T cells subsets responsible for clearance of Sendai virus from infected mouse lungs

T cell subsets responsible for clearance of Sendai virus from mouse lungs determined by adoptive transfer of immune spleen cell fractions to infected nude mice. T cells with antiviral activity developed in spleens by 7 days after intranasal infection. Spleen cell fractions depleted of Lyt-2+, Lyt-1+, or L3T4+ cells showed antiviral activity in vivo, although the degree of the activity was lower than that of control whole spleen cells. The antiviral activity of the Lyt-2+ cell-depleted fraction was consistently higher than that of L3T4+ (Lyt-1+)-depleted cells. In vitro cytotoxic activity against Sendai virus-associated, syngeneic lipopolysaccharide-blast cells was detected in stimulated cells from intraperitoneally immunized mice but was lost after depletion of Lyt-2+ cells. Multiple injection of anti-Sendai virus antibody into infected nude mice had no effect on lung virus titer. These results indicate that L3T4+ (Lyt-1+) and Lyt-2+ subsets are cooperatively responsible for efficient clearance of Sendai virus from the mouse lung.     

Induction of IL-2 receptor expression in vivo: response to concanavalin A

The requirements for the induction of IL-2 receptor expression following lymphocyte stimulation in vitro are well understood but little is known about the role of IL-2 and the IL-2 receptor in lymphocyte activation in vivo. Following the subcutaneous injection of concanavalin A, cells from popliteal and lumbar lymph nodes draining the footpad became enlarged and expressed the IL-2 receptor. At the peak of the response, 9-15 hr after injection, more than 70% of all cells were IL-2 receptor positive; the majority were T cells of both Lyt-2+ and L3T4+ subsets. IL-2 receptor expression was closely associated with both spontaneous and IL-2-driven proliferation. Analysis of the biodistribution of 125I-labeled concanavalin A revealed that much of the injectate remains in the footpad injection site but the mitogen also accumulates in the draining lymph nodes and eventually in the major organs. This model of lymphocyte activation was used to demonstrate that in vivo cyclosporin A inhibits both IL-2 receptor expression and the induction of spontaneous proliferation.     

Cellular basis of immunologic interactions in adoptive T cell therapy of established metastases from a syngeneic murine sarcoma

The adoptive transfer of specifically sensitized T lymphocytes can effectively mediate the regression of established local and metastatic tumors. Previous experiments using the weakly immunogenic MCA 105 sarcoma indicated that cellular interactions between transferred L3T4+ helper and Lyt-2+ cytotoxic immune T cells were necessary for mediating tumor regression. In this study, the kinetics of T-T cell interactions were analyzed by in vivo depletion of T cell subsets with mAb. The anti-tumor efficacy of transferred immune cells was abrogated by in vivo administration of either L3T4 or Lyt-2 mAb on the day of cellular therapy. However, if mAb were given 3 days after the transfer of immune cells, depletion of Lyt-2+ but not L3T4+ cells abrogated anti-tumor efficacy. T cell depletion on day 6 after transfer of immune cells had no adverse effect on tumor regression, indicating the period required for T cell reactivity in vivo. Furthermore, depletion of Ia+ cells by in vivo mAb treatment abrogated the anti-tumor efficacy of immune cells. It is thus hypothesized that there are two distinct but sequential phases of in vivo T cell interactions leading to the regression of established tumors after adoptive immunotherapy. An initial "helper/inducer" phase apparently requires the interaction of L3T4+ immune cells and the tumor Ag involving Ia+ cells. The inducement of L3T4+ cell activation is to provide helper function via the secretion of IL-2. The second phase designated as an "effector phase" involves differentiation of immune Lyt-2+ cells under the influence of IL-2 secreted during the helper/inducer phase for generation of mature Lyt-2+ effector cells. To further support the hypothesis of a two-phase process we have examined the phenotype and kinetics of tumor regression mediated by effector cells generated by secondary in vitro sensitization (IVS). Although the IVS cells were generated from fresh MCA 105 immune spleen cells, their anti-tumor efficacy was mediated solely by Lyt-2+ lymphocytes. Kinetic studies revealed that the in vivo requirement of IVS Lyt-2+ effector cells to mediate tumor regression was less than 3 days, and the anti-tumor reactivity of these cells was not affected by in vivo depletion of Ia+ cells. Thus, the IVS reaction is likely representative of the in vivo counterpart of the helper/inducer phase leading to the generation of mature Lyt-2+ immune effector cells. Tumor regression after transfer of Lyt-2+ cells generated in IVS therefore required a relatively shorter period of time than that required after the transfer of fresh noncultured MCA 105 immune spleen cells.     

