Gamma/delta T cell clones and natural killer cell clones mediate distinct patterns of non-major histocompatibility complex-restricted cytolysis.

Non-MHC-restricted killer cells are cytotoxic lymphocytes that can mediate cytolysis of most tumor targets without apparent selectivity and restriction by the MHC, particularly when activated with IL-2. These effector cells include predominantly NK cells and T cells expressing the TCR-gamma/delta. We found that TCR-gamma/delta-1+, delta TSC1-, BB3+, Ti gamma A+ T cell clones mediate a characteristic cytolytic pattern of non-MHC-restricted cytolysis that is markedly different from NK clones and alpha/beta T cell clones derived from the peripheral blood of the same normal individuals. The characteristic finding is that all BB3/Ti gamma A+ gamma/delta clones mediate strong cytolysis of Daudi cells but they do not lyse Raji cells. In contrast, NK clones from the same donors mediate strong cytolysis of both Daudi and Raji targets. Cytotoxicity by the gamma/delta clones on certain target cells such as Daudi and Molt 4 can be specifically inhibited by mAbs reactive against the TCR-gamma/delta. Therefore, the TCR-gamma/delta on these clones either directly recognizes target epitopes on some tumor targets or it is involved in the regulation of their cytotoxic function. The expression of TCR-gamma/delta products reacting with the BB3 and Ti gamma A mAbs reflects the usage of identical TCR-gamma/delta V region genes that appear to be associated with the characteristic pattern of non-MHC-restricted cytotoxicity displayed by this major subset of human peripheral blood gamma/delta cells.

Recognition by human V gamma 9/V delta 2 T cells of a GroEL homolog on Daudi Burkitt's lymphoma cells.

All human gamma delta T cells coexpressing the products of the variable (V) region T cell receptor (TCR) gene segments V gamma 9 and V delta 2 recognize antigens from mycobacterial extracts and Daudi cells. Exogenous and endogenous ligands on the cell surface, homologous to the groEL heat shock family, induced reactivities that resembled superantigen responses in this major subset of human peripheral blood gamma delta T cells. Stimulation of human V gamma 9/V delta 2 T cells is not restricted by human leukocyte antigens (HLA), including nonpolymorphic beta 2-microglobulin (beta 2M)-associated class Ib molecules. These data may be important for understanding the role of gamma delta T cells in autoimmunity and in responses to microorganisms and tumors.

Partial break in tolerance of NKG2A-/LIR-1- single KIR+ NK cells early in the course of HLA-matched, KIR-mismatched hematopoietic cell transplantation.

Natural killer (NK) cell subpopulations from 8 HLA-matched but killer cell immunoglobulin-like receptor (KIR)/HLA-ligand-mismatched patient-donor pairs were analyzed in the course of allogeneic hematopoietic stem cell transplantation (HCT). The patients' post-transplantation NKG2A-/LIR-1- NK cells, which expressed only inhibitory KIRs for which the patient had no HLA class I ligands, showed higher cytotoxic capacity than the NKG2A-/LIR-1- NK cells lacking any inhibitory KIRs that remained tolerant throughout the course of HCT. The NKG2A+ NK cell subpopulations displayed the highest levels of cytotoxic activation, which appeared to be significantly enhanced in comparison with that in allogeneic graft's donors. LIR-1- NK cells were much more frequent after HCT than LIR-1+ NK cells and LIR-1 expression on NKG2A+ or NKG2A- NK cells was associated with significantly lower cytotoxic activities. Thus NKG2A-/LIR-1- NK cells expressing only HLA-mismatched KIRs show a partial break in tolerance in the first year following HCT. The failure to exclude LIR-1+ cells within the NKG2A- NK cell subset in previous studies could explain the earlier conflicting results. Thus systemic immune activation in patients following HCT augments the GvL effect through both increasing overall NK cell activities and partially breaking tolerance of unlicensed NK cells.

Stress responses to viral infection.

Virus infection leads to an increased production of stress proteins in the host. These appear to have two important roles: (1) facilitation of virus replication and assembly and (2) recognition by the immune system when expressed on virus-infected cells and consequent elimination of the infected cells.

Gamma/delta T lymphocytes in viral infections.

