EC:2.1.1.148 - FACTA Search

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Query: EC:2.1.1.148 (Thy1)
1,210 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Delayed-type hypersensitivity (DTH) to the azobenzenearsonate (ABA) hapten can be readily induced in A/J mice injecting ABA-coupled syngeneic spleen cells subcutaneously. To further characterize this T-cell-dependent immunological phenomenon, the effect of passively administered anti-cross-reactive idiotype common to anti-ABA antibodies of A/J mice (CRI) antibodies on the development of ABA-specific DTH was investigated. Animals given daily injections (of minute amounts) of anti-CRI antibodies subsequent to immunization with ABA-coupled cells show significant reduction of ABA specific responses. This inhibition is antigen specific and requires the intact immunoglobulin molecule, as F(ab')2 treatments were ineffective in suppressing the reaction. Investigations of the mechanism of the anti-CRI-induced suppression of ABA DTH revealed that the observed suppression is a result of the activation of suppressor cells. Spleen cells taken from animals which received anti-CRI antibodies were able to adoptively transfer suppression to naive recipients. This suppression was shown to be mediated by T cells, as anti-Thy1.2 plus complement completely abrogated the transfer of suppression. In addition, animals pretreated with low doses of cyclophosphamide were not suppressed by the administration of anti-CRI antibodies. The genetic restriction of anti-CRI-induced suppression was demonstrated. Antibodies to the major cross-reactive idiotype, (CRI) associated with anti-ABA antibodies in A/J mice were unable to suppress the development of DTH to ABA in BALB/c mice (H-2d, Igh-1a). Such antibodies were, however, fully active in suppressing ABA DTH in the allotype-congenic C.AL-20 strain which has an allotype (Igh-1d) similar to that of A/J (Igh-1e) on a BALB/c background, and which produces humoral antibodies with the CRI.
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PMID:Antigen- and receptor-driven regulatory mechanisms. I. Induction of suppressor T cells with anti-idiotypic antibodies. 9 56

In our companion paper we have reported that cell-mediated immunity of mice bearing renal cell carcinoma is profoundly suppressed. The non-responsiveness of such animals was found to be attributable to Renca cells themselves and to splenic lymphoid cells that down-regulate other fully capable lymphoid cells. In this communication the lymphoid cell source of suppression within Renca-bearing mice has been explored with the aim of identifying phenotypes of the responsible cells, the manner by which suppression is mediated, and initial ways by which suppression may be eliminated. A plastic-adherent cell bearing the Thy1.2 surface marker as well as the Lyt1 and Lyt2 antigens has been found to operate, perhaps in conjunction with macrophages, to down-regulate lymphokine-activated killer (LAK) cell development for natural killer (NK) and non-NK targets that include Renca cells themselves. The splenic suppressor cells lost the capacity to suppress the NK response of normal recipient mice upon shallow irradiation (250 rad) prior to adoptive transfer. Spleen cells, presumably macrophages, from Renca-bearing mice were found to suppress the generation of LAK and NK cells in vitro by synthesizing prostaglandins. Indomethacin, a prostaglandin synthetase inhibitor, blocked the induction of suppression both in vitro and in vivo, suggesting the presence of endogenous prostaglandins in Renca-bearing mice. The suppression seen in Renca-bearing mice that derives from multiple sources and has been prevented by two separate methods has been discussed from the viewpoint of the inter-relatedness of the sources.
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PMID:Immunosuppression in murine renal cell carcinoma. II. Identification of responsible lymphoid cell phenotypes and examination of elimination of suppression. 197 26

Spleen cells from mice receiving TLI, with or without thymus shielding, were investigated for in vitro and in vivo defects. At 4-6 weeks after irradiation spleen cells of both groups showed a normal number of Thy1 (T cells), L3T4 (CD4 positive T cells) cells, and an absence of natural suppressor cells. Splenocytes of the nonthymic shielded TLI group were not able to mount either a normal in vitro response (in MLR or PHA) or an in vivo graft-versus-host-disease reaction when injected into lethally irradiated adult allogeneic recipients or into neonatal F1 hybrids. This was in contrast to the normal immune capacity of spleen cells from the thymus shielded group that gave normal MLR and PHA tests in vitro and provoked GVHD in vivo. Thymuses recovered from mice receiving TLI with or without thymic shielding were however equally efficient in restoring the immune capacity after transplantation into neonatally thymectomized mice as measured by the PHA assay. Thymic irradiation is therefore necessary but not sufficient for creating long-lasting immune defects after TLI.
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PMID:Effects of thymus irradiation on the immune competence of T cells after total-lymphoid irradiation. 236 57