Antiviral effect of lymphokine-activated killer cells: characterization of effector cells mediating prophylaxis

Lymphokine-activated killer (LAK) cells generated by cultivation of C57BL/6 mouse spleen cells in the presence of recombinant interleukin-2 were transferred into natural killer (NK) cell-deficient suckling mouse recipients. These mice were then challenged with either murine cytomegalovirus (MCMV) or lymphocytic choriomeningitis (LCMV) and sacrificed 3 days later. No interleukin 2 infusions were given. Mice receiving as few as 5 x 10(5) LAK cells had several 100-fold decreases in spleen MCMV titers as compared with untreated mice. This treatment had no effect on spleen LCMV titers. The LAK cell cultures contained 10 to 17% NK 1.1+, 50 to 55% Lyt-2+, and 33 to 50% immunoglobulin D+ cells. Double fluorescence labeling and in vitro cytotoxicity assays with fluorescence-activated cell sorting revealed at least two mutually exclusive killer cell populations. NK 1.1+ LAK cells resembled freshly isolated activated NK cells with regard to target cell range (YAC-1 cell killing greater than L-929, P815, and EL-4 cell killing), large granular lymphocyte (LGL) morphology, and decreased ability to lyse interferon (IFN)-treated target cells. Lyt-2+ LAK cells lysed the targets mentioned above but at lower levels and without the differences in susceptibility mentioned above. These Lyt-2+ LAK cells also had a decreased ability to lyse IFN-treated targets, in contrast to classic cytotoxic T lymphocytes, which lyse IFN-treated targets far more efficiently than untreated targets. Purified populations of LAK cells obtained by fluorescence-activated cell sorting were used in the antiviral protection model. The results showed that protection against MCMV could be mediated by NK 1.1+, NK 1.1-, Lyt-2+, Lyt-2-, and IgD- populations but not by IgD+ cells. The five protective populations all had in common the LGL phenotype and cytotoxic activity in vitro. The IgD+ population did not contain LGLs, lyse target cells in vitro, or mediate an antiviral effect in vivo. These results suggest that LAK cells may be therapeutically useful against certain virus infections (MCMV) but not others (LCMV) and that despite their heterogeneity in antigenic phenotype and cytotoxic activity, their pattern of antiviral activity in vivo resembles that of NK cells, which protect against MCMV but not LCMV.     

Sequential events in thymocyte differentiation and thymus regeneration revealed by a combination of bromodeoxyuridine DNA labeling and antimitotic drug treatment

The proliferative status of thymocyte cell subsets in vivo was assessed by observing the effect of two antimitotic drugs, hydroxyurea (HU) and demecolcine. Both drugs had the greatest effect on the double-positive (DP) subset followed by the L3T4+ single-positive (SP) subset. However, the decrease in the latter type was delayed by several days, showing that their precursors rather than the cells themselves were killed by HU. Double-negative (DN) cells were less affected, indicating that they contain a resting subset and that they are renewed by emigration rather than by autonomous in situ proliferation. After drug treatment all cycling cells were eliminated from the thymus but, as shown by in vivo and in vitro bromodeoxyuridine incorporation, new cells rapidly reentered in cycle, starting from DN cells and Lyt-2+ SP cells and followed by DP cells. Lyt-2+ SP cycling cells represent an intermediary stage between DN and DP cells, and they are very transient. Injection of HU 24 h after in vivo BrdUrd labeling eliminated most labeled DN cells, but did not prevent the emergence of L3T4+ SP-labeled cells on day 3 as observed in control thymuses. These results suggest that these L3T4+ SP cells are generated from DP cells in the absence of proliferation. Cycling cells in the regenerating thymus were first located at the corticomedullary junction and then in the subcapsular region, suggesting a reverse migration process to that observed after cessation of proliferation. A model is proposed to summarize these sequential events.     