T lymphocyte progenitors differentiate into two distinct T cell lineages. Although the alpha beta and gamma delta T cell lineages resemble each other phenotypically and functionally, there are some striking differences. Some gamma delta T cells recognize, similarly to alpha beta T cells, peptides presented by major histocompatibility complex (MHC) proteins or MHC-like molecules. However, there are gamma delta T cells that recognize MHC molecules in a fundamentally different manner in comparison with alpha beta T cells. Also in contrast recognizing nonpeptide antigens. Most responses of gamma delta T cells appear to be directed against microbial pathogenic agents including bacteria, parasites, and viruses. In particular, the potent cytotoxic responses of gamma delta T cells against cells infected with, for example, herpesviruses or lentiviruses may be essential for the overall antiviral defense of vertebrates. The analysis of antiviral immunosurveillance by gamma delta T cells is crucial for understanding the unique biological role of this lymphocyte subset.

Gammadelta T cell activation or anergy during infections: the role of nonpeptidic TCR ligands and HLA class I molecules.

Vgamma9Vdelta2-encoded T cell receptors (TCR) expressed by most human peripheral blood gammadelta T cells mediate the recognition of nonpeptidic phosphoantigens from various pathogens without any known requirement for HLA molecules. Functionally mature Vgamma9Vdelta2 T cells display a potent natural killer (NK)-like cytotoxic activity, share with NK cells the expression of inhibitory receptors for HLA class I molecules, and release a plethora of cytokines, most notably interferon-gamma and tumor necrosis factor alpha. Hence, through local activation, the early recruitment and stimulation of Vgamma9Vdelta2 T cells may promote efficient anti-infectious immunity. However, a chronic overactivation of this T cell subset may result in immunopathology. The meeting held in St. Vincent, Val d'Aosta, Italy (symposium on gammadelta T cells in natural immunity to infections: a rationale for vaccine development organized by the World Foundation for AIDS Research and Prevention, the UNESCO, and the Italian National Research Council, December 2-4, 1996) focused on the importance of gammadelta T cell activation and anergy for the pathogenesis of tuberculosis, malaria, and HIV infections.

Natural T cell immunity to intracellular pathogens and nonpeptidic immunoregulatory drugs.

Natural T (NT) lymphocytes recognize infected cells or microbial compounds without the classical genetic restriction of polymorphic major histocompatibility complex (MHC) molecules. This innate recognition pathway results in a broad and rapid antimicrobial response that may be critical for controlling the spread of intracellular pathogens, requiring the elimination of the infecting agent from both extracellular spaces and host cells. NT cells are mainly composed of alphabeta and gammadelta T lymphocytes that express natural killer (NK) receptors and recognize preferentially various nonpeptidic antigens. Similar to NK cells, NT lymphocytes can 'see' and kill target cells deficient in the expression of one or more MHC class I molecules. NT cells expressing the alphabeta TCR can recognize lipid and lipoglycan antigens presented in the context of nonpolymorphic CD1 molecules, whereas phosphocarbohydrates and akilamines induce constitutive responses in most Vgamma9Vdelta2 NT lymphocytes. The remaining fraction of gammadelta NT cells express the Vdelta1 chain associated with different Vgamma-chains and may directly recognize self-antigens such as MICA, MICB or CD1 molecules. It is possible that NT lymphocytes may play two opposite roles during intracellular infections. First, in the acute phase, they may be critical for the initiation of pathogen elimination. Second, in the chronic phase, NT cells may be dangerous, if their potential autoreactivity is not well controlled. It is conceivable that novel strategies of immune intervention against emerging and re-emerging intracellular pathogens, such as human immundeficiency virus (HIV), hepatitis-C virus (HCV) and Mycobacterium tuberculosis (MTB) may involve the control of NT cell activation/anergy by (nonpeptidic) immunoregulatory drugs.

Innate T-cell immunity in HIV infection: the role of Vgamma9Vdelta2 T lymphocytes.

