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

Chemokine-mediated immune responses in the female genital tract mucosa

The genital tract mucosa is the site where sexually transmitted infections gain entry to the host. The immune response at this site is thus critical to provide innate protection against pathogens that are seen for the very first time as well as provide long-term pathogen-specific immunity, which would be required for an effective vaccine against sexually transmitted infection. A finely regulated immune response is therefore required to provide an effective barrier against pathogens without compromising the capacity of the genital tract to allow for successful conception and fetal development. We review recent developments in our understanding of the immune response in the female genital tract to infectious pathogens, using herpes simplex virus-2, human immunodeficiency virus-1 and Chlamydia trachomatis as examples, with a particular focus on the role of chemokines in orchestrating immune cell migration necessary to achieve effective innate and adaptive immune responses in the female genital tract.

Herpes simplex virus infection of human fibroblasts and keratinocytes inhibits recognition by cloned CD8+ cytotoxic T lymphocytes

CD8+ cytotoxic T lymphocytes (CTL) clones with specificity for herpes simplex virus (HSV) were derived from two donors with genital HSV-2 infection. These CTL clones specifically lysed HSV-infected autologous B lymphoblastoid cells, but not HSV-infected fibroblasts. Exogenous peptide loading sensitized both cell types to lysis by an HSV-specific CTL clone of known specificity. HSV infection rendered fibroblasts refractory to peptide sensitization. HSV infection also rendered fibroblasts and keratinocytes insensitive to lysis by allospecific CD8+ CTL clones. Lysis of B lymphoblastoid cells in this system was only slightly reduced by HSV infection. Reduction of fibroblast allospecific lysis was dose and time dependent and was blocked by acyclovir, indicating the involvement of a late HSV gene product. HSV caused a reduction of fibroblast cell surface HLA class I antigen, at least in part due to reduction of synthesis of heavy chain-beta 2 microglobulin heterodimers. These results suggest that HSV-induced blockade of antigen presentation by cutaneous cells to CD8+ CTL may be a mechanism by which HSV limits or evades the immune response of the host.

Herpes simplex virus-infected human fibroblasts are resistant to and inhibit cytotoxic T-lymphocyte activity

We examined the ability of human anti-herpes simplex virus (HSV) cytotoxic T lymphocytes (CTL) to lyse autologous human fibroblasts infected with HSV. In contrast to HSV-infected human Epstein-Barr virus-transformed B cells (LCL), which were lysed by HLA-restricted anti-HSV CTL, autologous fibroblasts infected with HSV were resistant to lysis. This resistance was not due to a lack of infectivity or production of HSV proteins since greater than 90% of the cells were infected and expressed abundant levels of viral proteins. HSV-infected human fibroblasts were also tested for susceptibility to lysis by alloantigen-specific CTL. Although allogeneic LCL and uninfected allogeneic fibroblasts were killed, human fibroblasts infected with HSV demonstrated a time-dependent resistance to lysis by alloantigen-specific CTL. HSV-infected human fibroblasts were not resistant to all forms of cell-mediated cytotoxicity since they were sensitive to antibody-dependent cellular cytotoxicity. Although one may suspect that the resistance of HSV-infected human fibroblasts to anti-HSV CTL and alloantigen-specific CTL-mediated lysis was due to a lack of major histocompatibility complex expression, Confer et al. (Proc. Natl. Acad. Sci. USA 87:3609-3613, 1990) previously demonstrated that incubation of human natural killer and lymphokine-activated killer cells with monolayers of human fibroblasts infected with HSV "disarmed" the killers in that they were unable to lyse sensitive target cells. We extend their results and show that incubation of anti-HSV CTL or alloantigen-specific CTL with uninfected fibroblasts did not affect their lytic activity, whereas CTL incubated with HSV-infected fibroblasts for 2 to 6 h rendered the CTL incapable of lysing their normally sensitive target cells. Indeed, human fibroblasts infected for merely 2 h with HSV were able to profoundly inhibit the cytotoxic activity of alloantigen-specific CTL. Thus, HSV-infected human fibroblasts are not inherently resistant to lysis by anti-HSV CTL or alloantigen-specific CTL, but rather contact of CTL with HSV-infected fibroblasts resulted in inactivation of the CTL. The inactivation of CTL appears to be HSV specific since incubation of alloantigen-specific CTL in sandwich assays with fibroblasts infected with HSV type 1 (HSV-1) or HSV-2 resulted in inactivation, whereas incubation of CTL with fibroblasts infected with adenovirus or vaccinia virus had no effect. Further, although incubation of alloantigen-specific CTL in sandwich assays with HSV-infected fibroblasts resulted in inhibition of CTL activity, exposure of CTL in Transwell cultures to cell-free supernatant from HSV-infected fibroblasts did not mediate this inhibitory effect.(ABSTRACT TRUNCATED AT 400 WORDS)

