Specificity of virus-immune effector T cells for H-2K or H-2D compatible interactions: implications for H-antigen diversity

Live Imaging of Influenza Infection of the Trachea Reveals Dynamic Regulation of CD8+ T Cell Motility by Antigen

During a primary influenza infection, cytotoxic CD8+ T cells need to infiltrate the infected airways and engage virus-infected epithelial cells. The factors that regulate T cell motility in the infected airway tissue are not well known. To more precisely study T cell infiltration of the airways, we developed an experimental model system using the trachea as a site where live imaging can be performed. CD8+ T cell motility was dynamic with marked changes in motility on different days of the infection. In particular, significant changes in average cell velocity and confinement were evident on days 8–10 during which the T cells abruptly but transiently increase velocity on day 9. Experiments to distinguish whether infection itself or antigen affect motility revealed that it is antigen, not active infection per se that likely affects these changes as blockade of peptide/MHC resulted in increased velocity. These observations demonstrate that influenza tracheitis provides a robust experimental foundation to study molecular regulation of T cell motility during acute virus infection.

Influenza virus infects the cells that line the trachea and lung airways. Virus-specific cytotoxic (cell killing) T cells are the first line of adaptive immunity responsible for elimination of infected cells. We studied the cell movement, or motility, of these T cells responding to infection in the mouse trachea. Multiphoton live imaging was used to observe the cells in real time in intact tissue and measure their movement both quantitatively and qualitatively. The behavior of the CD8+ T cells responding to influenza infection was highly variable depending on the day after infection the imaging was performed. The most dramatic changes occurred after infectious virus was eliminated from the tissue, triggering a substantial shift in cell motility between days 8 and 9. Blocking peptide/MHC complexes with antibodies reversed cell arrest, increased velocities, and reduced confinement, similar to the changes observed from days 8 to 9. This suggested antigen-presentation persists after virus clearance with continued T cell engagement, and that T cell motility in the infected tissue is dynamically regulated by the infection and the presence of antigen-bearing cells in particular. In addition, these studies establish the trachea as a suitable site for live imaging of immune responses to virus infection.

Host-determined T cell fine specificity for self-H-2 in radiation bone-marrow chimeras of standard C57BL/6 (H-2(b)) mutantHz1 (H-2 (ba)), and F (1) mice

Reciprocal radiation bone-marrow chimeras were produced between the standard C57BL/6 (=B6) and the mutant B6.C-H-2 ( ba ) (=Hz1) strain. When infected with vaccinia virus, these chimeras, as well as an (Hz1 × B6)=→ Hz1 chimera, produced cytotoxic cells that killed vaccinia-infected H-2K(k)H-2D(b) target cells but failed to kill virus-infected H-2K(b)H-2D(d) cells. Virus-infected (Hz1 × B6)F(1) → B6 chimeras, however, killed both types of target. These experiments demonstrate strict T-cell specificity capable of differentiating between two molecules that apparently differ by a single amino acid substitution.

Anti H-2Dd alloreactivity mediated by herpes-simplex-virus specific cytotoxic H-2k T lymphocytes is associated with H-2Dk

Herpes-simplex-virus (HSV) specific, H-2k-restricted, immune cytotoxic T lymphocytes also lyse noninfected H-2d target cells. Genetic mapping studies revealed that HSV-specific Dk-restricted CTL cross-react with allogeneic targets expressing Dd alloantigens. Cold target inhibition experiments indicate that only a minority of HSV-specific CTL mediate cross-reactive cytolysis. The data give an example of where the phenomenon of H-2-restricted versus nonrestricted responsiveness is not due to distinct subsets of T cells but solely depends on the antigenic determinants recognized.

A new cytotoxic lymphocyte-defined antigen coded by a gene closely linked to the H-3 locus

F1 complementation results indicate that a new gene, putatively controlling a minor histocompatibility antigen, is closely linked to the minor histocompatibility gene, H-3, in the fifth linkage group of chromosome 2 of the mouse. This gene controls a product that was capable of inducing as well as acting as a target for cytotoxic lymphocytes (CTL). The lytic activity of CTL developed in B10.LP-H-3D mice specific for the product of the new gene of B10 was restricted to target cells possessing H-2Db antigens. This contrasts to the H-2Kb-restricted activity of H-3.1 specific CTL.

Antiviral Cytotoxic Activity Across a Species Barrier in Mixed Xenogeneic Chimeras: Functional Restriction to Host MHC

Reconstitution of lethally irradiated mice with a mixture of mouse and rat bone marrow cells (mouse + rat→mouse) results in mixed xenogeneic chimerism and donor-specific tolerance. The current study demonstrates that mouse and rat T lymphocytes that have developed in xenogeneic chimeras are restricted to Ag presentation by mouse, but not rat, APC. Restriction to host Ags results in functional immunocompetence with generation of antiviral cytotoxic activity in vivo, within and across species barriers. These data demonstrate for the first time that the host thymus is sufficient to support development and positive selection of functional cross-species T lymphocytes. The superior immunocompetence, as compared with fully xenogeneic (rat→mouse) chimeras, may prove to be of significant benefit in the clinical application of xenotransplantation to solid organ transplantation and immune reconstitution for AIDS.

Specific cytotoxic T lymphocytes are involved in in vivo clearance of infectious bronchitis virus

Cytotoxic T-lymphocyte (CTL) responses to infectious bronchitis virus (IBV) were determined at regular intervals between 3 and 30 days postinfection (p.i.). The maximum response with 82% lysis of labeled target cells was detected at 10 days p.i. The specific CTL response did not begin to decline until the amount of virus, which peaked at day 8 p.i. in both the kidneys and lungs, started to decrease. Clinical respiratory signs of illness also correlated with amount of virus. CTL activity was shown to be major histocompatibility complex (MHC) class restricted because the lysis of MHC-mismatched targets was negligible, and lysis was mediated by CD8+ CD4- T cells, as the CTL response could be abolished with removal of CD8+ CD4- but not CD4+ CD8- lymphocytes. In contrast, immunoglobulin M (IgM) antibody was not detected until day 10 p.i., and levels peaked at day 12 p.i.; IgG antibody levels were minimal until day 15 p.i. but continued to increase exponentially until day 30 p.i., the last day examined. In summary, CTL responses correlated with initial decreases in infection and illness.

Affinity maturation of lymphocyte receptors and positive selection of T cells in the thymus

In this review we have re-evaluated the dominant paradigm that TcR V genes do not somatically mutate. We highlight the many structural and functional similarities between Ig and TcR antigen-specific receptors on B and T cells. We have reviewed the factors influencing the somatic and germline evolution of IgV regions in B cells, have evaluated in detail various models which could be invoked to explain the pattern of variation in both transcribed and non-transcribed segments of germline IgV-gene DNA sequences, and applied this perspective to the TcR V beta and V alpha genes. Whilst specific TcRs recognize a complex of a short antigenic peptide bound to MHC Class I or II glycoprotein, and Ig receptors can recognize both oligopeptides and conformational determinants on undegraded polypeptides, they both employ heterodimer variable regions (Fabs) utilizing all three CDRs in epitope binding. We conclude that a plausible case can be made for the possibility that rearranged TcR V genes may undergo some type of somatic hypermutation process during T-cell development in the thymus (concurrent with or after the positive selection phase) thus allowing a repertoire of TvR alpha beta heterodimers to be both positively and negatively selected by the same set of ligands (self MHC + self peptide) in the thymus.