There is growing interest in the use of innate immune reactions in the therapy and prophylaxis of various diseases. Natural T (NT) lymphocytes that recognize infected cells or microbial compounds without the classical genetic restriction by polymorphic MHC molecules are crucial components of innate immunity. NT cells bearing the Vgamma9Vdelta2 T-cell receptor (TCR) are broadly reactive against intracellular pathogens, can lyse human immunodeficiency virus (HIV) infected cells, and release cytokines capable of regulating HIV replication. The potent antiviral activities of Vgamma9Vdelta2 T cells may help to contain viral spread during acute HIV infection and/or to prevent the establishment of viral persistence. Substantial changes in the composition and function of circulating gammadelta T-cell pools occur in HIV-infected patients. These changes a) may contribute to the etiopathogenesis of opportunistic infections and neoplasms, and b) are partly reversed by highly active anti-retroviral therapy (HAART). In addition to direct antiviral activities, activated gammadelta T cells influence dendritic cell maturation and the adaptive alphabeta T-cell response. Vgamma9Vdelta2 T cells can be stimulated in vivo and in vitro by various nonpeptidic antigens (NpAgs) and recent animal experimental data suggest that activated Vgamma9Vdelta2 T cells may help to control SIV replication. Currently, NpAgs are being assessed as potential therapeutic agents in AIDS, tuberculosis and certain cancers susceptible to Vgamma9Vdelta2 T-cell effector mechanisms.

Interleukin 2 and its receptor: structure, function and therapeutic potential.

In this review, salient molecular, biochemical and functional features of human interleukin 2 (IL-2), its membrane receptor, and its clinical relevance are outlined. We also describe experimental systems, where observed biological or pharmacological effects of IL-2 could be applied to corresponding clinical situations. In particular, IL-2 has been intensively studied in the context of cancer therapy. We discuss the rationale for the use of IL-2 in cancer treatment and our experience in this area. A better understanding of the IL-2 system and, specifically, the nature of signals transduced through it will allow us to manipulate the immune response in a variety of different ways, resulting in new approaches to investigation of immune responsiveness in general. This may have a profound impact on clinical medicine.

New hydroxyethylamine HIV protease inhibitors that suppress viral replication.

The synthesis of analogues of AcSerLeuAsn[Phe-HEA-Pro]IleValOMe (1, JG-365; where HEA stands for the hydroxyethylamine unit 2), a tight-binding inhibitor of HIVP, are reported. Systematic modification of the P3 and P3' regions of the inhibitors has led to smaller HIVP inhibitors that inhibit viral replication in HIV-infected and SIV-infected cell cultures. Six aliphatic and/or aromatic derivatives were prepared by replacing residues in the P3 regions of BocLeuAsn[Phe-HEA-Pro]IleValOMe. Aromatic side chains at P3 gave better inhibitors than aliphatic side chains. The better inhibitors in this series contained a beta-naphthylalanine or a biphenyl unit at P3. A second series of HIVP inhibitors were obtained by converting the P3 group into acyl groups. CbzAsn[Phe-HEA-Pro]IlePheOMe and Qua-Asn-[Phe-HEA-Pro]-Ile-Phe-OMe (where Qua = quinolin-2-ylcarbonyl) are potent HIVP inhibitors with Ki values equal to 1.0 and 0.1 nM, respectively. The inhibition constants were determined by using the continuous fluorometric assay developed by Toth and Marshall. The activities of the protease inhibitors for inhibition of SIV replication were determined in vitro using CEM x 174 cells. Inhibition of HIV infection was determined essentially as reported by Pauwels and co-workers. The anti-HIV assay was carried out in culture using CEM cells (a CD4+ lymphocyte line) infected with virus strain HTLV-IIIb with a multiplicity of infection of 0.1. Several analogues inhibited the cytopathic effect at concentrations of 0.1-0.8 microgram/mL. These results establish that good inhibitors of HIV protease that inhibit viral replication in infected lymphocytes in in vitro cell assays can be obtained from JG-365 when the AcSerLeu unit is replaced by aromatic acyl derivatives.

Macrophage electrophoretic mobility test as sensitive probe of transplantation immunity in mice.

Transplantation immunity was examined in mouse H-2- and non-H-2-disparate strain combinations by the macrophage electrophoretic mobility (MEM) assay. Lymph node cells from the recipients rejecting histoincompatible skin grafts were incubated in the presence of solubilized histocompatibility antigens prepared from spleens of the grafts donors. Product(s) of lymphocyte-antigen interaction in appropriate combinations (sensitized lymphocytes with the sensitizing antigen) significantly diminished the electrophoretic mobility of guinea pig macrophages in all of the histoincompatible strain combinations examined. The data indicate that transplantation immunity in mice can be detected by the MEM assay.

