Human Immunodeficiency Virus Type 1 Replication,Immune Activation, and Circulating CytotoxicT Cells Against Uninfected CD4+ T Cells

Cytotoxic T lymphocytes (CTL) that kill uninfected activated CD4⁺ T cells can be induced in vitro by stimulating CD8⁺ T cells with activated autologous CD4⁺ T cells. Similar CTL have been detected in circulating T cells from human immunodeficiency virus type 1 (HIV)-infected individuals. To define the in vivo correlates of this CTL activity, we studied plasma -2 microglobulin and HIV RNA levels, T-lymphocyte subset counts, and expression of CD28 on CD8⁺ T cells concurrently with circulating CTL activity against uninfected CD4⁺ T cells in 75 HIV-infected individuals at different stages of disease progression. Mean values of each parameter were compared in subsets of this group of 75 segregated on the basis of this CTL activity. The group with CTL against uninfected activated CD4⁺ T lymphocytes had more CD8⁺ T cells, a higher percentage of CD28^– CD8⁺ T cells, and higher plasma levels of HIV RNA and -2 microglobulin. CTL against uninfected activated CD4⁺ T cells were predominantly CD28^– and in HIV-infected individuals were associated with immunological or virological evidence of progressive disease. In HIV infection, circulating CTL activity against uninfected activated CD4⁺ T lymphocytes is associated with immune activation, CD8⁺ T cell expansion, accumulation of CD28^– CD8⁺ T cells, and inadequate suppression of HIV replication.     

Distinct Phenotype of Unrestricted Cytotoxic T lymphocytes from Human Immunodeficiency Virus-infected Individuals

Introduction  

Human immunodeficiency virus (HIV)-infected individuals have CD8⁺ cytotoxic T lymphocytes (CTL) that kill activated uninfected T lymphocytes. These CTL are independent of class Ia human histocompatibility-linked leukocyte antigens (HLA-Ia).     

Increased expression of CD80, CD86 and CD70 on T cells from HIV-infected individuals upon activation in vitro: regulation by CD4+ T cells

T cells express CD28 and CD27 which transduce co-stimulatory signals after interaction with their ligands on antigen-presenting cells (APC). These ligands, CD80, CD86 and CD70, are also expressed to some extent on activated T cells. Here, we show that in human immunodeficiency virus (HIV)-infected individuals, CD28 and CD27 expression is decreased on CD8⁺ T cells. On the other hand, T cell stimulation in vitro induced high CD80, CD86 and CD70 expression on T cells from HIV-infected individuals. It appeared that an inverted CD4:CD8 T cell ratio could explain this enhanced expression of co-stimulatory ligands. Indeed, high expression levels of CD80, CD86 and CD70 were found on activated CD8⁺ T cells from HIV⁻ individuals cultured in the absence of CD4⁺ T cells. Addition of CD4⁺ T cells prevented this up-regulation. However, in HIV-infected individuals, addition of excess autologous or healthy control CD4⁺ T cells did not completely counteract up-regulation of co-stimulatory ligand expression on CD8⁺ T cells. Thus, to some extent, CD8⁺ T cells in HIV-infected individuals appeared to be refractory to CD4⁺ T cell-mediated regulation of ligand expression in vitro. Activated T cells from HIV-infected individuals and activated CD8⁺ T cells from healthy controls were able to act as accessory cells in CD3-induced T cell proliferation, which was dependent on cell-cell contact. Thus, we showed that T cells from HIV-infected individuals express enhanced levels of co-stimulatory ligands upon activation, which provides them with accessory cell properties. Enhanced stimulatory potential of these nonprofessional APC may contribute to persistently high levels of immune activation in HIV infection related to disease progression.     