Clinical and experimental aspects of viral myocarditis

Picornaviruses are frequently implicated as the etiological agents of acute myocarditis. This association is based historically on serological evidence of rising antibody titers to specific pathogens and more recently on identification of viral genomic material in endocardial biopsy specimens through in situ hybridization. Only rarely is infectious virus isolated from either the patient or the heart during periods of maximum myocardial inflammation and injury. Thus, despite a probable viral etiology, much interest centers on the role of the immune system in cardiac damage and the likelihood that the infection triggers an autoimmune response to heart-specific antigens. Heart-reactive antibodies and T cells are found in most myocarditis patients, and immunosuppressive therapy has proven beneficial in many, though not all, cases. Furthermore, murine models of coxsackievirus group B type 3-induced myocarditis also demonstrate that virus infection initiates autoimmunity and that these autoimmune effectors are predominately responsible for tissue injury. How virus-host interactions overcome presumed self-tolerance to heart antigens is discussed, and evidence supporting various theories of virus-initiated autoimmunity and disease pathogenesis are delineated.

The HLA system: structure and function

The HLA system is the major histocompatibility system of man and was found through a search for blood group-like determinants on white blood cells that would be effective in matching for transplantation. The HLA system has its counterparts in other species of mammals, birds, and reptiles including the much studied H2 system of the mouse. The HLA system started from a series of antigens defined by a combination of relatively crude serology and genetics, supported by extensive statistical analysis. It has turned out to be a complex genetic region determining two major sets of cell surface products which mediate essential functional interactions between cells of the immune system, and so have a major role in the control of the immune response. Polymorphism in the HLA region is thus associated with a wide variety of diseases with an immune aetiology.

Analysis of the D-region products of H-2q using monoclonal antibodies reveals the expression of a new class I-like molecule

To analyze how many D-region-encoded molecules could be detected in H-2q, we produced a panel of nine monoclonal antibodies from AKR (KkDk) anti-AKR.M (KkDq) immunizations. All of the Dq region antibodies cross-reacted on Dd and/or Ld, and all except one cross-reacted on Db, confirming the previously observed serologic and amino acid sequence homology between the D-region products of H-2d, H-2b, and H-2q. All of these monoclonal antibodies precipitated 46,000 dalton molecules from both cell-surface-labeled and biosynthetically labeled B10.AKM spleen cells, indicating that all were reactive with class I-like molecules. Sequential immunoprecipitation analysis with one of these antibodies, 66-3-5, reveals the presence of a previously unidentified class I-like molecule. Tryptic peptide map analysis reveals that this molecule may be the product of a newly described H-2Dq-region gene.

Secondary, tertiary, and quaternary structure of T-cell-specific immunoglobulin-like polypeptide chains

To explore the possibility that the difference in antigen recognition between B and T cells derives from a structural difference in their respective antigen-specific receptors (immunoglobulins on B cells and immunoglobulin-like molecules on T cells), we compared the extracellular segments of the T-cell receptor alpha, beta, and gamma polypeptide chains and the N-terminal segment of the T-cell T8 (Lyt-2) antigen chain with the corresponding regions of immunoglobulins whose three-dimensional structures are known. The results indicate that the four T-cell polypeptide chains are organized into immunoglobulin-like domains consisting of multistranded antiparallel beta-sheet bilayers. Invariant amino acid side chains that are conserved in diverse immunoglobulins, including those that mediate domain-domain interactions and form a constant scaffold for antibody binding sites, are also conserved in the chains encoded by the T-cell receptor genes and in the N-terminal domain of T8 (Lyt-2). It appears that the binding sites of the antigen-specific T-cell alpha beta-chain receptors and of antibodies are very similar in their overall dimensions and geometry: a T-cell alpha beta receptor molecule probably has an antigen-specific binding site that is fundamentally no different than the conventional binding site of an antibody.

Clonal analysis of cytotoxic T lymphocytes (CTL) against autologous melanoma. Classification based on phenotype, specificity and inhibition by monoclonal antibodies to T cell structures

This study investigates the nature and specificity of cytotoxic T lymphocytes (CTL) in patients with melanoma which are able to kill autologous melanoma cells. Interleukin 2 (IL2)-dependent T cell clones from two melanoma patients and a normal subject were generated in mixed lymphocyte cultures (MLC) or mixed lymphocyte tumor cell cultures (MLTC) and propagated for prolonged periods in tissue culture. Analysis of their phenotype by a wide range of monoclonal antibodies (M.Abs) revealed two main phenotypes which depended on whether they expressed Fc receptors detected by Leu 11 M.Abs or not. Leu 11- T cells (referred to as Type 1) were inhibited by M.Abs to T3, T8, and a common HLA, ABC antigen. Conversely Leu 11+ T cells (referred to as Type 2) were inhibited by M.Ab to Leu 11 but not by M.Ab to T3, T8 and the HLA, ABC antigen. Subtypes among Type 1 cells were recognized which depended on their specificity. The most restricted were CTL [Type 1(a)] clones generated only in MLTC which recognized the autologous melanoma cell plus 1 of 11 other melanoma target cells. Type 1(b) CTL clones recognized a larger proportion (approximately 50%) of the melanoma cells. A third category [Type 1(c)] recognized antigens on melanoma cells shared with that on the EBV-transformed B cells used as stimulators in the MLC. Type 2 CTL clones had broad specificity to melanoma and nonmelanoma cells, characteristic of that described for lymphokine activated killer (LAK) cells. The latter were MHC unrestricted but further studies are required to clarify whether the Type 1 CTL clones are MHC restricted or not. The CTL activity of all clones was inhibited by M.Ab to the sheep red blood cell receptor and to the T10 antigens. It is suggested that recognition of these different types of CTL clones may assist future studies on the immune response against melanoma and the nature of antigens recognized by CTL.

Consequences of a single Ir-gene defect for the pathogenesis of lymphocytic choriomeningitis

The H-2Ld allele has been identified by others as the sole Ir gene in the H-2d haplotype for the cytotoxic T lymphocyte (CTL) response to mouse lymphocytic choriomeningitis virus (LCMV). The BALB/c-H-2dm2 (C-H-2dm2) mutant lacks H-2Ld, and thus should be ideal for assessing the contribution of virus-immune CTL to LCM immunopathology. Comparison of the C-H-2dm2 mice with congenic BALB/c mice revealed that there is a delay of about 24 h in the onset of severe inflammatory process and symptoms in the mutant strain, but the absence of H-2Ld did not prevent the later development of fatal disease in mice injected intracerebrally (i.c.) with neurotropic LCMV. This could indicate that virus-immune CTL are not the major mediators of clinical LCM. Spleen cells from LCMV-primed BALB/c mice did not show CTL activity for LCMV-infected C3H.OH, C-H-2dm2, or (CBA X C-H-2dm2)F1 target cells. However, immune lymphocytes from both the mutant and the F1 strains lyse virus-infected BALB/c cells. Furthermore, B10.HTG and, in some experiments, B10.A(5R) mice generated CTL lytic for LCMV-infected BALB/c, C-H-2dm2, and (CBA X C-H-2dm2)F1 macrophages. Apparently H-2Ld is immunodominant in the H-2d-restricted response to LCMV. However, in the absence of H-2Ld, it seems that H-2Kd and, to a lesser extent, H-2Dd also serve as Ir genes for the CTL response in this infection. Even so, the absence of the H-2Ld-restricting element results in a disease process which is either delayed in onset or less severe.

