Microbiology & Immunology - Research Publications
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ItemCYTOTOXIC THYMUS-DERIVED LYMPHOCYTES IN CEREBROSPINAL-FLUID OF MICE WITH LYMPHOCYTIC CHORIOMENINGITIS(ROCKEFELLER UNIV PRESS, 1973)
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ItemH-2 COMPATIBILITY IS REQUIRED FOR T-CELL-MEDIATED LYSIS OF TARGET-CELLS INFECTED WITH LYMPHOCYTIC CHORIOMENINGITIS VIRUS(ROCKEFELLER UNIV PRESS, 1975)Maximal cell-mediated lysis of targets infected with lymphocytic choriomeningitis virus occurs only within a H-2 compatible system. Syngeneic immune spleen cells are at least 100 times as effective as are allogeneic lymphocytes. Reciprocal restriction of cytotoxic T-cell activity has been shown to operative between H-2k, H-2d, and H-2b. Experiments with cogenic mice have localized the effect to the H-2 gene complex. Furthermore, the observation that lymphocytes from H-2a mice cause high specific 51Cr release from either H-2d virus-infected cells, indicates that identity at either the K or the D end of the H-2 gene complex is sufficient for this lytic interaction.
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ItemCONTROL OF SPECIFICITY OF CYTOTOXIC T LYMPHOCYTES BY MAJOR HISTOCOMPATIBILITY COMPLEX (AG-B) IN RATS AND IDENTIFICATION OF A NEW ALLOANTIGEN SYSTEM SHOWING NO AG-B RESTRICTION(ROCKEFELLER UNIV PRESS, 1977)The regulatory influence of the rat major histocompatibility complex (MHC) (Ag-B complex) on the specificity of cytotoxic T lymphocytes was investigated. It was shown that the effector cells were specific for the original Ag-B phenotype in rat systems in which the responder and stimulator cell populations were unquestionably MHC identical but expressed different minor alloantigens of viral antigens. However, combined in vivo immunization and restimulation in culture of lymphocytes from rat strains previously thought to be MHC compatible resulted in the generation of cytotoxic T lymphocytes which effectively lyse not only target cells from the specific stimulating strains but also, to varying degrees, target cells from third party strains regardless of their Ag-B haplotypes. Genetic analysis indicates that expression of these cytotoxic T-cell-defined ("CT") antigens, found on both T and B lymphocytes, detectable thus far only with cytotoxic lymphocytes, is controlled by a single locus which segregates in backcross populations with the rat MHC. Discrepancies between the nature of CT antigens of the rat Ag-B and I-region specificities of the mouse H-2 are discussed.
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ItemH-2 COMPATIBILITY REQUIREMENT FOR VIRUS-SPECIFIC T-CELL-MEDIATED CYTOLYSIS - EVALUATION OF ROLE OF H-2I REGION AND NON-H-2 GENES IN REGULATING IMMUNE-RESPONSE(ROCKEFELLER UNIV PRESS, 1976)Lymphocytic choriomeningitis virus (LCMV) and ectromelia virus-specific T-cell-mediated cytotoxicity was assayed in various strain combinations using as targets peritoneal macrophages which have been shown to express Ia antigens. Virus-specific cytotoxicity was found only in H-2K- or D-region compatible combinations. I-region compatibility was not necessary nor alone sufficient for lysis. Six different I-region specificities had no obvious effect on the capacity to generate in vivo specific cytotoxicity (expressed in vitro) associated with Dd. Low LCMV-specific cytotoxic activity generated in DBA/2 mice was caused by the non-H-2 genetic background. This trait was inversely related to the infectious virus dose and recessive. Non-H-2 genes, possibly involved in controlling initial spread and multiplication of virus, seem to be, at least in the examples tested, more important in determining virus-specific cytotoxic T-cell activity in spleens than are Ir genes coded in H-2.
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ItemINDUCTION OF VIRUS-SPECIFIC MODIFICATIONS RECOGNIZED BY CYTOTOXIC T CELLS IS NOT ALTERED BY PRIOR SUBSTITUTION OF TARGET-CELLS WITH TRINITROPHENOL(ROCKEFELLER UNIV PRESS, 1977)Cytotoxic thymus-derived lymphocytes generated after interaction with trinitrophenyl (TNP)-substituted or virus-infected cells only lyse H-2 compatible target cells modified with the component used to immunize (TNP or virus). Prior saturation of TNP-reactive sites inhibits neither the infectivity of influenza A viruses, nor the capacity of infected cells to develop antigenic changes recognized by influenza-immune T cells. The two antigens are distinct entities on the cell membrane and do not obviously compete to form interactions with H-2 molecules.
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ItemINVOLVEMENT OF H-2L GENE PRODUCTS IN VIRUS-IMMUNE T-CELL RECOGNITION - EVIDENCE FOR AN H-2L-RESTRICTED T-CELL RESPONSE(ROCKEFELLER UNIV PRESS, 1978)The H-2L locus is closely linked to H-2D and codes for antigenic specificities present on a 45,000 mol wt glycoprotein that is distinct from the molecule which bears the D region private specificity. It was found that BALB/c-H-2db mice, which lack detectable cell-surface H-2L gene products, were able to generate influenza- and vaccinia-immune cytotoxic T cells which lyse D region-compatible target cells, although they have been reported to be incapable of making a similar response to ectromelia virus (7). Thus, the lack of H-2L antigenic specificities does not produce a general loss of responsiveness for other viruses even when a highly cross-reactive pox virus (vaccinia) was studied. Antisera-blocking experiments utilizing sera specific for either L or D molecules indicated that BALB/c mice generate influenza virus-immune cytotoxic T-cell subsets which independently recognize H-2L and H-2D gene products in association with viral antigens. These results are the first indication that products of the H-2L locus can operate analogously to H-2K/D gene products in virus-immune T-cell recognition.