Retinyl acetate-mediated augmentation of resistance to a transplantable 3-methylcholanthrene-induced fibrosarcoma. The dose response and time course.

An otherwise conventional diet supplemented with retinyl acetate (vitamin A acetate; VAA) increased a specific antitumor resistance in vivo in mice, and this appeared to be due to the enhancement of immune functions rather than a direct antitumor activity. A range of VAA doses (up to 0.8 g VAA per kg of diet), fed for more than 6 months, did not induce any obvious signs or symptoms of hypervitaminosis A. The augmentation of resistance to transplanted tumor was linearly dependent on the dose of VAA. There was also a positive linear relationship between the resistance to transplanted tumor and the length of exposure to supplementary VAA relative to tumor inoculation time. The maximum resistance to transplanted tumor was observed in VAA-fed mice when the enrichment of the diet with VAA started three or more weeks before inoculation of tumor, whereas initiation of the VAA diet on the day of tumor administration or later had a negligible effect on the growth of tumor.

Mechanisms of simian gamma delta T cell cytotoxicity against tumor and immunodeficiency virus-infected cells.

The mechanisms of cytotoxic killing of various tumor cell lines and immunodeficiency virus-infected T cell lines by simian gamma delta T cells were examined. The lysis of the majority of the target cell lines by gamma delta effectors was calcium-dependent, indicating that cytotoxicity is mediated by the perforin/granzyme pathway rather than the Fas-FasL pathway, with the exception of Jurkat cells. The gamma delta T cells were able to suppress SIV replication as measured by the p27 ELISA and the suppression was contact-dependent. We further determined that the target cells were induced to undergo apoptosis by the gamma delta T cell effectors. These results contribute to our understanding of the function of simian gamma delta T cells and their similarities to human gamma delta T cells, and extend our knowledge on the cytotoxic mechanisms employed by gamma delta T cells in general.

Endogenous release of interferon-gamma and diminished response of peripheral blood mononuclear cells to antigenic stimulation.

The capacity of T lymphocytes to proliferate in response to stimulation and the amount of representative lymphokines produced in vitro often correlate with the immunocompetence of patients. However, direct and indirect measurement of endogenous interferon-gamma (IFN-gamma) brings some evidence that decreased in vitro production of IFN-gamma by T lymphocytes is associated with increased concentrations in vivo. The data indicate that both a functional inhibition of IFN-gamma and its continuous presence at high levels may result in hyporesponsiveness or unresponsiveness of immune cells. A possible role of IFN-gamma in the induction of tolerance is discussed.

Possible protective and pathogenic roles of gamma delta T lymphocytes in HIV-infections (Review).

alpha beta and gamma delta T lymphocytes are largely responsible for the specificity of coordinated immune responses that are of crucial importance for protection from exogenous invaders and elimination of endogenous aberrations. One of the prominent distinguishing characteristics of primate gamma delta T lymphocytes is that most of their T cell receptors for antigen (gamma delta TCRs) are, unlike alpha beta TCRs, capable of recognizing nonpeptidic antigens in an MHC-unrestricted manner. Another interesting feature is that the gamma delta T cell subpopulation displays profound qualitative and quantitative changes in individuals with various infectious diseases. For example, the most frequent human peripheral blood gamma delta T cell subset expressing Vgamma9Vdelta2 TCRs is functionally disabled and numerically decreased in some HIV-infected persons. The nonresponsiveness of Vgamma9Vdelta2 T cells is accompanied by their decreased IFNç and TNFá production. The overall level of gamma T cell activation at different stages of HIV-infection may be clinically relevant. At an initial stage of HIV-infection, the extremely potent antiviral cytotoxic activities of Vgamma9Vdelta2 T cells may limit the viral spread. At later stages of disease, Vgamma9Vdelta2 T cell dysfunction may contribute to the loss of resistance to opportunistic pathogens (such as atypical mycobacteria) and neoplasms (e.g., lymphomas) frequently associated with HIV-infections. Also, it is possible that chronic stimulation of gamma delta T cells may result in immunopathology. In particular, the massive immunologic activation that appears to be the major contributing element of AIDS immunopathogenesis could be, at least in part, driven by gamma delta T cells overstimulated by repetitive exposures to HIV.