Thymus dictates major histocompatibility complex (MHC) specificity and immune response gene phenotype of class II MHC-restricted T cells but not of class I MHC-restricted T cells

Athymic H-2b nude mice received grafts from C57BL/6 (Sendai virus and H-Y antigen cytotoxic T lymphocyte [CTL] responder type), bm1 (H-2Kb mutant, Sendai CTL nonresponder type), or bm12 (H-21-A mutant, H-Y CTL nonresponder type) neonates. In observations of the CTL response to H-Y, both recipients and thymus donors were female. All types of thymus engraftment resulted in mature H-2b splenic T lymphocyte surface phenotype in nude hosts. T cell immunocompetence (as measured by major histocompatibility complex [MHC] CTL responses to allogeneic cells) was restored, and induced nonresponsiveness to the MHC determinants of the engrafted thymus in the nude host. The CTL reaction to Sendai virus in both responder type C57BL/6 and nonresponder type bm1 neonatal thymuses allowed maturation of Sendai-specific, H-2Kb-restricted CTL. For the CTL reaction to H-Y, only responder type C57BL/6 thymuses restored the CTL response, whereas this was not achieved with thymuses from nonresponder type bm12 neonatal females. Results of double thymus (B6 and bm12) engraftment excluded the possibility that this latter effect was caused by suppression. In addition, athymic bm1 mice were engrafted with thymuses from either B6 (Sendai CTL responder type) or syngeneic bm1 neonates (Sendai CTL nonresponder type). Again, both types of neonate thymuses restored T cell competence as measured by MHC/CTL responses to allogeneic cells. However, neither responder B6 nor nonresponder bm1 neonate thymus grafts allowed maturation of Sendai-specific CTL. In conclusion, the thymus dictates MHC specificity and immune response gene phenotype of T cells restricted to class II MHC molecules but not of T cells restricted to class I MHC molecules.

High-level expression of a cloned HLA heavy chain gene introduced into mouse cells on a bovine papillomavirus vector

A gene encoding the heavy chain of an HLA human histocompatibility antigen was isolated from a library of human DNA by recombination and selection in vivo. After insertion into a bovine papillomavirus (BPV) DNA expression vector, the gene was introduced into cultured mouse cells. Cells transformed with the HLA-BPV plasmids did not appear to contain extrachromosomal viral DNA, whereas BPV recombinants usually replicated as plasmids in transformed cell lines. Large amounts of HLA RNA were produced by the transformed cells, and the rate of synthesis of human heavy chain was several-fold higher than in the JY cell line, a well-characterized human lymphoblastoid cell line which expresses high levels of surface HLA antigen. Substantial amounts of human heavy chain accumulated in the transformed cells, and HLA antigen was present at the cell surface. These observations establish the feasibility of using BPV vectors to study the structure and function of HLA antigens and the expression of cloned HLA genes.

High-level expression of a cloned HLA heavy chain gene introduced into mouse cells on a bovine papillomavirus vector

A gene encoding the heavy chain of an HLA human histocompatibility antigen was isolated from a library of human DNA by recombination and selection in vivo. After insertion into a bovine papillomavirus (BPV) DNA expression vector, the gene was introduced into cultured mouse cells. Cells transformed with the HLA-BPV plasmids did not appear to contain extrachromosomal viral DNA, whereas BPV recombinants usually replicated as plasmids in transformed cell lines. Large amounts of HLA RNA were produced by the transformed cells, and the rate of synthesis of human heavy chain was several-fold higher than in the JY cell line, a well-characterized human lymphoblastoid cell line which expresses high levels of surface HLA antigen. Substantial amounts of human heavy chain accumulated in the transformed cells, and HLA antigen was present at the cell surface. These observations establish the feasibility of using BPV vectors to study the structure and function of HLA antigens and the expression of cloned HLA genes.

H-2-linked control of resistance to ectromelia virus infection in B10 congenic mice

Several B10 strains of mice, recombinant at the H-2 locus, have been shown to differ in their resistance to infection with ectromelia virus, a natural mouse pathogen. Of 10 strains, B10, B10.A(2R), B10.A(4R) and B10.D2 were the most resistant, while B10.G and B10.A(5R) were the most susceptible. Other strains were intermediate between these extremes. Several genes conferring resistance have been mapped to Db in B10.A(2R), Kk I-Ak I-Bk in B10.A, I-Jb in B10.A(2R) and to Dd in B10.T(6R). In general, death among susceptible strains was not a consequence of acute liver necrosis as in other non-B10 strains, and occurred randomly from 8-14 days after infection. The exact cause of death is unknown but is characterized by persisting high titers of virus in the spleen and sometimes the liver, despite an ongoing immune response indicated by strong cytotoxic T-cell activity detectable in the spleens of all mice. The most resistant B10 and B10.A(2R) strains cleared virus from the spleen and liver by 8 days after infection. Analysis of infection in chimeric mice indicates that H-2 genes, which determine susceptibility to virus persistence in the spleen, operate via radiosensitive cells of the lymphomyeloid system. This evidence, together with several examples of H-2-linked differences in cytotoxic T-cell responsiveness between resistant and susceptible strains, is consistent with the hypothesis that the mechanism by which H-2 genes control resistance to ectromelia virus in B10 strain mice is by their influence on the effectiveness of a cell-mediated immune response.

HLA-restricted T lymphocyte-mediated cytotoxicity against herpes simplex virus-infected cells in humans

Cytotoxic T lymphocytes (CTL) against herpes simplex virus (HSV) were induced in vitro from human peripheral blood lymphocytes by stimulation with HSV antigen. CTL generated by HSV type 1 (HSV-1) antigen stimulation killed not only HSV-1-infected target cells but also HSV type 2 (HSV-2)-infected target cells, though at a lower level. This evidence suggests that CTL against HSV recognize the HSV type-specific and type-common determinants on HSV-infected target cells. These CTL were generated from high responders against HSV-1 antigen as measured by antigen-specific T lymphocyte proliferation in vitro, but not to such an efficient degree from low responders. The cytotoxic activities of CTL against the allogeneic HSV-infected target cells were high when at least one of the HLA-A or -B antigens was shared. However, the HLA-A and -B nonidentical target cells were not killed effectively. The data presented here suggest the possibility of HLA restriction of HSV-specific CTL in humans.