CD8high(CD57+) T cells in normal,healthy individuals specifically suppress the generation of cytotoxic T lymphocytes to Epstein-Barr virus-transformed B cell lines

We have previously identified two subsets of CD8⁺, CD57⁺ lymphocytes in normal peripheral blood: i) T cells expressing high levels [CD8^high(CD57⁺)] and ii) natural killer cells expressing low levels of surface CD8 [CD8^low(CD57⁺)]. We investigated the cytotoxic and suppressive function of CD8^high(CD57⁺) T lymphocytes from normal, healthy individuals using standard chromium-release assays and limiting dilution analysis. In normal, healthy subjects, this cell subset suppressed the generation of cytotoxic T lymphocytes (CTL) to autologous, Epstein-Barr virus (EBV)-transformed B cell lines (BCL). Depletion of CD8^high(CD57⁺) T lymphocytes from peripheral blood mononuclear cells (PBMC) resulted in a three- to sevenfold rise in CTL precursor frequency to autologous EBV-transformed BCL, but not allogeneic PBMC or BCL by LDA. Replacement of CD8^high(CD57⁺) T lymphocytes in limiting dilution cultures led to the dose-dependent suppression of EBV-specific, but not allogeneic, CTL generation. Supernatant from CD8^high(CD57⁺) T lymphocytes cultured with autologous BCL did not exhibit suppression, suggesting that soluble factors were not responsible. As CD8^high(CD57⁺) T lymphocytes did not, themselves, exhibit cytotoxicity against autologous BCL, removal of BCL stimulator cells in co-culture was not the mechanism of suppression. Furthermore, while the CD8^high(CD57⁺) T lymphocytes from healthy subjects suppressed the generation of CTL to autologous BCL, they did not suppress the cytotoxic activity of established mixed lymphocyte reactions or peptide-specific CTL clones, as has been reported in bone marrow transplant recipients and human immunodeficiency virus patients. This suggests that CD8^high(CD57⁺) T lymphocytes from healthy subjects suppress the generation of, rather than killing by, CTL in a contact-dependent manner. To our knowledge, this is the first identification of a phenotypically distinct subset of human CD8⁺ T cells that can suppress generation of antigen-specific major histocompatibility complex class I-restricted CTL.     

The CD8+HLA‐DR+ T cells expanded in HIV‐1 infection are qualitatively identical to those from healthy controls

HIV‐induced immune activation leads to expansion of a subset of human CD8⁺ T cells expressing HLA‐DR antigens. Expansion of CD8⁺HLA‐DR⁺ T cells can be also observed in non‐HIV settings including several autoimmune diseases and aging. Although these cells are felt to represent “immune exhaustion” and/or to be anergic, their precise role in host defense has remained unclear. Here, we report that this subset of cells exhibits a restricted repertoire, shows evidence of multiple rounds of division, but lacks markers of recent TCR engagement. Detailed cell cycle analysis revealed that compared with their CD8⁺HLA‐DR^? counterpart, the CD8⁺HLA‐DR⁺ T‐cell pool contained an increased fraction of cells in S‐phase with elevated levels of the G2/M regulators: cyclin A2, CDC25C, Cdc2 (CDK1), indicating that these cells are not truly anergic but rather experiencing proliferation in vivo. Together, these data support a hypothesis that antigen stimulation leads to the initial expansion of a CD8⁺ pool of cells in vivo that undergo further expansion independent of ongoing TCR engagement. No qualitative differences were noted between CD8⁺HLA‐DR⁺ cells from HIV⁺ and HIV^? donors, indicating that the generation of CD8⁺HLA‐DR⁺ T cells is a part of normal immune regulation that is exaggerated in the setting of HIV‐1 infection.     

Direct recognition of LPS by human but not murine CD8+ T cells via TLR4 complex

LPS comprises a major PAMP and is a key target of the immune system during bacterial infection. While LPS can be recognised by innate immune cells via the TLR4 complex, it is unknown whether T lymphocytes, especially CD8⁺ T cells are also capable of doing so. We report here that naïve human CD8⁺ T cells, after activation by TCR stimulation, express surface TLR4 and CD14. These activated CD8⁺ T cells can then secrete high concentrations of IFN‐γ, granzyme and perforin in response to LPS. These effects can be specifically inhibited using siRNA for TLR4. Furthermore, LPS can synergise with IL‐12 to polarise the CD8⁺ T cells into cytotoxic T‐cell 1 (Tc1) that produce IFN‐γ but not IL‐4, with or without TCR activation. Moreover, CD8⁺CD45RO⁺ memory T cells constitutively expressed TLR4 and markedly enhanced IFN‐γ production when stimulated with LPS. In contrast, activated murine CD8⁺ T cells lack TLR4 and CD14 expression and fail to respond to LPS for proliferation and cytokine production. Thus, human but not murine CD8⁺ T cells are able to directly recognise bacterial LPS via LPS receptor complex and TLR4 provides a novel signal for the activation of effector and memory human CD8⁺ T cells.     

