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1.
Mouse myelin basic protein (mBP)-specific T cell clones were generated from lines established from SJL/J mice immunized with mBP in complete Freund's adjuvant. These clones proliferated specifically to mBP and were propagated weekly with the same antigen for up to 8 mo. It is of particular interest that four of these phenotypic T helper clones were able to induce several T cell functions, including that of antibody production. These mBP-reactive T cell clones induced inflammatory infiltrations of the white matter of the central nervous system when transferred i.v. to irradiated (350 R) syngeneic naive recipients in concentrations as low as 0.5 X 10(6) cells/mouse. Lesions characteristic of experimental allergic encephalomyelitis (EAE) were observed as early as 5 days after transfer in the absence of clinical paralysis. Encephalitogenic clones, when added in vitro to a population of mBP-primed B cells in the presence of antigen, induced the production of anti-mBP antibodies determined by ELISA. In addition, the same clones, when transferred i.v., were found to mediate in vivo helper activity by inducing serum anti-mBP antibodies in the recipients. This response was delayed until 20 days after transfer and was abrogated by irradiation of the clones before injection. Finally, these mBP-specific specific clones were capable of mediating a specific delayed-type hypersensitivity (DTH) response. Although all four clones generated displayed the Thy-1.2+, L3T4+, Lyt-2- phenotype and proliferated specifically to mBP, only three were able to induce EAE, transfer DTH, and mediate helper activity.  相似文献   

2.
Autoimmune T lymphocyte lines have been established from unprimed normal rat lymph node cell populations. In a first, negative-selection round, spontaneously proliferating (SMLR) T cells were eliminated by a pulse of BUdR followed by short wave light irradiation. In a second, positive-selection round, the SMLR-depleted populations were confronted with MBP presented by syngeneic spleen adherent cells. Reactive T cells were propagated until stable, permanent T lines were established. All lines were exclusively specific for the selecting antigen, MBP, and were restricted in recognition by determinants of the own MHC. All lines expressed the differentiation marker W3/25, but not OX8. Line vLe, which was derived from Lewis (LEW) rat lymphocytes, and which recognized the encephalitogenic sequence 48-88 of MBP, was extremely efficient in mediating EAE to normal untreated LEW rats. Doses of 1 X 10(6) and greater transferred lethal EAE, whereas transient although definite disease was caused by a minimum of 1 X 10(4) cells. Rats recovering from disease were resistant against subsequent active induction of EAE. In contrast, BN rat-derived line vBN was completely incapable of transferring EAE to syngeneic rats. This lack of encephalitogenicity was a property of the T line, because vLe cells transferred severe EAE to (LEW X BN)F1 hybrid rats, whereas none of hybrid rats injected with vBN cells showed any sign of disease. The data provide strong evidence in favor of the presence of potentially autoaggressive T clones in the normal immune system, and they might suggest that the actual proportion of these clones within the natural T cell repertoire is genetically determined.  相似文献   

3.
After immunization of B6 mice with the syngeneic retrovirus-induced T cell leukemia/lymphoma FBL-3, two major tumor-specific proliferative T cell clonotypes were derived. T cell clones derived from long-term lines propagated by in vitro culture with irradiated tumor cells and syngeneic spleen cells were exclusively of the Lyt-2+ phenotype. Such clones were cytolytic, retained their proliferative phenotype indefinitely when expanded by repeated cycles of reactivation and rest, and recognized a tumor-specific cell surface antigen in association with class I MHC molecules. This tumor cell antigen was not present on nontransformed virus-infected cells. Class II MHC-restricted MT4+ clones specific for the viral antigen gp70 were derived from lymph node T cells of FBL-3 tumor-immune mice only by in vitro culture with purified Friend virus in the presence of syngeneic splenic APC. Once derived, however, such clones could be stimulated in the presence of FBL-3 tumor cells and syngeneic spleen cells, demonstrating the reprocessing of tumor-derived gp70 antigen by APC in the spleen cell population. In contrast, no reprocessing of the tumor cell surface antigen by splenic APC for presentation to the class I MHC-restricted T cell clones could be demonstrated. Evidence is presented that FBL-3 T leukemia/lymphoma cells function as APC for Lyt-2+ class I MHC-restricted clones, and that no concomitant recognition of Ia molecules is required to activate these clones. Both Lyt-2+ and MT4+ clones were induced to proliferate in the presence of exogenous IL2 alone, but this stimulus failed to result in significant release of immune interferon. In contrast, antigen stimulation of both clones resulted in proliferation as well as significant immune interferon release. Immune interferon production is not required for the generation of MHC-restricted cell-mediated cytolytic function.  相似文献   