Herpes simplex virus-1-specific human cytotoxic T lymphocytes are induced in vitro by autologous virus-infected mononuclear cells

A new technique for in vitro activation of cytotoxic T lymphocytes (CTLs) specific for herpes simplex virus type 1 (HSV-1) is described. Autologous phytohemagglutinin (PHA)-activated, HSV-1-infected peripheral blood mononuclear cells (PBMC) were used, after fixation with 1% paraformaldehyde, to activate virus-specific CTLs in short-term cultures. The same unfixed PBMC were used as target cells in the cytotoxicity assay. By using this technique high levels of HSV-1-specific cytotoxic activity (50.06 +/- 16.76% at 30:1 effector:target ratio) were repeatedly obtained in 24 experiments using PBMC from 16 HSV-1 antibody-positive healthy donors, while no cytotoxic activity was observed using PBMC from 3 HSV-1 antibody-negative donors. HSV-1-induced CTLs were shown to be virus-specific as they did not lyse autologous, PHA-activated PBMC infected with influenza A virus or autologous Epstein-Barr virus (EBV) lymphoblastoid cell line (LCL), while they were able to lyse both HSV-1-infected, autologous PHA-activated PBMC and EBV-LCL. HSV-1-specific cytotoxicity was mediated by T lymphocytes, since depletion of CD3-positive cells from the effector population completely removed the killing of HSV-1-infected target cells. CD8-positive CTLs were primarily involved in the killing of HSV-1-infected targets since depletion of CD8-positive cells caused a strong reduction of virus-specific cytotoxic activity while elimination of CD4-positive lymphocytes increased killing capacity. Finally, this technique has proven to be highly reproducible, easy to perform, and thus suitable for clinical investigations.

Varicella-zoster virus-specific cytotoxic T lymphocytes (Tc): detection and frequency analysis of HLA class I-restricted Tc in human peripheral blood

The cytotoxic T-cell (Tc) response to varicella-zoster virus (VZV) is incompletely characterized. We investigated whether VZV-specific Tc restricted by class I products of the major histocompatibility complex can be generated from the peripheral blood of VZV-immune donors. Cell lines were established from peripheral blood lymphocytes (PBL) of seropositive donors by secondary in vitro restimulation. If cell-free VZV was used as the stimulating antigen, the resulting lines were predominantly CD4+ and did not show class I-restricted cytotoxicity; when autologous infected fibroblasts were used for in vitro stimulation, the resultant lines were usually cytotoxic, although in only 4 of 11 subjects tested was this cytotoxicity HLA restricted and virus specific. PBL were also tested for Tc activity without prior restimulation; VZV-specific Tc activity was only demonstrable in the PBL of a subject convalescent following zoster but not from subjects with recent varicella infection or from normal subjects. VZV-specific Tc precursor frequencies were then determined in six selected subjects by limiting-dilution analysis. A measurable frequency was detectable in four of the six seropositive subjects, ranging from 11/10(6) T cells in an asymptomatic carrier, to 63/10(6) T cells in a subject with recent zoster. We conclude that virus-specific major histocompatibility complex class I-restricted Tc precursors may be present in the peripheral blood of normal individuals seropositive for VZV but at a frequency lower than that for other herpesviruses with nonneuronal sites of latency.