It is generally accepted that T lymphocyte-mediated autoimmunity contributes to the pathogenesis of Type 1 diabetes in humans and animals. Using spleen cells from nonobese diabetic (NOD) mice, a model of human Type 1 diabetes, we have analyzed the subset of T lymphocytes by flow cytometry and investigated concanavalin A (Con A)-induced interleukin 2 (IL-2) production and cell proliferation. NOD mice showed a higher percentage of Thy1.2+, L3T4+, and Lyt2+ T lymphocytes than did control ICR mice through the whole age examined. Spleen cells from a large majority of NOD mice were found to generate very low IL-2 production and cell proliferation in response to Con A. However, a few mice preserved their responsiveness to Con A. The following reasons may indicate that macrophage-mediated suppression participates in the deficient function of NOD spleen cells. (a) Macrophage depletion from NOD spleen cells retrieved Con A-induced IL-2 production. (b) Thioglycollate-induced peritoneal exudate cells containing many activated macrophages could completely suppress cell proliferation. (c) Prostaglandin synthetase inhibitor indomethacin reversed the suppression of IL-2 production by macrophages. (d) Conversely, exogenous prostaglandins could show the partial suppression of IL-2 production. These results suggest that activated macrophages suppress the response of NOD spleen cells to Con A mostly through prostaglandins. This impairment may contribute to the pathogenesis of Type 1 diabetes in NOD mice.
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PMID:[Cellular immune dysfunction in the NOD mouse: suppression of concanavalin A-induced responses in spleen cells by activated macrophages]. 258 13

Immunomodulatory effects of cholera toxin (CT) were investigated in a murine model using various immunological parameters. C3H/HeN mice were injected with 2 micrograms of CT at various intervals (from 6 h to 21 days) before the immunological assays. Thymocytes were markedly decreased in their absolute number, and the phenotypes in such cells were clearly shifted from Thy1.2high+ PNAhigh+ to Thy1.2low+ PNAlow+ 2-4 days after the CT treatment. Spleen T cells were relatively increased, while surface IgM positive B cells were rather decreased. Natural killer activity and in vivo and in vitro cytotoxic T lymphocyte activity were markedly suppressed during the early stages after the CT treatment but recovered completely within 21 days. Mixed lymphocyte reaction was profoundly suppressed at least for the 1st week after the CT treatment. Furthermore, EL-4 tumor of C57BL/6 origin grew progressively and killed the recipient C3H mice when such tumor cells were inoculated 6 h after the CT treatment. On the contrary, a marked augmentation of direct (IgM) and indirect (IgG) plaque-forming cell responses to sheep red blood cells was seen after CT treatment. Delayed footpad reaction to SRBC was also augmented after CT treatment. As the mechanisms, both direct augmentation of CD4+ T cells and direct suppression of CD8+ T cells appeared to occur at a time due to the CT treatment. An indirect effect of CT through the release of the endogenous steroids was dismissed in the present study. Taken together, CT appears to have differential immunomodulatory effects on various immune effector cells through various mechanisms.
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PMID:Immunomodulatory effects of cholera toxin in mice. 279 14

It was recently demonstrated that MRL-lpr lymphoid cells transferred into lethally irradiated MRL- +mice unexpectedly failed to induce the early onset of lupus syndrome and massive lymphadenopathy of the donor, instead they caused a severe wasting syndrome resembling graft-vs-host (GvH) disease. The present studies were carried out to characterize the cellular events involved in the severe GvH-like reaction developed in C57BL/6 (B6) recipients of B6-lpr spleen cells, designated as [B6-lpr----B6] chimeras. [B6-lpr----B6] chimeras showed at 2 weeks post transplantation marked splenomegaly consisting predominantly of Lyt2+ T cells (approximately 70%), and subsequently developed acute and severe depletion in spleen cells causing spleen atrophy and fibrosis. Spleen cells from chimeras at 2 weeks posttransfer were not cytotoxic to both recipient and donor ConA blast target cells. In contrast, those cells (irradiated to 3000 rad) considerably suppressed ConA-induced proliferative responses of B6 spleen cells. These nonspecific suppressor cells expressed Thy1 and Lyt2 antigens, but lacked L3T4 and B220 antigens. Furthermore, elimination of Thy1+ or B220+ but neither L3T4+ nor Lyt2+ cells from B6-lpr spleen cells before transfer retarded the generation of nonspecific suppressor cells but did not abrogate the GvH-like disease. These results suggest that the GvH-like disease and lymphoid atrophy in [B6-lpr----B6] chimeras were mediated by Lyt2+ suppressor T cells, and that B220+ T cells played a crucial role in the induction of these suppressor cells. The cell transfer model reported here may be very useful in understanding the immunological function of B220+ T cells in vivo.
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PMID:[Analysis of the mechanism of graft-vs-host like disease in [lpr/lpr----+/+] chimera]. 296 73