Major histocompatibility complex-restricted self-recognition in responses to trinitrophenyl-Ficoll. A novel cell interaction pathway requiring self-recognition of accessory cell H-2 determinants by both T cells and B cells

In vitro primary antibody responses to limiting concentrations of trinitrophenyl (TNP)-Ficoll were shown to be T cell dependent, requiring the cooperation of T helper (TH) cells, B cells, and accessory cells. Under these conditions, TH cells derived from long-term radiation bone marrow chimeras were major histocompatibility complex (MHC) restricted in their ability to cooperate with accessory cells expressing host-type MHC determinants. The requirement for MHC-restricted self-recognition by TNP-Ficoll-reactive B cells was assessed under these T-dependent conditions. In the presence of competent TH cells, chimeric B cells were found to be MHC restricted, cooperating only with accessory cells that expressed host-type MHC products. In contrast, the soluble products of certain monoclonal T cell lines were able to directly activate B cells in response to TNP-Ficoll, bypassing any requirement for MHC-restricted self-recognition. These findings demonstrate the existence of a novel cell interaction pathway in which B cells as well as TH cells are each required to recognize self-MHC determinants on accessory cells, but are not required to recognize each other. They further demonstrate that the requirement for self-recognition by B cells may be bypassed in certain T-dependent activation pathways.

Phenotypic diversity in leukemia cell populations

Acute leukemia comprises a large group of different diseases that can be identified by morphology in combination with immunological markers. Such studies suggest that phenotypic heterogeneity may be expressed in individual leukemia cell populations. This was verified in the murine AKR leukemia that was found to be composed of four antigenically different subtypes of leukemia cells, and it was shown that this feature has a severe negative impact on the use of leukemia cell specific monoclonal antibodies (Mabs) as therapeutical reagents. Twenty-four human T-lymphoblastic leukemias were analyzed with Mabs against HLA class I, HLA class II, and T-lymphocyte differentiation antigens, and 21 were found to be intratumoral heterogeneous with respect to these antigens. Mabs with high specificity were generated against AML cells and subsequently used to analyze more than 50 AML samples from different patients. The reactivity pattern of the Mabs differed significantly among the various AML samples. Further, a pronounced intratumoral antigenic heterogeneity (IAH) was found in most AML samples with regard to reactivity of the Mabs against AML and expression of major histocompatibility antigens. The negative impact of IAH on the use of Mabs in clinical oncology is described. It is argued that IAH exemplifies the phenotypic diversity of malignant neoplasms which is also suggested to be a basic and necessary feature of malignant cell populations. Mabs against subsets of malignant cell populations may have a profound effect on cancerous cell populations, and it is therefore of crucial importance that such subsets are identified and characterized. It is conceivable that this may result in generation of Mabs with potentially high value in cancer diagnosis and therapy, particularly in combination with drugs that induce differentiation in the malignant cell mass.

Generation of cytolytic T lymphocytes in thymectomized, irradiated, and bone marrow-reconstituted mice

A model system has been developed to study extrathymic T cell differentiation. Mice have been thymectomized, lethally irradiated, and reconstituted with bone marrow cells depleted of Thy-1-positive cells. After 8 wk, the spleen cells of these 5athymic, bone marrow-reconstituted chimeras contain Thy-1-positive pre-cytolytic T lymphocytes (CTL) that are able to respond to antigen only when exogenous interleukin 2 is added to culture.. The phenotype of these pre-CTL is similar to that of thymocytes, suggesting that they may be an immature T cell. Initial evaluation of the CTL repertoire of these athymic mice demonstrates that the CTL generated to trinitrophenyl-modified syngeneic cells are H-2 restricted and that the CTL generated to alloantigens have many of the cross-reactivities observed in normal but not in nude mice. The discrepancies observed in the CTL repertoire between these thymectomized chimeras and nude mice are discussed.

Lymphocyte-mediated immune cytotoxicity in dogs infected with virulent canine distemper virus

Immune lymphocyte-mediated cytotoxicity (ILMC) was evaluated in dogs after intranasal exposure to one of the following three virulent strains of canine distemper virus: Cornell A75/17, Ohio R252, and Snyder Hill. Cytotoxicity was tested with peripheral blood lymphocytes as effector cells and primary dog testicle cells that were matched for histocompatibility as target cells. A strong correlation was found between ILMC and the course of the infection. Dogs that succumbed to encephalitis with any of the strains had little or no ILMC, whereas dogs that recovered had the highest activity. In the intermediate range were dogs with a delayed or reduced ILMC which developed persistent but subclinical central nervous system infections. A significant difference in onset, peak, and duration of ILMC was observed in dogs infected with different strains of canine distemper virus. ILMC responses began at 14 days postinfection (p.i.), reached a peak at 21 to 28 days p.i., and returned to preinoculation levels by 63 to 70 days p.i. in canine distemper virus A75/17- and R252-infected dogs. In contrast, ILMC in canine distemper virus Snyder Hill-infected dogs began at 10 days p.i., peaked by 14 to 17 days p.i., and approached preinoculation levels by 28 days p.i. Antiviral immunity as measured by ILMC appears to be a critical factor in determining the outcome in canine distemper virus-infected hosts. Furthermore, for certain viral biotypes, a delayed ILMC response correlated with persistent infection of the central nervous system.

Intratypic and intertypic specificity of lymphocytes involved in the recognition of herpes simplex virus glycoproteins

Cytotoxic T lymphocytes (CTL) were generated in C57BL/6 mice with herpes simplex virus type 1 (HSV-1) (strains KOS, 17, HFEM, and mP) and HSV-2 (strains 186, G, and GP6). Effector lymphocytes were tested for cytotoxicity against syngeneic HSV-1- and HSV-2-infected cells in a 5-h 51Cr release assay. HSV-1 strain HFEM was found to induce CTL efficiently only when 100-fold more virus was used as compared with HSV-1 strains KOS, 17, and mP. All HSV-1 and HSV-2 strains induced cross-reactive populations of CTL. CTL generated by HSV-1 KOS and HSV-2 186 also demonstrated cross-reactivity in an ear-swelling model for delayed-type hypersensitivity. Lymphocytes generated by all HSV-2 strains were highly efficient at lysing HSV-1-infected target cells. However, HSV-2-infected target cells were found to be less susceptible to lysis by either HSV-1 or HSV-2 CTL than were HSV-1-infected target cells. The lowered susceptibility of HSV-2-infected cells was not due to an inefficient infection of BL/6 WT-3 cells as measured by standard growth assays and infectious center assays. Varying the multiplicity of infection or the time of infection did not increase the susceptibility of HSV-2-infected target cells to lysis by CTL. Increasing the effector-to-target-cell ratio resulted in an increased lysis of both HSV-1- and HSV-2-infected target cells by CTL, but the level of HSV-2-infected target cell lysis still did not approach the level of HSV-1-infected target cell lysis. HSV-2-infected cells were as efficient as HSV-1-infected cells in the cold cell competition assay employed in reducing the lysis of 51Cr-labeled, HSV-1-infected target cells. In addition, HSV-2-infected cells were susceptible to lysis by HSV-immune serum and complement.