Suppression of lymphocyte reactivity by culture supernatant from horse embryos and endometrium

The mechanisms that permit maternal tolerance of the conceptus allograft during early pregnancy in the mare have not been investigated. Embryos and endometria were collected from mares 14 days after ovulation and cultured for 20.5 h. The effect of addition of culture supernatant on incorporation of [3H]thymidine by equine peripheral blood lymphocytes was studied. Culture supernatant from endometrium of nonpregnant mares did not affect lymphocyte blastogenesis, but supernatant from both embryos and endometrium of pregnant mares reduced concanavalin A (Con A)- and phytohemagglutinin-induced blastogenesis. Five of six cultures performed in the present of indomethacin did not contain immunosuppressive factors. The suppressive effect on Con A-induced blastogenesis was eliminated by charcoal treatment of the supernatants and reduced by treatment with trypsin or heat. Blastogenesis of bovine lymphocytes was inhibited by culture supernatant of endometrium from pregnant mares, but not by embryo supernatant. Preincubation of blood lymphocytes with supernatants from endometrium of pregnant mares enhanced subsequent incorporation of [3H]thymidine by lymphocytes. A 24-h delay in addition of embryo culture supernatants significantly reduced the degree of immunosuppression. These results suggest that probably more than one substance interacts with the lymphocyte cultures and the observed blastogenesis reflects the end result of the interaction between suppressive and stimulating factors. The lymphocyte inhibitory effect evident in supernatants from embryos and endometrium from pregnant mares may be important in local immunosuppression and maternal acceptance of pregnancy.     

Identification of cellular mechanisms operational in vivo during the regression of established pulmonary metastases by the systemic administration of high-dose recombinant interleukin 2

The systemic administration of high-dose recombinant IL 2 mediated significant reductions of established 3-day pulmonary micrometastases from both weakly immunogenic and nonimmunogenic sarcomas. However, when treatment with IL 2 was delayed for 10 days after the injection of tumor cells in an attempt to treat grossly visible pulmonary macrometastases, only those established from weakly immunogenic sarcomas remained susceptible. Established 10-day pulmonary nodules from the nonimmunogenic sarcomas became refractory to IL 2 therapy. We utilized selective depletion of lymphocyte subsets in vivo by the systemic administration of specific monoclonal antibodies to cells bearing either the L3T4 or Lyt-2 marker or a heteroantiserum to cells bearing the ASGM-1 glycosphingolipid to identify lymphocytes involved in IL 2-induced tumor regression. Cells with potent lymphokine-activated killer (LAK) activity against fresh tumor targets in vitro were identified in the lungs of IL 2-treated mice. By flow cytometry analysis, the majority of these effector cells were Thy-1+, L3T4-, Lyt-2-, ASGM-1+. Depletion in vivo of ASGM-1+ cells before the onset of IL 2 administration eliminated the successful therapy of 3-day pulmonary metastases from nonimmunogenic sarcomas, with concurrent elimination of LAK cell activity in the lungs. In mice with 3-day pulmonary metastases from weakly immunogenic sarcomas, both Lyt-2+ cells and ASGM-1+ cells were involved in IL 2-mediated tumor regression, but Lyt-2+ cells appeared to be the more potent mediator in the response. Lyt-2+ cells were also involved in the elimination of grossly visible 10-day macrometastases from these weakly immunogenic tumors. Depletion of L3T4+ cells had no effect on tumor regression. Thus, although LAK effectors derived from ASGM-1+ precursors can eliminate pulmonary micrometastases regardless of tumor immunogenicity, Lyt-2+ cells are predominant effectors in the elimination of both pulmonary micro- and macrometastases from weakly immunogenic sarcomas.     