Switch from perforin-expressing to perforin-deficient CD8+ T cells accounts for two distinct types of effector cytotoxic T lymphocytes in vivo

Although CD8⁺ cytotoxic T lymphocytes (CTL) exhibit both Fas ligand (FasL) -based and perforin-based lytic activities, the accepted hallmark of a fully active CTL remains its perforin killing machinery. Yet the origin, rationale for possessing both a slow-acting (FasL) and a fast-acting (perforin) killing mechanism has remained enigmatic. Here we have investigated perforin expression in CTL directly involved in acute tumour (i.e. leukaemias EL4 and L1210) allograft rejection occurring within the peritoneal cavity. We show that at the height of the immune response, the majority of conjugate-forming CD8⁺ CTL express high levels of perforin messenger RNA and protein, and kill essentially via perforin. Later however, coinciding with complete rejection, fully cytocidal CTL emerge which exhibit a stark decrease in perforin and now kill preferentially via constitutively expressed FasL. Although late in emergence, and persistent, these powerful CTL are neither effector-memory nor memory CTL. This finding has implications for the monitoring of anti-transplant responses in clinical settings, based on assessing perforin expression in graft infiltrating CD8⁺ T cells. The results show that as the immune response progresses in vivo, targeted cellular suicide mainly prunes high perforin-expressing CD8⁺ cells, resulting in the gradual switch in effector CTL, from mostly perforin-based to largely Fas/FasL-based killers. Hence, two kinds of CD8⁺ CTL have two killing strategies.     

Generation of a novel CD8+ cytotoxic T lymphocyte that requires soluble factor to lyse autologous antigen-presenting cells

We reported the existence of high and low responders to the streptococcal cell wall antigen (SCW) in the human population. To analyze the mechanism of the low responsiveness to SCW at the cellular level, we established SCW-specific CD4⁺ T cell lines. During the course of generation of a SCW-specific CD4⁺ T cell line restricted by HLA-DQ from a low responder, we obtained autoreactive CD8⁺ cytotoxic T lymphocytes as a cell line (HYCD8). They proliferated in the presence of autologous monocytes and IL-2, without SCW. HYCD8 lysed autologous monocytes and Epstein-Barr virus-transformed B lymphoblastoid cell line (BLCL). This cytotoxic activity was specifically inhibited by an anti-HLA class I framework monoclonal antibody and restricted by HLA-B52 or B54 specificity, as judged by killing activity against panel cells and HLA class I-transfected BLCL. It was unique to HYCD8 that the HLA class I-restricted cytotoxicity was observed only in the presence of soluble factor with low molecular mass (< 10⁴ Da) produced mainly by B cells, which could not be replaced by known cytokines and their mixtures. We thus describe novel HLA class I-restricted cytotoxic CD8⁺ T cells that kill antigen-presenting cells in a soluble factor-dependent manner.     

gp120-induced programmed cell death in recently activated T cells without subsequent ligation of the T cell receptor

In most individuals, HIV infection is characterized by a progressive decline in the number of peripheral blood CD4⁺ T lymphocytes, and while the number of CD4⁺ cells is within the normal range, defects in immune function are detectable. To date neither the decline in function nor the decline in cell number have been satisfactorily explained. Here we describe a mechanism which may contribute to the immunodeficiency and decline in CD4⁺ cell numbers in HIV-infected individuals. We show that recently activated T cells are susceptible to apoptosis when exposed to HIV gp120 in the presence of anti-gp120 antibody.     

Characterization of the human CD4+ T‐cell repertoire specific for major histocompatibility class I‐restricted antigens