The lymphocyte activating properties of a membrane proteoglycan (MPG) extracted from a mutant non-encapsulated strain of Klebsiella pneumoniae (Kp) (biotype a I-145) were investigated. Kp MPG induced a strong proliferative response of BALB/c spleen cells and Peyer's patches cells. Thymidine incorporation was dose-related (from 1 to 100 micrograms Kp MPG/ml) and reached a maximum at day 3. It was not reduced by removal of most adherent cells, nor by depletion of Thy1-2 positive cells, but it was abrogated by removal of surface immunoglobulin bearing cells. Spleen cells from nude mice and those from C3H/Hej mice were strongly stimulated by Kp MPG. Conversely Kp MPG did not induce interleukin 2 production and did not trigger the proliferation of thymocytes but stimulated interleukin 1 production by adherent spleen cells. Finally, unfractionated or B-enriched spleen cells cultured with Kp MPG synthesized IgM and, to a lesser extent, IgG and IgA. It is concluded that Kp MPG is a T-independent polyclonal B cell activator and an inducer of interleukin 1 production.
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PMID:Polyclonal activation of murine B cells by a membrane proteoglycan of Klebsiella pneumoniae. 331

Mice were injected intravenously with rabbit antiserum to ganglio-n-tetraosylceramide (asialo GM1, ASGM1), a neutral glycosphingolipid present at high quantities on the surface of natural killer (NK) cells. Spleen cells prepared from the mice were then examined for NK activity against YAC-1 targets, for phagocytic cells and by flow cytometric analysis for Thy1, Lyt1, Lyt2, ASGM1 and surface Ig (SIg) phenotypes. Administration of anti-ASGM1 in mice resulted in a complete depletion of NK activity and ASGM+1 cells in the spleen, but no changes in the proportions of Thy1+ cells and their Lyt1+ and Lyt2+ subsets and phagocytic cells. Corresponding to this selective depletion of ASGM+1 cells and NK activity, the spleen cells showed an increased number of SIg+ B cells and augmented mitogenic responses to B-cell but not T-cell mitogens. These NK-depleted spleen cells also showed production of pokeweek mitogen (PWM)-driven plaque-forming cells (PFC) to much higher levels than those of control spleens. In the spleens of mice treated with varying concentrations of anti-ASGM+1, a good correlation was found between the decreased NK activity and the enhanced PFC response. To directly test the possible suppressor activity of NK cells on PWM-induced PFC response, NK (ASGM+1) cells were highly purified from the spleen by a combination of Percoll gradients and cytolysis of T cells by monoclonal antibodies followed by indirect panning. When added to NK-depleted spleen cells, they suppressed the augmented PFC response of NK-depleted spleen cells, depending on the number of cells added. These results suggest that NK (ASGM+1) cells in mice exhibit a suppressor property on B cells, which are undergoing spontaneous or mitogen-induced differentiation.
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PMID:Suppression of B-cell differentiation by natural killer (asialo GM1+) cells in mice. 348 16

A model of experimental Trypanosoma cruzi murine infection with chemically induced metacyclic forms (opossum clone Dm28c) showed a marked state of T-cell unresponsiveness during acute phase, but lacked evidence of suppressor cell activity. Spleen cells from infected mice were suppressed in vitro in responses to T-cell activators concanavalin A, anti-Thy1 monoclonal antibody (MAb), and anti-CD3 MAb compared with spleen cells from control littermates. Activation with accessory cell-independent stimulus provided by immobilized anti-CD3 was defective in splenic CD4-positive T cells from infected mice, but not in such cells from control mice. No evidence of splenic suppressor cell activity was found in cell-mixing experiments using nylon-passed T cells from control and infected donors. Kinetic experiments showed that there was a discrete stage in infection when T cells were already suppressed in response to anti-CD3 but still responded to anti-CD69 MAb. In these T cells, immobilized anti-CD3 failed to enhance simultaneous CD69 responses, although anti-CD3 enhanced CD69 responses in control T cells from uninfected donors. These results demonstrate an intrinsic defect in T-cell receptor-mediated T-cell activation, which could be a mechanism generating T-cell suppression during infection by T. cruzi.
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PMID:Trypanosoma cruzi-induced immunosuppression: blockade of costimulatory T-cell responses in infected hosts due to defective T-cell receptor-CD3 functioning. 813 57