Lyt-2+ T cell-mediated protection against listeriosis. Protection correlates with phagocyte depletion but not with IFN-gamma production

The transfer of listeria-immune splenocytes into non-immune mice markedly increases host resistance to listeriosis. To study the mechanism for this enhancement, we compared the inflammatory response to infection in nonimmune and adoptively immunized mice. Despite much better containment of bacterial growth, adoptively immunized animals accumulated significantly fewer phagocytes (neutrophils and macrophages) in the spleen and liver than controls. Immune T cells not only inhibited phagocyte accumulation but also reduced the in vitro anti-listerial activity of splenocytes. Significant differences in phagocyte accumulation were observed even when the initial listeria dose was adjusted to produce comparable spleen listeria loads in immune and non-immune animals. However, bone marrow and peripheral blood phagocyte counts were similar in both groups. Depletion of Lyt-2+ cells (using mAb and C) from donor splenocytes prevented the transfer of protection and increased phagocyte accumulation without altering listeria-dependent IFN-gamma production by donor or recipient splenocytes in vitro. L3T4 depletion did not affect host resistance or phagocyte accumulation even though it reduced in vitro interferon production by donor cells. Hence the different effects of L3T4+ and Lyt-2+ cells in vivo cannot be explained simply by variations in IFN production. We suggest this paradoxical suppression of phagocyte accumulation during adoptive transfer may reflect lysis of bacteria-laden phagocytes by listeria-specific Lyt-2+ cells in vivo. Selective destruction of older, heavily infected cells might contribute to host resistance by eliminating a potential site for intracellular proliferation of bacteria.     

Effects of zinc on cell-mediated immunity in chronic hemodialysis patients

Thirteen healthy subjects and 20 hemodialysis patients were studied to observe the delayed hypersensitivity skin tests (DHSTs) and phytohemagglutinin (PHA)-stimulating lymphocyte blastogenesis. Significant differences were observed between the groups. Controls had a higher proportion of positive skin reaction than hemodialysis patients in relation to Escherichia coli (p<0.01) and tuberculin (PPD) (p<0.05). Regarding lymphocyte blastogenesis stimulated by phytohemagglutinin (PHA), cell proliferation was more accentuated in controls than hemodialysis patients (p<0.05). On the other hand, serum zinc was elevated in controls (78 +/- 8 microg/dL) in comparison to hemodialysis patients (71 +/- 33 microg/dL) (p<0.05). Of the 20 hemodialysis patients, 8 patients were maintained on long-term hemodialysis before and after zinc therapy, with the aim of studying DHST and PHA-stimulating lymphocyte blastogenesis. There was a significant improvement of DHST response to E. coli antigen after 100 d of zinc treatment (p<0.01), and with the discontinuation of therapy, the DHST responses decreased back to the initial values (p<0.05). Zinc administration also increased the lymphocyte proliferation induced by PHA from 31386 +/- 3974 to 42480 +/- 5242 cpm (mean +/- SD) (p<0.05). These results indicated that zinc therapy improved in vivo and in vitro DHST and lymphocyte function of hemodialysis patients and that its discontinuation suppressed all of the benefits observed.     