Non-H-2 and H-2-linked immune response genes control the cytotoxic T-cell response to H-Y

The immunoregulation of cytotoxic T-cell responses to the male-specific antigen H-Y in mice has been found to be genetically controlled by genes of the major histocompatibility complex (H-2). Responsiveness was mainly confined to H-2b strains, but it has also been found in recombinant strains, F1 hybrids, and chimeras that carry at least part of the H-2b haplotype. By using a different immunization procedure it has been shown recently that an H-2k mouse strain (CBA) is also able to mount an equivalent H-Y-specific response. We investigate here, by applying this immunization technique, the responsiveness of other H-2k strains and of strains of other independent H-2 haplotypes. Both responders and nonresponders are found in three haplotypes: k, s, and d. The strain distribution pattern of responsiveness shows a combined influence of non-H-2 and H-2 genes. In certain strains there is a high variability in responsiveness between genetically identical individual animals. We discuss a model of immune response (Ir) gene function which could account for these observations.

Human leukocyte antigen-linked genetic controls for T cell-mediated cytotoxic response to mumps virus in humans

The involvement of human leukocyte antigen determinants for the response of mumps virus-specific cytotoxic T lymphocytes in humans was studied. The cytotoxic T lymphocytes could only lyse virus-infected allogeneic cells with which they shared a particular human leukocyte antigen, e.g., Bw52 or B7. The existence of Bw52 in the subjects who received a booster immunization with live mumps vaccine was associated with a significantly higher cytotoxic T-lymphocyte response than that of subjects without the gene. Although a donor-dependent difference in the recognition of human leukocyte antigen-A2 suggests the complexity of the genetic mechanisms involved, the results are largely consistent with the concept of major histocompatibility complex-linked genetic control of virus-specific cytotoxic T-lymphocyte response.

Tumor progression in metastasis: an experimental approach using lectin resistant tumor variants

A novel model of tumor progression in metastatic cancer is described which grew out of attempts to derive stable non-metastatic variants from a highly metastatic mouse tumor called MDAY-D2. The variants were obtained by selection of so-called lectin-resistant (LecR) membrane mutants using toxic concentrations of wheat germ agglutinin (WGA) as the selective agent, after mutagenesis. Cloned WGAR variants almost all appeared to be highly tumorigenic and metastatic, but displayed altered growth properties which were highly suggestive of major cellular phenotypic alterations occurring prior to metastasis. This were confirmed with the discovery that spontaneous visceral metastases always consisted of WGA-sensitive (WGAS) 'revertant' tumor cells. Such revertants also arose at the site of the subcutaneous inoculation and, with time, comprised an increasing proportion of the tumor cells at that location. The WGAS/high metastatic phenotype was stable in vitro or in vivo, implying the WGAR leads to WGAS shift had an underlying genetic basis. Thus, it appeared that the WGAR tumor cells could not metastasize, because of either an intrinsic cellular defect or a host imposed barrier, but that this block could be circumvented through a genetic change in the WGAR tumor cells which was accompanied by reversion of the WGAR phenotype. Non-tumorigenic (tum-) WGAR variants were also obtained, but in these cases the mutagenesis treatment itself appeared responsible for development of the tum- phenotype. The reduced tumorigenicity had an underlying immunological basis, a finding which could be exploited to immunotherapeutically treat established visceral metastases of poorly immunogenic tumors. Throughout these studies, emphasis was placed on the considerable potential of using tumor cell populations having various stable drug-resistant genetic markers to monitor aspects of tumorigenesis, tumor progression, and metastasis.

Target-cell recognition by cloned lines of influenza virus-specific cytotoxic T lymphocytes. Selective inhibition by a monoclonal H-2-specific antibody

A monoclonal H-2d-specific antibody markedly inhibits target-cell lysis mediated by two influenza virus A/JAP/57-specific, H-2Kd-restricted cloned CTL lines. Three other A/JAP-57-specific, H-2d-restricted CTL clones (two of which are also restricted to H-2Kd in target-cell recognition) are only minimally inhibited by this monoclonal antibody. The inhibitory effect of the antibody is not due to selective binding to certain cloned CTL lines but rather is due to blocking of a determinant on the target cell. The monoclonal antibody produces partial inhibition of lysis mediated by a heterogeneous population of A/JAP/57-specific, H-2d-restricted CTL. Likewise the profound, selective inhibition of cytolysis produced by the H-2d-specific monoclonal antibody could not be reproduced with a conventional H-2d-specific alloantiserum. These observations suggest that more than one site on a particular H-2K or H-2D molecule can serve as a determinant for H-2-restricted CTL recognition. They furthermore imply that there is more than one recognition structure (receptor) for self MHC products clonally distributed among a population of H-2-restricted CTL directed to a particular antigen.

Induction of cytotoxic activity in human lymphocytes against autologous and allogeneic melanoma cells in vitro by culture with interleukin 2

The influence of interleukin 2(IL2) on the cytotoxic activity of lymphocytes from patients with melanoma against autologous and a variety of allogeneic melanoma cells was studied. IL2 was produced from blood lymphocytes cultured for 24 h with phytohaemagglutinin (PHA) and purified by membrane chromatography to exclude PHA. Lymphocytes from 13 patients with melanoma at various clinical stages were cultured fro 6 days with IL2 (2 U/ml) and then tested for cytotoxic activity against autologous melanoma cells, three allogeneic melanoma and three non-melanoma cells. Autologous cytotoxicity was generated by culture with IL2 alone and was not increased by culture with both IL2 and autologous tumour cells. Marked increases in cytotoxic activity were also generated against the allogeneic target cells and were maximal against the NK-insensitive Chang target cells. Similar degrees of cytotoxicity were induced by IL2 stimulation of lymphocytes from melanoma patients, patients with nonmelanoma carcinoma and normal subjects against the allogeneic target cells. Cold target inhibition studies were carried out against IL2 induced autologous cytotoxicity in five patients. In four of five studies the autologous target cells inhibited more than the allogeneic target cells. There was no significant difference between the inhibition produced by allogeneic melanoma cells and that produced by non-melanoma cells. Similarly, in studies against allogeneic target cells, there was no significant difference in the inhibition produced by allogeneic melanoma compared to non-melanoma target cells. This applied irrespective of whether effector cells were from melanoma or non-melanoma subjects. These results suggest that lymphocytes from patients with melanoma are primed against autologous antigens in vivo and that provision of a second signal, IL2, in vitro can induce cytotoxicity against the autologous tumour. The cytotoxicity generated against the allogeneic target cells did not appear to have specificity to melanoma. Several results, such as the pattern of cytotoxicity against the target cells and change in cell surface markers on the lymphocytes during culture, suggested that cytotoxicity was mediated by activated T cells rather than by nature killer cells. These findings appear to have important implications both in the understanding of tumor host relationships and for the use of IL2 in therapy.

