Class I-restricted presentation occurs without internalization or processing of exogenous antigenic peptides

Previous studies have shown that glutaraldehyde-fixed cells can present fragmented, but not native, Ag to class II-restricted T cells. This presumably occurs via direct binding of peptides to class II molecules at the cell surface. More recently, it has been shown that viable target cells can present peptides and endogenous, but not exogenous, protein Ag in association with class I MHC molecules to CTL. We have derived CTL specific for a chicken OVA peptide (OVA258-276) recognized in association with H-2Kb. These CTL recognize target cells that endogenously synthesize OVA and cells "loaded" with native OVA but fail to recognize target cells in the presence of exogenous native OVA. Thus, OVA must be intracellularly located to be processed and presented for CTL recognition. It remains unclear, however, whether exogenous peptides require internalization and further processing by target cells or are able to associate directly with class I molecules at the cell surface for CTL recognition. We provide evidence that glutaraldehyde-fixed cells can present synthetic peptides to H-2Kb- and H-2Db-restricted CTL and that such presentation does not require internalization or processing. The peptides used range in size from 16 to 48 amino acids in length. In contrast, glutaraldehyde-fixed cells are incapable of presenting Ag to CTL specific for influenza nucleoprotein and OVA if the cells are fixed within 1 h of viral influenza infection or loading with OVA. Thus, CTL recognition of antigenic peptides appears to occur via direct binding of peptides to class I molecules at the cell surface and does not require any intracellular processing events.     

Oligosaccharide-dependent and independent Qa-1 determinants

A contribution of N-linked oligosaccharides to determinants recognized by alloreactive cytotoxic T lymphocytes has not been demonstrated. Employing cloned CTL and tunicamycin, an inhibitor of protein glycosylation, we found that carbohydrate addition was required for the formation of two of six Qa-1 determinants. The other determinants were detectable on nonglycosylated Qa-1 molecules, similar to observations in most reports that allodeterminants on class I molecules are not dependent on glycosylation for serologic detection. Examination of TM-treated, Con A-activated lymphoblasts revealed a direct correlation between the determinants defined by the reactivity of CTL clones with target cells from four Qa-1 genotypes and their dependence on carbohydrate side chains for expression. Most anti-Qa-1b CTL clones recognized either a glycosylation-dependent determinant found only on Qa-1b cells or glycosylation-independent determinants on both Qa-1b and Qa-1c cells. Similarly, clones that killed only Qa-1a cells recognized a glycosylation-independent determinant. However, clones reactive with both Qa-1a and Qa-1d cells recognized a glycosylation-dependent determinant on Qa-1a molecules and a glycosylation-independent determinant on Qa-1d molecules. This result indicates that such clones recognize cross-reactive conformational determinants, not carbohydrate itself. Thus, N-linked oligosaccharides serve to stabilize the conformation of some Qa-1 determinants, but others remain intact on nonglycosylated molecules. The absence of similar data for H-2K/D/L molecules suggest that a reexamination of other class I antigens with cloned CTL is in order to determine whether Qa-1 molecules are unique.     

The use of tunicamycin to study the role of cell surface oligosaccharides in lymphocyte recognition

Cell surface N-linked sugars may play a role in target cell recognition by cytotoxic T lymphocytes (CTL). We have studied this role by treating tumor cell targets with tunicamycin, an effective inhibitor of N-linked glycosylation in mammalian cells. We determined a tunicamycin treatment protocol in which glycosylation was blocked and in which target cell killing by 5-day primary mixed lymphocyte reaction CTL was inhibited, yet in which cell viability was high and expression of major histocompatibility complex molecules was normal. It was found that tunicamycin-treated cells were killed only about one-half as well as untreated targets and that tunicamycin-treated target cells were less effective than untreated target cells as cold target competitors in cold target competition experiments. These observations suggest that for optimal killing, CTL require an interaction with the target cell that involves N-linked glycans on the target cell surface.     