Antigen-presenting T cells. I. Class I alloantigen (bm1)-bearing T lymphoblasts efficiently stimulate a primary clonal response of Lyt-2+ cytotoxic lymphocyte precursors of B6 origin

The cytotoxic response of splenic Lyt-2+ T cells to class I H-2 alloantigen-bearing stimulator cells was analyzed under limiting dilution conditions. One of 50 to one of 200 nylon wool-nonadherent (FACS-purified), small Lyt-2+ spleen cells of B6 origin gave rise in vitro to a cytotoxic T lymphocyte clone that specifically lysed targets bearing bm1 alloantigen. This population of alloantigen-specific cytotoxic lymphocyte precursors (CLP) was activated by different types of bm1 stimulator cells with different efficiency: 2 X 10(5) nonfractionated spleen cells, 5000 normal peritoneal cells, 400 to 10(4) L3T4+ helper T blasts, or 2000 to 10(4) Lyt-2+ T blasts induced clonal growth of this CLP pool. Irradiated or mitomycin-treated small (L3T4+ or Lyt-2+) bm1-derived T cells were inefficient stimulator cells for this response. Supplementation of culture medium with (recombinant) interleukin 2 was necessary and sufficient to support clonal development of alloantigen-triggered CLP in the presence of allogeneic T blasts. Under these limiting dilution conditions, we observed comparable cloning efficiencies for (wild-type) Kb-allospecific splenic Lyt-2+ CLP from bm1 mice generated in response to either irradiated B6 spleen cells or inactivated B6-derived T cell lines (EL4 and RBL-5 lymphoma cells). The data indicate that normal T lymphoblasts as well as tumor T cell lines stimulate clonal development in vitro of class I H-2-allospecific cytotoxic T lymphocytes in the presence of interleukin 2.     

Regulation of the immune response to tumor antigens. IX. In vitro Lyt-1+2- cell proliferative responses to cellbound or subcellular tumor antigen

We investigated the cellular basis of immune reactivity to the S1509a fibrosarcoma in tumor-immune A/J mice. In a Winn assay, immune Lyt-1+2- T cells are capable of retarding S1509a tumor growth in naive A/J mice. In vitro proliferation to S1509a is also mediated by tumor-immune Lyt-1+2- T cells. This response is specific to the immunizing tumor and appears 5 to 7 days after reexposure to the tumor in vivo. Proliferation also requires the presence of a population of adherent cells. In fact, adherent peritoneal exudate cells pulsed with tumor membrane fragments derived from S1509a cells can stimulate proliferation. Proliferation is blocked by the addition of anti-I-Ak monoclonal antibody to the culture medium without complement or by treatment of the responder population with anti-I-Ak and complement. In vitro responsiveness is also inhibited by the presence of tumor-specific suppressor T cells in vivo. These observations suggest in vitro proliferation may provide a potential means of defining tumor antigens and cell-surface structures involved in tumor immunity.     

Characterization of alloimmunization-induced T lymphocytes reactive against AKR leukemia in vitro and correlation with graft-vs-leukemia activity in vivo

We have reported that immunization of H-2k mice with lymphoid cells from various allogeneic strains induced a population of cells that could eliminate first-passage spontaneous AKR leukemia from the spleens of immuno-suppressed AKR (H-2k) hosts. In the present study, we examined the nature of the cells responsible for this graft-vs-leukemia (GVL) reaction and compared them to cytolytic cells detected in vitro. Spleen cells from alloimmunized CBA/J (H-2k) mice were selectively depleted of various subpopulations by treatment with antibody and complement (C), then tested in vivo for GVL reactivity. Cell suspensions depleted of Thy-1.2+, Lyt-1+, or Lyt-2+ lymphocytes had no significant GVL reactivity, whereas suspensions depleted of NK-1.2+ cells retained GVL reactivity. The GVL-reactive cells persisted in H-2-compatible donor mice for up to 56 days. Lyt-1+2+ lymphocytes that were cytotoxic for cultured AKR leukemia cells in vitro could be detected in the spleens of alloimmunized H-2-compatible mice after expansion of the cells in T cell growth factor. Using quantitative limiting dilution cytotoxicity assays, we found that the frequency of leukemia-reactive cytotoxic lymphocytes (CL) in the spleen showed a direct correlation with the GVL efficacy of the cells in vivo. Alloimmunization was essential for induction of the GVL-reactive cell population. CL in alloimmunized mice consisted of heterogeneous cytotoxic specificities; i.e., some CL were leukemia-specific, others lysed only nonleukemic AKR target cells, and a third group mediated killing of both leukemic and nonleukemic target cells. The CL appeared to be H-2 restricted and specific for non-H-2 antigens shared by the AKR leukemia and the alloimmunizing cells.     