Neonatal tolerance to alloantigens alters major histocompatibility complex-restricted response patterns

Male-specific transplantation antigen (H-Y)-immune cytotoxic T cells of some individual CBA/H mice exhibit lytic activity on male and female allogeneic targets (e.g., H-2b). Neonatal tolerance to H-2b abrogates the ability of CBA mice to generate secondary H-Y-immune cytotoxic T cells, but such cell activity to third-party alloantigens and to Bebaru and influenza virus is not impaired. The results are discussed in relationship to dominant major histocompatibility complex-coded immune response gene effects on cytotoxic T-cell responses.

Significance of Lyt phenotypes: Lyt2 antibodies block activities of T cells that recognize class 1 major histocompatibility complex antigens regardless of their function

The effect of anti-Lyt2 on the generation of helper T-cell function and on cytotoxic effects specific for subregions of the major histocompatibility complex (MHC) was determined. The addition of anti-Lyt2 without complement to in vitro cultures blocked the generation of allogeneic MHC-induced help and lymphokine production and cytotoxic effects when the response was directed against allogeneic class 1 MHC antigens (K and D gene products of the mouse H-2 complex) but had no effect when these responses were specific for class 2 MHC antigens (I region gene products). Anti-Lyt2 failed to block the response of help induced to allogeneic mixed lymphocyte-stimulating determinants or the production of lymphokines by T cells specific for class 1 MHC antigens when concanavalin A lectin was used to induce activity. These and earlier results indicate that the ability of anti-Lyt2 antisera to block function is correlated with T cell specificity for class 1 MHC antigens not with the functional activity of the cells.

T lymphocytes specific for immunoglobulin allotype. II. Cloned Igh-1b-specific cytotoxic T cells

This study describes long-term-cultured lines and clones of cytotoxic T cells (Tc) with specificity for determinants of the Igh-1(b) immunoglobulin allotype. These Tc clones were initiated by repeated stimulation of immune spleen cells from BALB/c mice with an Igh-1(b)-producing myeloma, and then they were maintained in medium supplemented with mitogen-induced growth factors in the absence offurther antigenic stimulation . The lytic potency of these clones was 30-100-fold greater than the primary cultures from which they were derived, and specificity studies showed them to be lytic for Igh-1(b) targets and not for targets expressing Igh-1(a) or Igh-4(b), nor the lipopolysaccharide blasts . Finally, soluble preparations of Ig were tested for their ability to block lysis of labeled Igh-1(b)-expressing targets. The results showed that Igh-1(b) and not other immunoglobulin allotypes or isotypes could block lysis, and that the mechanism of lytic inhibition is due to Igh-1(b)-induced autolysis of the killer cells.

Biological properties of an influenza A virus-specific killer T cell clone. Inhibition of virus replication in vivo and induction of delayed-type hypersensitivity reactions

We tested two biological properties of a continuously growing mouse cytotoxic T cell line, L4, which is specific for influenza A virus and has been cloned and recloned many times. We previously reported that L4 cells are H-2 restricted and cross-reactive for all type A influenza viruses, whereas they do not recognize type B influenza viruses. They bear Thy-1 and Lyt-2 markers. In the present study, we show that L4 cytotoxic T cells protect mice against a lethal influenza infection on transfer to syngeneic recipients, and reduce virus titers in the lungs of mice challenged with a heterologous type A influenza virus. This provides further support for the active role of cytotoxic T cells in limiting virus replication in influenza infection. We could also demonstrate that the cloned cytotoxic T cells induce a delayed-type hypersensitivity skin reaction in the footpads of mice challenged with live or inactivated influenza virus. This reaction can be observed at 24 h, but has declined by 48 h. A clone of cells derived from L4 that has lost its cytotoxic potential and its ability to recognize infected cells did not induce a delayed-type hypersensitivity reaction in the presence of virus. Thus, cytotoxic T cells actively killing influenza virus-infected cells are able to induce a delayed-type hypersensitivity skin reaction to homologous and heterologous type A influenza viruses.

Idiotypes on major histocompatibility complex-restricted virus-immune cytotoxic T lymphocytes

Specificity-associated determinants could be demonstrated on major histocompatibility complex (MHC)-restricted virus-immune cytotoxic T lymphocytes (CTL) using antisera raised in syngeneic mice. This result indicates that the number of clonotypes sufficiently small to allow the detection of such idiotypic determinants. The functional properties of three anti-idiotypic antisera were tested in blocking studies and by idiotypic antisera plus complement. Whereas the former test did not reveal any results obtained from binding studies, i.e., all three anti-idiotypic antisera specifically reacted with CTL of the type used for immunization and had no effect on syngeneic influenza-immune CTL, syngeneic alloreactive CTL, or NDV-immune CTL of an H-2-disparate strain. These results are discussed in terms of current models for MHC-restricted CTL responses.

Major histocompatibility complex restriction of soluble helper molecules in T cell responses to altered self

Evidence for major histocompatibility complex (MHC) restriction of soluble helper effects was observed in the generation of syngeneic killer T cells to trinitrophenyl-altered self. Ia-bearing T cells obscure the observation of such interactions, thus, must be removed to detect MHC restriction of nonspecific soluble helper factor supernates (HFS). Genetic mapping studies demonstrated that the strain producing HFS must be compatible in the H-21A region with the strain utilizing the helper molecules for optimal helper signals to be delivered.

Heterogeneity and specificity of cloned lines of influenza-virus specific cytotoxic T lymphocytes

Continuous lines of murine cytotoxic T lymphocytes (CTL) directed to type A influenza viruses have been generated in vitro by stimulation of individual CTL precursors in the presence of T cell-growth factor TCGF and syngeneic virus-infected stimulator cells. The cloned CTL lines are H-2 restricted in their target cell recognition and exhibit distinct patterns of influenza virus recognition. All CTL lines appear to be restricted in target cell recognition to either the H-2K or the H-2D end of the appropriate H-2 haplotype. Likewise, CTL lines of F1 origin are restricted in recognition exclusively to one of the parental haplotypes. All CTL lines examined express the Thy-1.2 and the Lyt-2-surface antigen markers. 4 of 11 cytotoxic lines examined also expressed detectable levels of the Lyt-1- surface antigen. These findings confirm at the clonal level previous observations on the H-2K/D restriction of virus-specific CTL and also demonstrate heterogeneity among H-2 restricted CTL both from the standpoint of viral antigen recognition and cell surface phenotype.

Herpes-Simplex-virus-specific, H-2Dk-restricted T lymphocytes bear receptors for H-2Dd alloantigen

Cytotoxic T lymphocytes generated in the course of an HSV-infection of CBA (H-2k) mice not only lyse syngeneic, virus-infected target cells but also cross-react with noninfected taraget cells expressing the Dd alloantigen. On the effector cell level, this alloreactivity is mediated by virus-specific CTL's that are restricted to H-2Dk determinants. On the prekiller cell level, the anti-HSV-reactive T cells exhibiting cross-reactivity for Dd alloantigen could be positively selected on H-2d spleen-cell monolayers. After differentiation into cytolytic effector cells, target cells expressing Dd alloantigens and syngeneic HSV-infected target were lysed with equal efficiency. The results imply that the phenomenon of H-2-restricted versus nonrestricted T-cell reactivity is not due to distinct T-cell subsets, but rather is dependent on the antigeneic determinants recognized.

