T lymphocytes in measles virus clearance, rhesus monkeys were depleted of CD8(+) lymphocytes by monoclonal anti-CD8 antibody infusion and challenged with wild-type measles virus. The CD8(+) lymphocyte-depleted animals exhibited a more extensive rash, higher viral loads at the peak of virus replication, and a longer duration of viremia than did the control antibody-treated animals. These findings indicate a central role for CD8(+) lymphocytes in the control of measles virus infections and the importance of eliciting a cell-mediated immune response in new measles vaccine strategies.     

Early identification and retrieval or deletion of human lymphocyte subpopulations responding to influenza virus or respiratory syncytial virus challenge

Differences in immune responses of human mononuclear leukocytes (MNL) have been demonstrated following exposure in vitro to influenza virus or respiratory syncytial virus (RSV). In the current studies, we sought to identify early differences in reactive subpopulations that emerge from within the heterogeneous resting MNL pool after challenge. MNL were sham-exposed or exposed to influenza virus or RSV, separated, and retrieved by countercurrent centrifugal elutriation after 3 d. Exposure to influenza virus caused a relative decline in the number of large MNL, but an increase in small lymphocytes. Large cells that remained included primitive lymphoblasts, rare plasma cells, and typical lymphocytes of progressively greater volume. Exposure to RSV increased the number of large MNL, but diminished the number of small lymphocytes. The subpopulation of large cells consisted of atypical and large granular lymphocytes. Furthermore, deletion of the latter large, reactive lymphocytes led to abrogation of an RSV-specific proliferative response upon subsequent challenge. Thus, the specific and different subpopulations reactive after infectious virus challenge could be identified, retrieved, and manipulated without dependence on a priori, phenotypic markers.