Regulation of immune responses by T cell subsets. Role of helper and suppressor T cells in the development and expression of MHC-restricted antibody responses to L-glutamic acid60-L-alanine30-L-tyrosine10 (GAT) by (responder X responder)F1 spleen cells

The roles of helper and suppressor T cells in the development and expression of antibody responses to GAT were studied in (responder X responder)F1 mice immunized with parental GAT-M phi. Spleen cells from (B10 X B10.D2)F1 mice primed in vivo with B10 or B10.D2 GAT-M phi developed secondary in vitro plaque-forming cell (PFC) responses only when stimulated by GAT-M phi syngeneic with the GAT-M phi used for in vivo priming. By contrast, virgin F1 spleen cells developed comparable primary PFC responses to both parental GAT-M phi Co-culture of T cells from (B10 X B10.D2)F1 mice primed in vivo by B10 GAT-M phi with virgin (B10 X B10.D2)F1 spleen cells demonstrated the presence of suppressor cells that inhibited the primary response of virgin spleen cells stimulated by B10.D2 GAT-M phi. Spleen cells from (B10 X B10.D2)F1 mice primed in vivo with B10.D2 GAT-M phi had suppressor T cells that suppressed primary responses stimulated by B10 GAT-M phi. The suppressor T cell mechanism was composed of at least two regulatory T cell subsets. Suppressor-inducer T cells were Lyt-2-, I-J+ and must be derived from immune spleen cells. Suppressor-effector T cells can be derived from virgin or immune spleens and were Lyt-2+ cells. When the suppressor mechanism was disabled by treatment with 1000 rad gamma irradiation or removal of Lyt-2+ cells, Lyt-2-helper T cells from (B10 X B10.D2)F1 mice primed with B10 GAT-M phi provided radioresistant help to virgin F1 B cells stimulated by B10 but not B10.D2 GAT-M phi. Suppressor inducer Lyt-2-,I-J+ cells from B10 GAT-M phi-primed (B10 X B10.D2)F1 mice were separated from the primed Lyt-2-,I-J-helper T cells. In the presence of Lyt-2+ suppressor effector cells, the Lyt-2-,I-J+ suppressor-inducer suppressed the primary response of virgin spleen or virgin T plus B cells stimulated by both B10 and B10.D2 GAT-M phi. Therefore, suppressor T cells were able to suppress primary but not secondary GAT-specific PFC responses stimulated by either parental GAT-M phi. These results showed that immunization of (responder X responder)F1 mice with parental GAT-M phi results in the development of antigen-specific helper and suppressor T cells. The primed helper T cells were radioresistant and were genetically restricted to interact with GAT in association with the major histocompatibility complex antigens of the M phi used for in vivo priming.(ABSTRACT TRUNCATED AT 400 WORDS)     

Hemorrhage produces abnormalities in lymphocyte function and lymphokine generation