Quantitative variation in H-2-antigen expression. I. Estimation of H-2K and H-2D expression in different strains of mice

Minor differences in the expression of individual H-2K and H-2D antigens were detected on mouse spleen cells. The method involved the use of an 125I-protein A radioimmunoassay using highly specific anti-H-2 sera to make estimates of the number of cell-bound antibody molecules. The maximum number of antibody binding sites varied for each H-2 antigen reflecting differences of between 10 and 70 percent in the expression of any two antigens. The order of magnitude of expression was Db greater than (Kd)=Kk=Kb=Dq greater than Dd greater than Kq greater than Dk. Minor background differences were detectable, but antigen expression was allele-specific and independent of the expression of other K, D or I antigens expressed on the same cell.

Cell-mediated cytotoxicity for cultured autologous rheumatoid synovial membrane cells

Cytotoxicity tests were performed on cultured rheumatoid synovial membrane cells with autologous lymphocytes as effector cells. Three of 26 cultures were positive when tested at primary or first passage level, but on subsequent tests became negative. Tests based on an isotope-labelling technique and a micro-cytotoxicity assay were compared; the results appeared to correlate well. The expression of neoantigens on synovial cells was not demonstrated. Cultures initiated in medium containing hydrocortisone did not give rise to a population of synovial cells susceptible to immune lysis by autologous lymphocytes.

Cell-mediated immunity to herpes simplex virus: specificity of cytotoxic T cells

This communication deals with the question of which of the viral antigens constitutes the targets for cytotoxic T lymphocytes (CTL) generated against herpes simplex virus type 1 (HSV-1). The approach used was, first, to compare cytotoxicity of CTL against target cells infected with virus in the presence of tunicamycin and 2-deoxy-D-glucose, which are known to inhibit glycoprotein synthesis, and second, to compare cytotoxicity of CTL against target cells infected with wild-type HSV-1 with that against target cells infected with a temperature-sensitive mutant of HSV-1 which, at the nonpermissive temperature, exhibits diminished glycoprotein synthesis. The results show that glycoprotein expression is required for the demonstration of cytotoxic activity of CTL. The level of cytotoxicity against the temperature-sensitive HSV-1 target at the nonpermissive temperature was reduced and correlated with the level of expression of the major envelope glycoprotein region (VP123; molecular weight = 123,000) at the target cell surface as measured serologically by antibody binding studies. The results were interpreted to indicate that HSV-1-induced glycoproteins are the target antigens for anti-HSV CTL and that the principal viral antigens recognized by the CTL may be glycoproteins of the VP123 region.

Clone-specific cellular recognition in a sea anemone

A highly specific cellular recognition system, capable of distinguishing between syngeneic and allogeneic tissue, exists in Anthopleura elegantissima, a sea anemone that lives in clonal colonies and attacks foreign clones. During the attack, specialized surface protrusions (acrorhagi) are used for stinging. The recognition process was studied by presenting various tissues to the surface of inflated acrorhagi and observing whether nematocyst discharge occurred. Nematocyte excitation required direct contact of th acrorhagus with foreign tissue and is presumably mediated by cell surface receptors. Most foreign anthozoans were excitatory, but intact syngeneic individuals, organisms other than anthozoans, and inanimate objects consistently failed to elicit discharge. When the intact surface of an excised tentacle from one anemone was presented to the acrorhagus of another, discharge occurred in 101 of 102 allogeneic combinations; more than 50 tests with tentacles from clone mates (i.e., syngeneic combinations) were all negative. No evidence for specific immunological memory was found. It is suggested that clonal recognition depends upon genetically determined chemical markers in the surface membrane of the epithelial cells; these are assumed to differ between clones although, in rare cases, allogeneic clones may have similar markers.

Antigen- and receptor-driven regulatory mechanisms. V. The failure of idiotype-coupled spleen cells to induce unresponsiveness in animals lacking the appropriate VH genes is caused by the lack of idiotype-matched targets

A/J anti-p-azobenzenearsonate (ABA) antibodies bearing cross-reactive idiotypic (CRI) determinants, when coupled to spleen cells and then injected intravenously into naive animals, stimulate suppressor T cell (Ts) responses. Moreover, previous studies have demonstrated that the ability of such idiotype-coupled spleen cells to induce immune unresponsiveness to subsequent immunization with ABA-coupled spleen cells is linked to Igh-1 genes. Thus, CRI bearing antibodies from A/J mice, when conjugated to normal BALB/c spleen cells in vitro and then injected intravenously to syngeneic BALB/c mice, failed to induce tolerance in these animals. However, spleen cells taken from these animals transferred significant degrees of suppression to Igh-1 congenic C.AL-20 but not to H-2 congenic, Igh-1 distinct B10.D2 mice. Therefore, the failure of CRI-coupled spleen cells to induce suppressor cell- mediated unresponsiveness in animals unable to express the appropriate VH genes (i.e. BALB/c and B10.D2) appears to be caused by the lack of idiotype- matched targets. The notion that the ability to express certain Vn genes in the recipient animal is a prerequisite for suppressor cell function was further supported by the observation that suppressor cells induced in C.AL-20 mice failed to transfer any degree of suppression to BALB/c mice. The ability to transfer suppression from BALB/c mice to C.AL-20 mice is a T cell- dependent phenomenon, since in vitro treatment with anti-Thy 1.2 antiserum and complement completely abrogated suppressor cell function. Furthermore, these suppressor T cells are antigen specific and can be enriched on idiotype-coated petri dishes, indicating they possess anti-idiotypic receptors. Therefore, appropriate anti-idiotype and idiotype interaction is essential for the manifestation of suppressor T cell function in ABA-specific suppressor pathways.

Immune response in rabbits to surface components of extracellular and intracellular forms of vaccinia virus

The development of cellular as well as humoral immune response to extracellular and intracellular forms of vaccinia virus (ECV and ICV, respectively) and their surface antigens were studied in rabbits. Direct lymphocyte cytotoxicity and peripheral blood leukocyte migration inhibition tests were used to measure cell-mediated immune response, while neutralizing and hemagglutination-inhibiting antibodies were assayed for measuring humoral immune response. Direct cytotoxicity of lymphocytes from rabbits immunized with ECV or its surface proteins was demonstrable by day 7 after immunization, and by the end of week 3 it almost declined to pre-immunization levels. Inoculation with ICV or its surface proteins failed to induce lymphocyte cytotoxicity. In contrast, migration inhibition of peripheral blood leukocytes from rabbits immunized with ECV, ICV, or their surface proteins was observed with homologous antigens. However, leukocytes from rabbits immunized with ECV or its surface proteins also showed migration inhibition in the presence of ICV. Similarly, in the humoral immune response, neutralizing antibodies were produced against homologous as well as heterologous forms of virus despite immunization with purified preparations of ECV, ICV, or their surface proteins. Adsorption with purified ICV preparations abolished the neutralizing activity of these antisera against heterologous forms of virus. Hemagglutination-inhibiting antibodies, on the other hand, were produced only after immunization with ECV or its surface proteins. In addition, antibody-dependent cell-mediated cytotoxicity was employed to detect specific antibody response after immunization of rabbits with live virus, ECV, and ICV. Antisera raised against ECV or live virus supported antibody-dependent cell-mediated cytotoxicity, whereas ICV-antiserum failed to do so. The antibody activity present in the former antisera was abolished by absorption with cell membranes from vaccinia-infected cells but not with purified ICV. The data suggest that immunization with inactivated ECV seems to bring about interaction between host immune response (cellular and humoral) and virus-infected cells, which may, perhaps, be necessary for protection against pox virus infection. A similar interaction is unlikely to occur after immunization with inactivated ICV.