Bovine peripheral blood leukocyte subpopulation dynamics following a primary bovine herpesvirus-1 infection

Population dynamics of bovine peripheral blood leukocyte subpopulations were quantitated following a primary bovine herpesvirus-1 (BHV-1) infection. Percoll isolated peripheral blood mononuclear cell (PBMC) subpopulations were analyzed using flow cytometry (FC) and cytochemical stains. Between days two to eight post-infection (PI) there was a significant decrease in the percentage of T-cells and nonT/nonB cells which was accompanied by an increased percentage of B-cells and monocytes. These percentages were extrapolated to the number of Percoll isolated PBMC during this period. A decrease in the T-cell population was the primary cause of the observed lymphopenia and a relative increase in the percentage of B-cells. The increased percentage of monocytes was caused by an increased number of circulating monocytes. These monocytes were characterized by an increase in Fc receptor expression, a decrease in plastic and Sephadex-G10 adherence and no apparent change in the level of class II MHC antigen (Ia) expression. Serum cortisol was significantly elevated on day 2 PI and may have been responsible for both the reduction in circulating T-cells and a decrease in the in vitro viability of peripheral blood lymphocytes. The percentage of Ia positive PBMC was increased significantly on day 4 PI. However, on days 4 and 6 PI the summated percentages of monocytes and B-cells (total Ia expressing population) exceeded significantly the actual percentage of Ia positive cells. This apparent suppression of Ia expression did not coincide with the elevated serum prostaglandin E2 concentrations on days 8 and 10 PI.

Cellular interactions in the lysis of varicella-zoster virus infected human fibroblasts

The in vitro lysis of varicella-zoster virus (VZV) infected human fibroblasts by blood mononuclear cells (MNC) is inhibited by cyclosporin A, whether or not the effector and target cells chare HLA A or B antigens. Interleukin 2 (IL-2) reversed the inhibition by cyclosporin A (CyA) and also induced a further increase in target cell lysis by MNC in the absence of CyA. MNC depleted of OKM-1+ or Leu-11+ cells showed reduced lysis of VZV infected fibroblasts and this reduction was not overcome by adding IL-2. Depletion of monocytes from the MNC effectors reduced target cell lysis and this effect was reversed by adding Interleukin 1 (IL-1). The results indicate that NK cells contribute to the lysis of VZV infected cells and suggest that IL-2 release by T cells, as a result of HLA matching or antigen representation, may amplify this mechanism.

Lysis of varicella zoster virus infected cells by lymphocytes from normal humans and immunosuppressed pediatric leukaemic patients

Varicella zoster virus (VZV) is an important cause of morbidity and mortality in immunosuppressed children but little is known of the cellular mechanisms of VZV immunity. We therefore developed a clinically applicable system to study responses to VZV infected cells. Fresh blood mononuclear cells (MNC) from VZV immune donors killed VZV infected fibroblasts in an 18 h 51Cr release assay. The specificity for virus was confirmed by cold target inhibition. An enhancing role for HLA matching was demonstrated using targets mismatched for HLA, and blocking by antibodies to HLA framework and T cell subsets. Cytotoxicity was not blocked with anti-Ia or anti-VZV antibodies. Killing of VZV infected target cells was reduced in seven out of nine VZV antibody positive patients in remission who were receiving maintenance treatment for acute lymphocytic leukaemia. Three of these patients had normal lymphocyte proliferative responses to VZV. Of the two patients with normal cytotoxic responses to VZV, one had reduced proliferation. It therefore appears that presence of VZV antibody, T cell proliferative responses, and cytotoxicity are independently variable. Cytotoxicity may be more susceptible to immunosuppression than either antibody or T cell proliferation.

Use of bone marrow fibroblasts to prepare targets for an HLA restricted-cytotoxicity assay system

Methods are described for obtaining and growing fibroblasts from bone marrow for use as virus-infected targets. Fibroblasts obtained at the time of routine marrow examination were maintained through 12 to 18 passages as confluent monolayers. Bone marrow fibroblasts could be infected with varicella-zoster virus, and these infected cells were suitable targets for a 51Cr-release cytotoxicity assay. Since these virus-infected cells retain their HLA-A and -B antigens, they are readily available to study the immune cells which mediate virus-specific cytotoxicity.