4.
Acute and chronic graft-vs-host disease (GVHD) due to non-MHC histocompatibility differences differ histopathologically. Acute GVHD is characterized by the cytotoxic destruction of recipient tissues, whereas chronic GVHD is characterized by increased collagen deposition. In an attempt to determine if acute and chronic GVHD represent two phases of the same pathophysiologic process or two distinct processes, the T lymphocytes from the C57BL/6 (B6) recipients of LP spleen cells (non-H-2 GVHD) have been cloned and compared to clones from immune mice (LP anti-B6). Acute GVHD (G) clones were established on day 10-14 posttransplant and chronic GVHD (CG) clones on day 50 from animals with clinical chronic GVHD. Immune (I) clones were established 10 to 14 days after immunization. All I clones exhibited B6-specific blastogenesis and cytotoxicity and had a Thy-1.2+, Lyt-2.2+, L3T4- phenotype. All CG clones were noncytotoxic, had I-Ab-specific blastogenesis, and had a Thy-1.2+, Lyt-2.2-, L3T4+ phenotype. The acute GVHD (G) clones were heterogeneous. Fourteen of 23 clones exhibited B6-specific blastogenesis and had a Lyt-2.2+, L3T4- phenotype (B6-G clones). Seven of 9 B6-G clones were cytotoxic for B6 targets. Nine of 23 G clones exhibited I-Ab-specific blastogenesis, and all but one clone had a Lyt-2.2-, L3T4+ phenotype as the did CG clones. Thus, the principal clonogenic T lymphocytes from mice with acute and chronic GVHD differ in terms of 1) their antigenic specificity, 2) their cytotoxic capacity, and 3) their surface phenotype. The presence of I-Ab-specific T lymphocytes with a phenotype identical to CG clones early after transplantation suggests that the immunologic events that result in chronic GVHD begin soon after transplantation. These results indicate that acute GVHD is due primarily to recipient-specific cytotoxic donor T lymphocytes, whereas chronic GVHD is due to autoreactive helper T lymphocytes.  相似文献   

5.
Antigen-specific immune T lymphocytes of male C57BL/6 mice were enriched in vitro on monolayers of antigen-pulsed syngeneic macrophages. The cells were treated in vitro with RadLV and inoculated intrathymically into irradiated female C56BL/6 animals. Thymomas arising in the inoculated recipients were characterized as donor- (male) type according to their karyotype. In vivo and in vitro cell lines were established from the primary lymphomas, two of which (designated ROT/6.1 and ROT/6.2) were capable of providing antigen- (carrier) specific help in normal or preimmunized mice. None of the lymphomas could induce antigen-specific DTH reaction. Five months after their establishment, ROT/6.2 alone retained its carrier specificity. ROT/6.2 consisted mainly of Lyt-1+ cells, whereas the ROT/6.1 population was more heterogeneous and contained Lyt-1+, Lyt-2+, and Lyt-3+ cells. The carrier specificity of the latter may have been lost due to selection against the specific helper cells during prolonged passages.  相似文献   

6.
Lines of thymus-derived lymphocytes reactive against bovine myelin basic protein (BP) were established in vitro from SJL/J mice. These lines are stable in long-term culture and mediate inflammatory central nervous system (CNS) lesions and a low incidence of clinical experimental allergic encephalomyelitis (EAE) when injected into recipient SJL/J mice. The line cells proliferate in response to BP of bovine, rat, or mouse origin. Clones were derived from these lines, and the characteristics of these clones were analyzed. The clones express Thy-1, Ly-1, and L3T4 antigens and are negative for Ly-T2. The clones all proliferate in response to bovine BP, with different clones showing varying degrees of cross-reactivity between bovine, rat, and mouse BP. The proliferative response is MHC-restricted; antigen-presenting cells from I-As strains are required. Compatible with their phenotype as helper cells, some of the clones will provide help to primed B cells stimulating antibody production in an in vitro assay. When injected into recipients pretreated with pertussis and irradiation, clones that showed proliferation to mouse BP induced the development of inflammatory lesions in the CNS, with mortality of 28% of the recipients. T cell lines were also established in (BALB/c x SJL/J)F1 mice. In contrast to the homozygous SJL/J lines, these lines were highly encephalitogenic, inducing a high incidence of clinical and histologic EAE when injected in vivo.  相似文献   