Hamster T cells participate in MHC alloimmune reactions but do not effect virus-induced cytotoxic activity

The participation of hamster T cells in a variety of putative MHC-determined reactions was studied utilizing a well-characterized, highly selective goat anti-hamster thymocyte (G alpha HT) serum. Hamster lymphoid cell suspensions treated with G alpha HT lose much of their capacity to induce local graft-versus-host reactions and to function as responder cells in mixed lymphocyte reactions. In contrast to the participation of hamster T cells in alloimmune reactions (MLR and GVHR), virus-induced, cytotoxic activity in hamsters undergoing acute virus infection is not T-cell-mediated. This latter finding was rather surprising in view of the major role played by cytotoxic T effector cells in comparably infected mice and rats. These results suggest that, although hamsters are able to respond to putative class II MHC disparities in allogeneic reactions, MHC-encoded molecules, presumably class I, are not utilized for induction of effective cytotoxic activity in response to acute virus infection in this species. The implications of these findings are discussed in relation to our present understanding of the hamster MHC.

Natural and immune cytolysis of canine distemper virus-infected target cells

Natural and immune cytolysis of canine distemper virus (CDV)-infected target cells in vitro is described. Lymphocytes expressing natural cytotoxicity were found in specific-pathogen-free beagle dogs and in beagle-coonhound crosses before vaccination with CDV and indefinitely after vaccination, when the ephemeral immune lymphocyte-mediated cytotoxicity (ILMC) had declined. In contrast to the natural lymphocyte-mediated cytotoxicity, the ILMC was genetically restricted, could not be blocked by CDV-specific antibody, and was effective against measles virus-infected as well as CDV-infectd target cells. Lymphocyte populations were depleted of Fc receptor and surface immunoglobulin-bearing cells by rosetting techniques and tested in comparison. An antibody-dependent cell-mediated cytotoxicity was demostrated against CDV-infected target cells that were preincubated with CDV antibody when Fc receptor-bearing lymphocytes were not removed. The ILMC was measurable for approximately 10 days beginning at 6 days post-vaccination. In contrast, CDV antibody measured by virus neutralization and humoral cytotoxicity was detectable by 6 days postvaccination and persisted at peak levels for at least 5 months.

Quantitation of influenza virus antigens on infected target cells and their recognition by cross-reactive cytotoxic T cells

Monoclonal antibody to type-A influenza virus matrix (M)-protein was used to quantitate the appearance of M-protein on abortively infected P815 cells. After 16 h of infection with different type-A viruses, only a low amount of M-protein appears on the surface of infected cells (approximately 10(3) site/cell) in contrast to approximately 10(5) hemagglutinin molecules on each cell surface. However, virus replication is required for M-protein appearance. Analysis of solubilized membranes purified from 16-h-infected cells shows approximately 10(4) M-protein molecule/cell in the plasma membrane, a content that is consistent with the observed low surface expression, and that indicates that most of the M-protein is localized internally. We found no evidence that cross-reactive cytotoxic T cells could recognize M-protein; neither monoclonal antibody or hyperimmune anti-M-protein antiserum could inhibit T cell killing, either alone or in combination with monoclonal anti-H-2 antibody. Taken together, the low level of M-protein appearance and lack of T cell blocking by anti-M-protein antibody leaves doubt that M-protein is the antigen recognized by cross-reactive cytotoxic T cells.

Fine specificity of alloimmune cytotoxic T lymphocytes directed against H-2K. A study with Kb mutants

The fine specificity of alloimmune cytotoxic T lymphocytes (CTL) was investigated in CTL responses across the smallest known H-2 differences, those based on mutation at a single H-2 locus. CTL were generated in all possible mixed lymphocyte culture (MLC) combinations among seven H-2Kb mutants and the mouse strain of origin, C57BL/6 (B6-H-2b). CTL were also generated in all F1 hybrid responder/homozygous stimulator-cell combinations among four Kb mutants and B6-H-2b. CTL activity was measured in cell-mediated lympholysis (CML) against target cells from all Kb mutants and B6-H-2b. Cross-reactivity against targets other than the MLC stimulator was extensive and led to the distinction of 64 CML target determinants. Two Kb mutants (B6-H-2bm6 and B6.C-H-2bm9) showed identical typing for all 64 CML determinants. CML reactions after MLC between these two haplotypes were mutually negative. The mutants B6-H-2bm3 and B6.C-H-2bm11 showed identical typing for 47 of the 64 determinants. Their close relationship is in agreement with the finding that H-2bm3 anti-H-2bm11 CTL were the only ones that exclusively lysed target cells of stimulator-cell genotype. On the basis of CML typing, the sequence of relatedness of the mutants with H-2b is as follows: bm6/bm9-bm10-bm3-bm1-bm11, bm6/bm9 being the closest to, and bm11 the most distant from H-2b. The extensive cross-reactivity of alloimmune CTL appears to reflect immunogenetic complexity rather than lack of specificity. Comparison with other reports supports the notion that the system of Kb CML determinants, recognized by alloimmune CTL, is at least partially overlapping with the H-2Kb specificity repertoire involved in the associative T cell recognition of virus-infected cells.

Self H-2 antigens influence the specificity of alloreactive cells

We have tested Jerne's hypothesis (9) that the phenomenon alloreactivity is explained by the existence of T cells that express germline-encoded receptors specific for major histocompatibility complex antigens and that these cells undergo no change in specificity during thymic differentiation. T cells from [F1 leads to Parent] bone marrow radiation chimeras reactive to conventional antigens are known to have a self preference, i.e., [A X B leads to A] chimeras respond better to H-2A-plus-antigen than to H-2B-plus-antigen. We show here that alloreactive cells from such chimeras also have a self preference. Thus, H-2k-specific alloreactive T cells from [H-2b X H-2d leads to H-2b] and [H-2b X H-2d leads to H-2d] chimeras cross-react more on TNP-modified H-2b or H-2d targets, respectively. In contrast to Jerne's prediction, the results suggest that the receptor repertoire of alloreactive F1 cells is influenced by H-2 antigens on radiation-resistant cells present during T cell ontogeny. By this criterion of having a self preference in H-2 restriction, alloreactive T cells appear to be similar to T cells that respond to conventional antigens.