The epitopes of influenza nucleoprotein recognized by cytotoxic T lymphocytes can be defined with short synthetic peptides

A proportion of cytotoxic T lymphocytes (CTL) responding to infection by influenza recognize target cells that express the viral nucleoprotein. Recent work showed that CTL can recognize short overlapping regions of large nucleoprotein fragments expressed in transfected L cells. This led to the suggestion that CTL recognize segmental epitopes of denatured or degraded proteins in a similar way to helper T cells. One corollary of this idea is that CTL should recognize appropriate short peptides on the target cell surface. We demonstrate that the epitopes of nucleoprotein recognized by CTL in association with class I molecules of the major histocompatibility complex in both mouse and man can be defined with short synthetic peptides derived from the nucleoprotein sequence.     

Receptor modulation and early signal transduction events in cytotoxic T lymphocytes inactivated by sensitive target cells.

In previous studies, we demonstrated that NK cells and lymphokine-activated killer cells were inactivated early in the lytic process by susceptible but not by resistant target cells (TC). We examined the functional status of human MHC-restricted CTL, after interaction with sensitive TC. Two CTL lines were generated in vitro by stimulation with irradiated PAMO, an EBV-transformed cell line. CTL were incubated for up to 4 h with an equal number of PAMO, then separated by a SRBC rosette assay. CTL lost greater than 60% of their lytic activity during the first 30 min of incubation, and greater than 90% by 4 h as assessed by their inability to lyse fresh TC. Inactivated CTL had 35% less serine esterase activity than did control CTL. IL-2 restored the lytic potential and serine esterase activity to normal values within 72 h. Exposure of CTL to PAMO for 4 h induced the modulation of 22 to 44% of TCR/CD3, CD4/CD8, and class I Ag from the cell surface. In contrast, the expression of CD69, and class II Ag increased and there was no change in the expression of CD2, CD28, or LFA-1 Ag. Furthermore, early metabolic events that usually follow CTL-ligand interaction such as phosphatidylinositol metabolism and transient increase in intracellular calcium, did not occur in inactivated CTL upon challenge with PAMO. PMA and the calcium ionophore A23187, restored cytolytic activity, indicating that protein kinase C can be activated and translocated in inactivated CTL. Our data suggest that TC-induced inactivation of CTL may be due to the modulation of key membrane molecules and the lack of certain secondary messengers involved in signal transduction.     

Role of de novo protein synthesis in target cells recognized by cytotoxic T lymphocytes specific for vesicular stomatitis virus.

The requirements for viral and host protein synthesis in the generation of target antigens for cytotoxic T lymphocytes (CTL) was evaluated by using vesicular stomatitis virus (VSV) inactivated by UV irradiation (UV-VSV). EL4 target cells incubated with UV-VSV were recognized and lysed by anti-VSV CTL, indicating that de novo synthesis of viral proteins was not required for the generation of antigens recognized by antiviral CTL. Anti-VSV CTL from H-2b mice primarily recognize determinants derived from the VSV N protein bound to the class I major histocompatibility complex (MHC) antigen H-2Kb. Comparison of a cloned CTL line representing this specificity and a heterogeneous population of anti-VSV CTL showed that determinants other than that recognized by the cloned CTL were generated more efficiently from UV-VSV. By using vaccinia virus recombinants that express deletion fragments of the N protein, it was shown that these additional determinants were probably derived from VSV proteins other than the N protein. The protein synthesis inhibitor emetine was used to determine whether newly synthesized host proteins were required for antigen generation. The addition of emetine to target cells prior to or at the time of the addition of UV-VSV inhibited lysis by anti-VSV CTL. This inhibition could be due to depletion of newly synthesized MHC molecules from intracellular membranes. This hypothesis was supported by using brefeldin A to delay membrane protein transport in target cells during the time of incubation with emetine and UV-VSV, which resulted in partial reversal of the effect of emetine. These results suggest that newly synthesized class I MHC molecules are required for the generation of antigens recognized by anti-VSV CTL.     