Hemorrhage has been shown to produce abnormalities in lymphocyte function, particularly in the proliferative response to mitogens such as PHA and Con A. In order to better examine the hemorrhage-induced alterations in immune function, we determined the effects of blood loss in mice without any surgical manipulation on lymphocyte populations and subpopulations, cellular activation, and lymphokine production. Hemorrhage induced no changes in cell numbers in the spleen, thymus, lymph nodes, and bone marrow. No alterations in the relative percentages of B (B220+, mu+) and T (Lyt-1+, Lyt-2+, T3+, L3T4+) cell subpopulations were found in any organ after blood loss. Significant decreases in splenocyte proliferation in response to Con A, IL-2R expression and blast formation occurred after hemorrhage. IFN-gamma production increased 24 and 48 h post hemorrhage. Decreases in IL-2, IL-3, and IL-5 generation were present 2 h after blood loss. IL-2 production remained significantly decreased for 48 h posthemorrhage, then increased to more than twice normal levels 72 h posthemorrhage, and subsequently returned to prehemorrhage values. These results demonstrate that hemorrhage produces widespread alterations in immune function without affecting lymphocyte population and subpopulation numbers.     

Distribution of substance P receptors on murine spleen and Peyer's patch T and B cells

Previous studies have demonstrated that the sensory neuropeptide substance P (SP) can modulate immune responses in vitro. Work from this laboratory has shown that SP enhances immunoglobulin synthesis by murine splenic and Peyer's patch lymphocytes stimulated with concanavalin A. One mechanism underlying these effects is the binding of SP to specific receptors on lymphocytes. We examined the distribution of SP receptors on murine T and B lymphocytes and their subsets by one and two color fluorescence-activated cell sorter analysis. The specificity and nature of binding was examined using radiolabeled SP, and competitive inhibition experiments were performed with cold SP. In cytofluorimetry experiments, both T and B lymphocytes from Peyer's patches and spleen were bound to SP, with those from Peyer's patches having a higher proportion than lymphocytes from the spleen. The majority of T cells from both organs bound SP with binding being evenly distributed between Lyt-1+ and Lyt-2+ cells. Similarly, the majority of B lymphocytes from spleen and Peyer's patches showed SP binding. There were no significant isotype-specific differences within any organ. Studies using 125I-labeled SP showed specific binding to all lymphocyte subpopulations examined. SP receptors were fewer in number on cells isolated from spleen than on cells from Peyer's patches although the dissociation constants were similar for all populations examined. These studies demonstrated that SP receptors are present both on murine T and B lymphocytes from Peyer's patches and spleen. There is no evidence for differential SP receptor expression on distinct lymphocyte subsets in spleen or Peyer's patches.     

Expression of murine IL-2 receptor beta-chain on thymic and splenic lymphocyte subpopulations as revealed by the IL-2-induced proliferative response in human IL-2 receptor alpha-chain transgenic mice

Lymphocytes from the human (h) IL-2R alpha chain transgenic mice (TGM) constitutively express high affinity binding sites for hIL-2, consisting of transgenic h-IL-2R alpha and endogenous murine IL-2R beta, and therefore easily proliferate in vitro in response to hIL-2. Our study was undertaken to clarify the hIL-2-responsive lymphocyte subsets in the TGM, which should most likely reflect the normal distribution of m IL-2R beta expression. In both thymus and spleen, the majority of expanded cells by hIL-2 was CD3+CD4-CD8+ TCR alpha beta+ cells. The proliferation of CD4+ cells was not observed at all from either organ despite the expression of transgenic hIL-2R alpha. Potent cellular proliferation was also observed from the thymocytes that had been depleted of CD8+ cells, the expanded cells consisting of CD3- (15-40%) and CD3+ populations (60-85%). Among CD3+ cells, approximately the half portion expressed TCR alpha beta, whereas the other half was suggested to express TCR gamma delta. A variable portion (5-20%) of the CD3+ cells expressed CD8 (Lyt-2) in the absence of Lyt-3, and the CD3+CD8+ cells were confined preferentially to the TCR alpha beta- (TCR gamma delta+) population. In the culture of splenocytes depleted of CD8+ cells, however, the proliferated cells were mostly CD3-CD4-CD8-TCR-Mac1-, whereas a minor portion (10-30%) was CD3+CD4-CD8-TCR alpha beta- (TCR gamma delta+. Analysis of TCR genes at both DNA and mRNA levels confirmed the phenotypical observations. These results strongly suggested that IL-2R beta was constitutively and selectively expressed on the primary murine thymocytes and splenic T and NK cells, except for CD4+ cells in both organs.     