7.
To analyze immunopathologic events within the central nervous system (CNS) during various stages of actively induced chronic relapsing EAE in SJL/J mice, animals were sampled at various timepoints post inoculation (PI) and T cells, T-cell subsets, Ia+ cells and Ig+ cells, albumin, and Ig deposits were localized in frozen sections by immunocytochemical techniques. Furthermore, sections were stained for the demonstration of Ia antigen, myelin basic protein (MBP), and galactocerebroside (GC) on endothelial cells and astrocytes. During the acute phase of the disease, large numbers of all types of inflammatory cells studied (Lyt-1.2+, L3T4+, Lyt-2+, Ia+, Ig+) were randomly distributed throughout lesions, a finding similar to that described previously for acute EAE. A more distinct distribution pattern of infiltrating T cells was found during active chronic disease in that L3T4+ cells predominated within the CNS parenchyma, while Lyt-2+ cells were more numerous in meningeal and perivascular areas. During all chronic stages, a low-grade diffuse infiltration of the neuraxis by hematogenous cells was present. Ia and myelin antigens were detectable on some endothelial cells and astrocytes. Damage to the blood-brain barrier, as indicated by albumin and Ig deposits, was more extensive during the acute than during chronic stages of the disease. Taken in concert, the results further support the possibility of local antigen presentation on endothelial and astroglial cells and an essential involvement of helper (L3T4+) T cells in CNS lesion formation. These findings correlate well with events reported previously in acute and chronic multiple sclerosis lesions.  相似文献   

8.
Lyt-1 cells mediate acute murine experimental allergic encephalomyelitis   总被引:3,自引:0,他引:3  
Adult SJL/J mice were depleted of T lymphocytes and were reconstituted with Lyt-1, Lyt-2, or Lyt-1 + Lyt-2 cells. After immunization with MSCH, severe acute EAE developed in the Lyt-1- and the Lyt-1 + Lyt-2-reconstituted mice. Only 25% of the Lyt-2-reconstituted mice developed signs of EAE, and in those EAE onset was delayed. Thus, Lyt-1 cells mediate EAE in the mouse.  相似文献   

9.
Experimental allergic encephalomyelitis (EAE) is an animal model of T cell-mediated, central nervous system neuropathology that may be a relevant animal model for multiple sclerosis. EAE is usually induced by sensitization of animals with a xenogeneic myelin basic protein (MBP). Recently, MBP-reactive T cell lines and clones derived from lymphoid tissue of animals with EAE have proved very useful in elucidating certain aspects of the pathogenesis in EAE. However, questions relating to how T cells actually mediate the pathologic changes seen in EAE remain unresolved. We now report for the first time the derivation of long-term, interleukin 2-dependent T cell lines and sublines from a site of pathology in murine EAE--the spinal cord. All of the spinal cord-derived T cell lines and sublines were found to be "autoreactive" in that they responded to self (murine) MBP as well as to the xenogeneic immunogen, porcine MBP. The ability to derive T cell lines and sublines from the spinal cords of mice with EAE should now aid in the elucidation of pathogenetic mechanisms in EAE by allowing for a characterization of those T cells found at the site of pathology.  相似文献   

10.
Murine T cell lines responsive to the protozoan parasite Trypanosoma cruzi were generated in vitro by stimulating hyperimmune C57BL/6 lymphoid cells with trypomastigote stage antigen. A spleen-derived line designated ST1 and eight clones derived from ST1 were characterized. All lines bear the surface phenotype Thy-1.2+, Ly-1.2+, 2.2- and respond to T. cruzi antigen only in the presence of antigen-presenting cells matched at the I-A subregion of the H2 locus. Clonal specificity analyses indicated that these T. cruzi-selected T cells are species specific and recognize antigenic determinants that are expressed predominantly in the trypomastigote stage. On the basis of their distinct patterns of response to a panel of different T. cruzi strains, clones recognizing strain-specific, shared, or common determinants were identified. Functional studies indicated that ST1 and some but not all of the clones are capable of expressing antigen-specific T helper function in vitro and in vivo. In addition, co-incubation of T. cruzi-specific T cells with cultured T. cruzi-infected syngeneic macrophages led to the dose-dependent destruction of intracellular parasites. Most notably, ST1 and several of the cloned T. cruzi-specific T cell lines were able to passively protect syngeneic recipients from lethal T. cruzi challenge infection. Efforts to identify the parasite antigens recognized by these T cell lines, particularly the protective clones, are currently in progress.  相似文献   

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