Inhibitory effect of herpes simplex virus infection to target cells on recognition of minor histocompatibility antigens by cytotoxic T lymphocytes

Target cell lysis by CTL specific for minor histocompatibility Ag (minor HA), which were generated in (C3H/He x BALB/c)F1 mice immunized with A/J mouse spleen cells, was dramatically reduced by infection of HSV to Neuro-2a (A/J mouse origin) cells as target. The reduction was apparent at 5 h after infection of HSV to target cells, when many viral proteins were produced in the cells. Conversely, MHC-restricted HSV-specific CTL-mediated cell lysis increased time dependently. Using an RNA virus, vesicular stomatitis virus, significant reduction of minor specific CTL-mediated target cell lysis was also found. During the time when this reduction of target cell lysis by HSV occurred, the surface expression of class I H-2Dd molecules was maintained, and anti-H-2a allo-MHC-specific CTL lysed HSV-infected Neuro-2a cells as strongly as uninfected Neuro-2a cells. When HSV-infected or uninfected Neuro-2a cells were treated with Brefeldin A that selectively blocks transportation of newly synthesized proteins out of endoplasmic reticulum, both HSV- and minor HA-specific CTL-mediated cell lyses were blocked. These observations demonstrated that minor HA are continuously synthesized and associated with class I molecules at pre-Golgi and transported via trans Golgi system with quick turnover, and that newly synthesized HSV Ag, which are also associated with class I molecules and transported via the same system, should take the place of intrinsic minor HA and be presented on the surface of the cells to be recognized by MHC-restricted CTL.     

Selective binding of concanavalin A to target cell major histocompatibility antigens is required to induce nonspecific conjugation and lysis by cytolytic T lymphocytes in lectin-dependent cytotoxicity

The exquisite immunological specificity of cytotoxic T lymphocytes-target cell (CTL-TC) conjugation and lysis is overridden in the presence of certain plant lectins. The role of concanavalin A (Con A) in lectin-dependent, CTL-mediated cytolysis (LDCC) has been investigated. Papain-treated TC are refractory to LDCC, but regain susceptibility following a 3-hr incubation without the enzyme. Papain-treated TC allowed to recover in the presence of tunicamycin (TM; an inhibitor of N-linked glycosylation), are totally refractory to LDCC. Refractoriness of TM-treated TC to LDCC is not due to an overall resistance to lysis or to lack of Con A binding, as these cells can be lysed by specifically sensitized CTL or by H-2 antibody and complement and display a sufficiently high Con A-binding capacity, indistinguishable from intact TC, probably through O-linked, cell-surface glycosyl residues. The finding that TC (TM-treated) capable of binding normal Con A quantities cannot, however, engage in lectin-dependent CTL-TC conjugation and lysis indicates that Con A must react selectively with a specific TC-surface component(s), thereby rendering the TC recognizable by effector CTL, rather than by simply bridging ("glueing") CTL and TC. Affinity absorption and elution from Sepharose-Con A beads as well as specific immunoprecipitations by antibodies against cell surface determinants, have shown effective Con A binding to TC surface components of molecular weights corresponding to 45-kDa product of the H-2K and D MHC genes and, possibly, to a 30-kDa component. Antibodies against MHC proteins but not against non-MHC surface proteins of the TC have produced effective inhibition of LDCC. This and previous investigations show that in nonspecific LDCC as in specific CTL-mediated lysis, TC-MHC determinants are involved in signaling TC recognition and lysis.     

A single amino acid substitution in an MHC class I molecule allows heteroclitic recognition by lymphocytic choriomeningitis virus-specific cytotoxic T lymphocytes

Class I molecules of the MHC bind foreign and endogenous peptides allowing recognition by the TCR on CTL. The recognition and killing of cells infected with lymphocytic choriomeningitis virus (LCMV) depends on the recognition of LCMV peptides bound to class I MHC. Mutations in class I MHC molecules have enabled the delineation of regions in the class I molecule important for binding peptides and for interaction with the TCR. We have constructed a library of class I mutants using saturation mutagenesis and report a phenotypic change resulting from a single amino acid substitution that results in the heteroclitic (increased) killing of LCMV-infected cells. This amino acid change, asparagine to serine at position 30, is in a conserved region of the class I molecule contacting the alpha 3 domain. This mutation does not result in increased expression of the class I molecule on the cell surface, does not affect the binding of CD8, and does not affect allogeneic recognition. Cold target experiments show that this heteroclitic killing is due to increased recognition by CTL. These data point toward a critical function for this region of the class I molecule in the binding of peptides or their presentation to CTL.     