While CD4⁺ T lymphocytes usually recognize antigens in the context of major histocompatibility (MHC) class II alleles, occurrence of MHC class‐I restricted CD4⁺ T cells has been reported sporadically. Taking advantage of a highly sensitive MHC tetramer‐based enrichment approach allowing detection and isolation of scarce Ag‐specific T cells, we performed a systematic comparative analysis of HLA‐A*0201‐restricted CD4⁺ and CD8⁺ T‐cell lines directed against several immunodominant viral or tumoral antigens. CD4⁺ T cells directed against every peptide‐MHC class I complexes tested were detected in all donors. These cells yielded strong cytotoxic and T helper 1 cytokine responses when incubated with HLA‐A2⁺ target cells carrying the relevant epitopes. HLA‐A2‐restricted CD4⁺ T cells were seldom expanded in immune HLA‐A2⁺ donors, suggesting that they are not usually engaged in in vivo immune responses against the corresponding peptide‐MHC class I complexes. However, these T cells expressed TCR of very high affinity and were expanded following ex vivo stimulation by relevant tumor cells. Therefore, we describe a versatile and efficient strategy for generation of MHC class‐I restricted T helper cells and high affinity TCR that could be used for adoptive T‐cell transfer‐ or TCR gene transfer‐based immunotherapies.     

CD8<Superscript>+</Superscript>, HLA-unrestricted,cytotoxic T-lymphocyte line against malignant melanoma

A CD8⁺ cytotoxic T lymphocyte (CTL) line was derived from the peripheral blood mononuclear cells of a patient with primary melanoma. The CD8⁺ CTL line specifically lysed the autologous primary melanoma cells and not the natural killer cell-sensitive K562 cells or lymphokine activated killer cell-sensitive DAUDI cells. When a large panel of human leukocyte antigen (HLA)-matched and -unmatched allogeneic melanoma, glioma, breast and colorectal carcinoma cells was tested as targets in cytolysis assays, 4 HLA-matched and two HLA-unmatched allogeneic metastatic melanoma lines were lysed by the CD8⁺ CTL. Lysis of autologous and allogeneic melanoma cells was dependent on the effector-to-target cell ratio. Lysis of autologous melanoma cells was not blocked by anti-HLA class I or class II antibodies, confirming that the cytolytic activity of the CD8⁺ CTL was HLA-unrestricted. CTL lysis of autologous melanoma cells was CD3 (T cell receptor) dependent and FAS-FAS-L, and CD1 independent. Identification of the melanoma-associated antigen recognized by the HLA-unrestricted CTL may provide a vaccine for a broad population of melanoma patients.     

C-type lectin-like receptors in peptide-specific HLA class I-restricted cytotoxic T lymphocytes: differential expression and modulation of effector functions in clones sharing identical TCR structure and epitope specificity

C-type lectin-like inhibitory receptors are heterodimers consisting of CD94 and NKG2-A-B molecules expressed on NK cells and on a subset of activated T lymphocytes. Their inhibitory effects on NK cytotoxicity and on the NK-like activity of T cell clones have been demonstrated, but no data are currently available on antigen-specific class I-restricted cytotoxic T lymphocytes (CTL). We have generated a panel of HLA-A2.1-restricted CTL clones directed against a nonapeptide derived from a melanoma-associated antigen, dopachrome tautomerase (TRP-2). All clones were CD8⁺ and TCR α β⁺. About half of them expressed a CD94^bright phenotype, whereas the remaining were CD94^dim. Only the CD94^bright CTL expressed the NKG2-A-B gene, consistent with the expression of a C-type, lectin-like, inhibitory CD94/NKG2-A-B heterodimer. Both CD94^bright and CD94^dim clones appeared to require similar amounts of synthetic epitope sensitizing target cells. Addition of anti-CD94 mAb resulted in a significant increase of specific killing by CD94^bright, but not by CD94^dim clones in the presence of suboptimal concentrations of peptide, whereas, when optimal amounts were used, the mAb did not induce a significant modulation of the cytotoxicity. Antigen-induced inward [Ca²⁺]_i fluxes were unaffected, but an enhancement of TCR down-modulation could be observed in the presence of anti-CD94 mAb at high concentration of antigenic peptide. The analysis of the TCR-Vβ repertoire of the CTL clones by RT-PCR and immunofluorescence revealed that all clones regardless of CD94 phenotype shared Vβ22 expression. Most importantly, sequence analysis showed that they all expressed identical Vβ22 TCR rearranged with Jβ2.1 and Cβ2. Taken together, these data indicate that different expression of functionally active lectin-like inhibitory receptors can be detected in CTL clones sharing identical TCR sequence and peptide specificity.     