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ItemCYTOTOXIC T-CELL RESPONSES IN MICE INFECTED WITH INFLUENZA AND VACCINIA VIRUSES VARY IN MAGNITUDE WITH H-2 GENOTYPE(ROCKEFELLER UNIV PRESS, 1978)Secondary effector T-cell populations generated by cross-priming with heterologous influenza A viruses operate only in H-2K or H-2D compatible situations, when assayed on SV40-transformed target cells infected with a range of influenza A viruses. The H2-Kb allele is associated with a total failure in the generation of influenza-immune cytotoxic T cells, though this is not seen for the primary response to vaccinia virus. In both influenza and vaccinia development of effector T cells operating at H-2Db is greatly depressed in B10.A(2R) (kkkddb) and B10.A(4R) (kkbbbb), but not in B10 (bbbbbb), mice. However, there is no defect in viral antigen expression at either H-2Kk or H-2Db in B10.A(2R) target cells. This apparently reflects some inadequacy in the stimulator environment, as (A/J X B6) F1 T cells can be induced to respond at H-2Db when exposed to vaccinia virus in an irradiated B6 but not in a B10.A(4R) recipient. The present report, together with the accompanying paper by Zinkernagel and colleagues, records the first rigorous demonstration of both a nonresponder situation and a probable Ir-gene effect for conventional infectious viruses. Possible implications for the evolution of H-2 polymorphism and mechanisms of Ir gene function are discussed.
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ItemH-2 COMPATIBILITY REQUIREMENT FOR T-CELL-MEDIATED LYSIS OF TARGET-CELLS INFECTED WITH LYMPHOCYTIC CHORIOMENINGITIS VIRUS - DIFFERENT CYTOTOXIC T-CELL SPECIFICITIES ARE ASSOCIATED WITH STRUCTURES CODED FOR IN H-2K OR H-2D(ROCKEFELLER UNIV PRESS, 1975)Use of syngeneic, allogeneic, F1, AND H-2 recombinatn mice has shown that animals injected with lymphocytic choriomeningitis (LCM) virus generate T cells which are cytotoxic for H-2K or H-2D compatible, but not H-2 different, virus-infected target cells. Three separate lines of evidence are presented which indicate that these immune T cells are sensitized to "altered-self," the self antigens involved being coded for in the H-2K or H-2d regions. Firstly, cytotoxic activity associated with mutuality at H-2D iy, lysis mediated by immune T cells from F1 or H-2 recombinant mice is specifically inhibited only by presence of unlabeled, virus-infected cells that are H-2 compatible with the targets. Thirdly, LCM-immune F1 and H-2 recombinant T cells inoculated into irradiated, virus-infected recipients proliferate only to kill target cells that are H-2 compatible with both the donor and the recipient. All of these experiments establish that there is a dissociation of T-cell activities between parental haplotypes in F1 mice, and between H-2K and H-2D in recombinants. It would thus seem that there are at least two specificities of tlcm-immune T cells in homozygotes, associated with either H-2K or H-2D, and four specificities in F1 hybrids. The significance of these findings, with respect both to gene duplication and to the marked polymorphism in the H-2 system, is discussed.
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ItemSUPPRESSION OF CELL-MEDIATED-IMMUNITY BY STREET RABIES VIRUS(ROCKEFELLER UNIV PRESS, 1977)Mice lethally infected with street rabies virus failed to develop cytotoxic T cells specific for rabies virus-infected target cells, whereas high levels of cell-mediated cytotoxicity (CMC) were generated after nonfatal infection with the attenuated high egg passage (HEP) or ERA rabies virus strains. Furthermore concurrent infection with street, but not with HEP, rabies virus suppresses development of a primary (but not a secondary) CMC response specific for influenza virus. No cross-reactivity is found between effector T-cell populations from mice immunized with HEP or with influenza virus. It thus appears that street rabies virus, which is not known to replicate in the cells of immune system, induces some general defect in the primary CMC lymphocyte response, though restimulation of memory T-cell populations is unimpaired and there is no defect in antibody formation. Development of fatal rabies may reflect the operation of this selective immunosuppressive mechanism.
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ItemANTIBODY TO INFLUENZA-VIRUS MATRIX PROTEIN DETECTS A COMMON ANTIGEN ON SURFACE OF CELLS INFECTED WITH TYPE-A INFLUENZA-VIRUSES(ROCKEFELLER UNIV PRESS, 1977)Antisera to the type-specific internal influenza virus matrix (M) protein of a type A influenza virus were produced in goats. In the presence of complement, anti-M serum was cytotoxic for target cells which were infected with a variety of serologically distinct type A influenza viruses, but did not react with type B influenza virus-infected cells. Absorption experiments indicated that anti-M serum detected a common antigen(s) on the surface of type A-infected cells. This serological cross-reactivity parallels the cross-reactivity observed for the cytotoxic T-cell response to type A viruses.