Differences in in vivo distribution and homing of T cell subsets to mucosal vs nonmucosal lymphoid organs

The migratory properties of Lyt-2- and Lyt-2+ T cells in the mouse have been investigated. In short-term in vivo homing studies, Lyt-2- T cells localized consistently more efficiently than Lyt-2+ T cells in Peyer's patches (about 1.5 times as well), whereas both populations localized roughly equivalently in peripheral lymph nodes. These homing characteristics of Lyt-2- and Lyt-2+ subsets are largely independent of their organ source. The specificity of migration appears to be determined by selective recognition of organ-specific determinants on the endothelial cells of high endothelial venules (HEV), specialized venules that mediate the exit of migrating lymphocytes from the blood: In an in vitro assay of lymphocyte binding to HEV in lymphoid organ frozen sections, Lyt-2- cells constituted a significantly and consistently greater proportion of T cells binding to Peyer's patch HEV than of those binding to peripheral node HEV. The homing and HEV recognition preferences of the Lyt subsets are reflected in differences in their in situ representation in mucosal vs nonmucosal lymphoid organs, which suggests that the selective migration of these populations may be an important factor in determining the character of local immune responses.     

Idiotype-specific T lymphocytes responsible for the selection of somatic variants of a B cell hybrid

A B cell hybrid (2C3E1), which when cultivated in vitro stably expresses a serologically defined private idiotype on the cell surface, undergoes a somatic variation which culminates in the generation of idiotype-negative variants when propagated as a tumor in syngeneic BALB/c mice. Lyt-1+ and Lyt-2- BALB/c T cells derived from appropriately primed spleen cells when co-cultured with 2C3E1 tumor cells in vitro are responsible for the generation or selection of the idiotype-negative tumor variants. The idiotype-specific effector T cells responsible for the variant production in vitro and in vivo are triggered either by viable or irradiated 2C3E1 tumor cells, but not by soluble idiotype-positive monoclonal antibody secreted by the tumor. The idiotype-positive antibody did stimulate the production of the effector T cells when the soluble protein was covalently linked to the plasma membrane of BALB/c spleen cells, but not when the idiotype-positive protein was presented on allogeneic C57BL/6 spleen cells. A single exposure of spleen cells to 2C3E1 cells in vivo was sufficient to prime the idiotype-specific T cells, but the frequency and reproducibility of variant selection increased when the in vivo primed effector T cells were restimulated by irradiated 2C3E1 cells in vitro prior to co-cultivation with the wild-type 2C3E1 cells. The initial variant B cell lines could be segregated into several different phenotypes. However, after extensive cultivation either in vitro or after repeated transfer in vivo, all of the variant cell lines acquired a single stable phenotype that was characterized by the loss of both the surface and secreted idiotype marker and antigen-binding activity associated with the wild-type 2C3E1 cells.     

自主神经系统参与低氧下的免疫调节作用

目的：探讨低氧条件下自主祖辈 经系统对大鼠脾淋巴细胞转化的调节作用。方法：检测减压低氧下外周血中神经递质与脾淋巴细胞转化。结果：大鼠5km低氧暴露24h,脾淋巴细胞对丝裂原反应性下降,外周交感神经损毁后则可阻断低氧对此的抑制作用;小鼠于真空瓶中0.07MPa缺氧10min血浆中去甲肾上腺素（NE）与肾上腺素（E）均明显升高;大鼠5km低氧24h,血浆中乙酰胆碱水平下降;体外培养的大鼠脾淋邓细胞中加入不同浓度的乙酰胆碱,胸腺嘧啶核苷掺入作用呈浓度依赖性增加。结论：以上结果提示自主神经系统参与低氧下的免疫调节,交感神经系统有免疫抑制作用,副交感神经起免疫增强作用。