Derivation ofHerpesvirus saimiri-Transformed CD8+T Cell Lines with Noncytotoxic Anti-HIV Activity

Herpesvirus saimiri(HVS), strain 488-77, was used to derive continuously growing transformed human CD8⁺T cell lines that can suppress HIV replication in CD4⁺cells via the production of an antiviral factor(s). Transformed CD8⁺cell lines were obtained by HVS infection of peripheral blood mononuclear cells or purified CD8⁺T cells from HIV-infected or uninfected individuals. Suppression of primary or laboratory isolates of HIV was mediated by factor permeation of a transwell membrane or by cell-free culture supernatants. Suppressing and nonsuppressing cell lines were IL-2-dependent for good growth and showed a similar activated cell surface phenotype. The cell lines produced varying amounts of the cytokines IL-8, IL-10, TNF-α, TNF-β, RANTES, MIP-1α, and MIP-1β, but not IFN-α. No correlation was observed between the level of any of these cytokines and the presence or absence of antiviral activity in cell line culture supernatants. These cell lines have become an important resource for studying antiviral factors produced by CD8⁺T cells from HIV-infected individuals.     

Induction of peptide-specific primary cytotoxic T lymphocyte responses from human peripheral blood

Various protocols were developed and compared for eliciting specific cytotoxic T lymphocyte (CTL) cell lines from the unselected human peripheral blood mononuclear cells of naive donors. Interleukin-7 and CD4⁺ T cells primed in vitro by keyhole limpet hemocyanin were shown to act together in the generation of these responses. Primary responses were consistently induced with a variety of different HLA class I-binding malarial peptides. Primary CTL responses could be induced from unselected CD8⁺ and from CD45RA⁺CD8⁺ T cells. The CTL lines derived from these naive donors were CD8⁺ and demonstrated a high level of HLA class I-restricted killing for > 3 months after priming in vitro. They were also able to recognize and kill targets infected with a recombinant vaccinia virus containing the full-length antigen. In addition, this same protocol enhanced up to fourfold the levels of secondary CTL responses induced. The optimal method presented for naive cytotoxic T cell stimulation is simple, rapid and generally applicable and should provide a useful tool for both basic research and human therapy.     

TCR function analysis using a novel system reveals the multiple unconventional tumor-reactive T cells in human breast cancer-infiltrating lymphocytes

Tumor-infiltrating lymphocytes (TILs) are a potent source for obtaining tumor-reactive T cell receptors (TCRs). Although comprehensive methods to analyze the TCR repertoire in TILs have been reported, the evaluation system for TCR-reactivity to endogenously expressed antigen in tumor cells remains laborious and time consuming. Consequently, very limited numbers of TCRs in TILs have been analyzed for their reactivity to tumor cells. In this study, we developed an efficient evaluation system for TCR function designated c-FIT (c omprehensive f unctional i nvestigation of T CRs) to analyze TCR reactivity. The c-FIT system enabled us to analyze up to 90 TCRs for their reactivity to tumor cells by a single assay within a month. Using c-FIT, we analyzed 70 TCRs of CD8⁺ TILs derived from two breast cancer patients and obtained 23 TCRs that reacted to tumor cells. Surprisingly, although two TCRs were HLA class I-restricted, the remaining 21 TCRs were non-HLA-restricted. Thus, c-FIT can be applied for monitoring multiple conventional and unconventional antigen-specific killer T cells in TILs, leading to the development of new designs for more effective T-cell-based immunotherapies.     

The differential impact of natural killer (NK) cell education via KIR2DL3 and KIR3DL1 on CCL4 secretion in the context of in‐vitro HIV infection