Antigen recognition by T cells. Quantitative effects of augmentation by antibodies providing accessory interactions

Although engagement of the TCR via antibody can be sufficient to trigger T cells, responses to Ag-bearing cells require additional "accessory" interactions in many cases. A method has been developed which allows preparation of surfaces bearing both purified class I alloantigen and coimmobilized antibodies. With this approach, it is possible to mimic such "accessory" interactions and to examine their quantitative effects on triggering via TCR-Ag interaction. Experiments are described which use this approach to examine triggering of degranulation by cloned, allogeneic CTL lines. Coimmobilization of antibodies specific for any of a variety of CTL surface proteins, including CD8, class I MHC proteins, CD45 (T200) and Thy-1, had the effect of decreasing the critical threshold density of Ag necessary to trigger responses, and decreasing by an order of magnitude the density required to stimulate a half-maximal response. Furthermore, in comparison with the 30-min lag seen with Ag alone, response was initiated immediately when an antibody specific for a CTL surface component was present. These results are consistent with the hypothesis that any CTL surface molecule having sufficient affinity for a component of the target surface can contribute to activation via the Ag-specific TCR; and at low Ag density could determine whether any response occurs.     

Epitope recognition of conserved HIV envelope sequences by human cytotoxic T lymphocytes.

CTL constitute an essential part of the immune response against the HIV. CTL recognize peptides derived from viral proteins together with the MHC class I molecules on the surface of infected cells. The CTL response could be important in prevention or control of infection with HIV by destroying virus-producing cells. In this study we have attempted to identify peptide epitopes recognized by HIV-specific CTL. Using synthetic peptides, we have identified six conserved peptidic epitopes on the gp120 envelope glycoprotein recognized by polyclonal human CTL in association with HLA-A2 class I transplantation Ag. These results were confirmed by two approaches: i) blocking of CTL activities with antibodies specific for three of these conserved peptides; and ii) construction of doubly transfected P815-A2 target cells, using deletions of the HIV env gene. Vaccination or immunotherapy in HLA-A2 individuals can thus be considered using highly conserved HIV env peptidic sequences.     

Class I restricted interaction between suppressor and cytolytic cells in the response to minor histocompatibility antigens

Inoculation of 10(8) unirradiated, minor H antigen-incompatible spleen cells into recipients leads to a failure of the induction of cytolytic T lymphocytes (CTL) specific for these antigens. In contrast, a strong CTL response against minor H antigens is obtained when the inoculated cells are irradiated or treated with Thy-1-, Lyt-1- or Lyt-2-specific antibody and complement. Thus the failure of CTL induction is probably due to suppression mediated by radiosensitive, Lyt-1+2+ T cells in the immunizing inoculum. We demonstrate here that the inoculated cells must share class I MHC loci with the recipients for the suppression to occur. Thus, the interaction between the suppressor T (Ts) cells and their targets (presumably the CTL precursors) is restricted by class I molecules. A disparity at class II loci between the inoculated cells and the recipients overrides the class I-restricted suppression, possibly through a positive allogeneic effect. The simplest interpretation of the class I restriction of Ts cell-target cell interaction is that the CTL precursors recognize minor H antigens in the context of class I molecules on the surface of the Ts cells themselves.     