Fas-dependent, activation-induced cell death of gammadelta cells.

Activated gammadelta T cells undergo apoptosis upon restimulation of their T cell receptor (TCR)/CD3 complex. We demonstrate that in these cells, the activation-induced cell death (AICD) is mediated by Fas and Fas ligand (FasL) interaction. The activated gammadelta T cells are prone to AICD initiated by exposure to mitogens, anti-TCR/CD3 antibodies, as well as specific antigens such as Daudi cells or ethylpyrophosphate (Etpp). Cells that have been activated twice, and consequently more susceptible to AICD than primary cells, display augmented tyrosine phosphorylation in comparison with control cells. These studies outline a mechanism that may regulate gammadelta T cell activities in immune responses and limit the expansion of activated T cells repeatedly exposed to antigens.

Human urinary bladder carcinoma cell line (T24) in long-term culture: chromosomal studies on a wild population and derived sublines.

Karyotype changes of human urinary bladder carcinoma T24 cell line were studied in the course of 5-year in vitro cultivation. It has been found that the modal number of chromosomes gradually shifted from hypotetraploidy to triploidy during long-term cultivation. The number of endoreduplications was decreasing simultaneously and minute chromosomes occurring in a number of 4--5 in early passages appeared only rarely in later passages. Using conventional Giemsa staining, persistent marker chromosomes were detected in the wild population as well as in the eight sublines derived from T24 cells by cloning. The marker chromosomes were: metacentrics, subtelocentrics, telocentrics and long acrocentrics. Occasionally, there were found dicentrics, double-minutes, breaks and pulverization. The most characteristic marker was the metacentric chromosome the length of which corresponded approximately to the arm length of the chromosome No. 1. The metacentric chromosome in a number of 1--3 was present in 100% of T24 cells of the wild population and derived sublines at all passage levels examined.

Cell surface adhesiveness of mouse sarcoma lines evaluated by latex particle adherence assay: correlation with growth behavior and electrophoretic mobility.

Using the latex particle adherence assay and five mouse sarcoma cell lines of the identical origin, etiology and genotype but differing in malignancy we attempted to correlate the degree of cell surface adhesiveness with growth behavior and electrophoretic mobility of cells. Higher tumorigenicity of four of the cell lines (Mc11--Mc14) was associated with lower cell surface adhesiveness and, conversely, lower malignancy of the fifth line (Mc15) with higher cell surface adhesiveness. No simple correlation or causal relationship was found among the electrophoretic mobility of the lines and other cellular characteristics.

A comparison of the macrophage electrophoretic mobility test and the leukocyte migration inhibition test in the detection of histocompatibility antigens on tumor cells.

Lymph node cells from mice sensitized by rejection of skin allografts were incubated in vitro with tumor cells carrying the sensitizing alloantigens. Products of the lymphocyte--antigen interaction released into the culture medium were simultaneously assessed by the macrophage electrophoretic mobility test and the leukocyte migration inhibition assay. Both macrophage slowing factor (MSF) and a factor which inhibited leukocyte migration (LIF) were produced. The release of both factors was detectable after comparable periods of incubation; their production was transient and ceased within 24 hours after it started.

The macrophage electrophoretic mobility assay in patients with renal cell carcinoma.

An antigen-induced release of a macrophage slowing factor (MSF) by peripheral blood lymphocytes was used to evaluate lymphocyte sensitization to various antigens in 21 patients with renal cell carcinoma (RCC) and in 14 control subjects. Sixteen of 21 patients with RCC, but no controls, were found to be sensitized to a soluble antigen prepared from an allogeneic kidney tumor by 3 M potassium chloride extraction. Peripheral blood lymphocytes from some patients with RCC displayed sensitization to protein isolates from fetal kidney (4 of 19), control "normal" kidney (4 of 21) and urinary bladder carcinoma (3 of 19) tissues. The results of macrophage electrophoretic mobility (MEM) measurements indicate that the MEM assay may provide a means of monitoring immune responses in patients with RCC. Further studies are needed to correlate the immune response detectable by the MEM test with the patient's prognosis.