Carriage of certain inhibitory natural killer (NK) cell receptor (iNKR)/HLA ligand pairs is associated with protection from infection and slow time to AIDS implicating NK cells in HIV control. NK cells acquire functional potential through education, which requires the engagement of iNKRs by their human leucocyte antigen (HLA) ligands. HIV infection down‐regulates cell surface HLA‐A/B, but not HLA‐C/E. We investigated how NK cell populations expressing combinations of the iNKRs NKG2A, KIR2DL3 (2DL3) and KIR3DL1 (3DL1) responded to autologous HIV infected CD4 (iCD4) cells. Purified NK cells from HIV‐uninfected individuals were stimulated with autologous HIV iCD4 or uninfected CD4 T cells. Using flow cytometry we gated on each of the 8 NKG2A^+/–2DL3^+/–3DL1^+/‐ populations and analysed all possible combinations of interferon (IFN)‐γ, CCL4 and CD107a functional subsets responding to iCD4 cells. Infected CD4 cells induced differential frequencies of NKG2A^+/–2DL3^+/–3DL1^+/– populations with total IFN‐γ⁺, CCL4⁺ and CD107a⁺ functional profiles. 2DL3⁺NKG2A⁺ NK cells had a higher frequency of responses to iCD4 than other populations studied. A higher frequency of 2DL3⁺ NK cells responded to iCD4 from individuals that were not HLA‐C1 homozygotes. These results show that 2DL3⁺ NK cells are mediators of HIV‐specific responses. Furthermore, responses of NK cell populations to iCD4 are influenced not only by NK cell education through specific KIR/HLA pairs, but also by differential HIV‐mediated changes in HLA expression.     

Cytotoxic T lymphocyte activity and CD8 subpopulations in children at risk of HIV infection.

HIV-specific cytotoxic T lymphocytes (CTL) are thought to play a major role in viral control in HIV-infected adults. Changes in the relative proportions of CD8 lymphocyte subpopulations are also thought to be associated with disease progression. Less is known about the relative effectiveness of CTL against different HIV targets, or about the relationship, if any, between CTL activity and CD8 subpopulations. We have measured CTL activity against four HIV gene products (gag, tat, pol and env) and expression of CD45RO, CD45RA, HLA-DR, CD29, S6F1, and CD57 surface markers on CD8 cells from nine HIV-infected and 11 HIV-uninfected children. Of nine HIV-infected children, six showed antigen-specific CTL activity on at least one occasion: 4/6 directed against tat, 6/6 against pol, 1/6 against env, and 1/6 against gag. However, the specificity of the CTL activity varied between children and within individual children with time. Furthermore, two uninfected children showed CTL activity, one to HIV-gag, -pol and -tat, and the other to HIV-pol. All the HIV-infected and two uninfected children had abnormal proportions of CD8 subpopulations in whole blood compared with age-matched controls. There was no correlation between CTL activity and CD8 subsets in whole blood. Five children changed from CTL-positive to CTL-negative (or vice versa) during the study. In these, the occasions when CTL activity was detected coincided with an increase in CD8 cells, an expansion of HLA-DR+ CD8 cells and a loss of CD45RA+ CD8 cells.     

Progressive loss of IL-2-expandable HIV-1-specific cytotoxic T lymphocytes during asymptomatic HIV infection

In HIV-1 infection, circulating HIV-1-specific cytotoxic T lymphocytes (CTL) exist in different states of activation, including activated cytotoxic cells and memory cells. We report that a subpopulation of HIV-1-specific CTL is capable of clonal expansion upon culture with IL-2 without exogenous antigen. The IL-2-expandable HIV-1-specific CTL precursor frequency was reduced in patients with advancing infection, although HIV-1-specific memory CTL could still be detected by stimulation in vitro with allele-specific HIV-1 peptide. Longitudinal analysis during advancing infection showed a progressive decline in the IL-2-expandable HIV-1-specific CTL precursor (CTLp) frequency without a decline in Epstein-Barr virus (EBV)-specific or allo-specific CTLp frequencies. To address mechanisms that may contribute to the decline in the IL-2-expandable HIV-specific CTL response, the requirements for in vitro generation of HIV-1-specific and EBV-specific effector CTL were examined. In the absence of exogenous IL-2 in limiting dilution, generation of EBV-specific CD8⁺ effector CTL was dependent upon help from CD4⁺ cells. CD4⁺ help for EBV-specific CD8⁺ CTL was observed in asymptomatic HIV infection but not in advanced infection. In the presence of exogenous IL-2, CD4⁺ cells could also provide help for the optimal generation of HIV-1 peptide-specific CD8⁺ CTL, because in vitro depletion of CD4⁺ cells prior to culture using stimulation with an MHC class I-restricted HIV-1 peptide reduced the peptide-specific CD8⁺ CTL response. We conclude that there is a decline in the IL-2-expandable HIV-1-specific CTL response during advancing infection. There are a number of possible mechanisms for this decline, including a reduction in CD4⁺ T cell help for in vivo antigen-activated CD8⁺ T cells.