Function of the CD4 and CD8 molecules on human cytotoxic T lymphocytes: regulation of T cell triggering

The function of the T cell differentiation antigens CD4 (Leu-3/T4) and CD8 (Leu-2/T8) on human cytotoxic T lymphocytes (CTL) is presently seen only in conjugate formation between CTL and target cell via class II or class I MHC antigens rather than in the later killing steps. In this study, human CD4+ and CD8+ CTL clones were used to investigate the effects of monoclonal antibodies against these differentiation antigens on nonspecific triggering of cytotoxicity. Cytotoxicity was induced either by antibodies against the CD3 (T3) antigen or by the lectins Con A and PHA. Anti-CD4 or anti-CD8 antibodies specifically inhibited all types of cytotoxicity of CD4+ or CD8+ CTL, respectively, regardless of the specificity of the CTL for class I or class II HLA antigens and regardless of whether target cells expressed class I or class II antigens. These results are incompatible with an exclusive role of the CD4 and CD8 molecules in MHC class recognition and are discussed with respect to a function as negative signal receptors for these molecules on CTL.     

Using the natural evolution of a rotavirus-specific human monoclonal antibody to predict the complex topography of a viral antigenic site

Background

Immunity against the bovine protozoan parasite Theileria parva has previously been shown to be mediated through lysis of parasite-infected cells by MHC class I restricted CD8⁺ cytotoxic T lymphocytes. It is hypothesized that identification of CTL target schizont antigens will aid the development of a sub-unit vaccine. We exploited the availability of the complete genome sequence data and bioinformatics tools to identify genes encoding secreted or membrane anchored proteins that may be processed and presented by the MHC class I molecules of infected cells to CTL.

Results

Of the 986 predicted open reading frames (ORFs) encoded by chromosome 1 of the T. parva genome, 55 were selected based on the presence of a signal peptide and/or a transmembrane helix domain. Thirty six selected ORFs were successfully cloned into a eukaryotic expression vector, transiently transfected into immortalized bovine skin fibroblasts and screened in vitro using T. parva-specific CTL. Recognition of gene products by CTL was assessed using an IFN-γ ELISpot assay. A 525 base pair ORF encoding a 174 amino acid protein, designated Tp2, was identified by T. parva-specific CTL from 4 animals. These CTL recognized and lysed Tp2 transfected skin fibroblasts and recognized 4 distinct epitopes. Significantly, Tp2 specific CD8⁺ T cell responses were observed during the protective immune response against sporozoite challenge.

Conclusion

The identification of an antigen containing multiple CTL epitopes and its apparent immunodominance during a protective anti-parasite response makes Tp2 an attractive candidate for evaluation of its vaccine potential.     

TAP-independent presentation of CTL epitopes by Trojan antigens

The majority of CTL epitopes are derived from intracellular proteins that are degraded in the cytoplasm by proteasomes into peptides that are transported into the endoplasmic reticulum by the TAP complex. These peptides can be further processed into the optimal size (8-10 residues) for binding with nascent MHC class I molecules, generating complexes that are exported to the cell surface. Proteins or peptides containing CTL epitopes can be introduced into the cytoplasm of APCs by linking them to membrane-translocating Trojan carriers allowing their incorporation into the MHC class I Ag-processing pathway. The present findings suggest that these "Trojan" Ags can be transported into the endoplasmic reticulum in a TAP-independent way where they are processed and trimmed into CTL epitopes. Furthermore, processing of Trojan Ags can also occur in the trans-Golgi compartment, with the participation of the endopeptidase furin and possibly with the additional participation of a carboxypeptidase. We believe that these findings will be of value for the design of CTL-inducing vaccines for the treatment or prevention of infectious and malignant diseases.     

Inhibition of class I and class II MHC-restricted antigen presentation by cytotoxic T lymphocytes specific for an exogenous antigen.

Ag in the extracellular fluids can be internalized, processed, and presented in association with class I MHC molecules on specialized APC in normal spleen. We examine the fate of these APC after they present Ag to a CTL. When splenocytes present exogenous OVA to CTL, their ability to subsequently present native Ag in association with both class I and class II molecules is inhibited. CTL do not inhibit the ability of splenocytes to present processing independent peptides with class I or class II molecules. Inhibition of Ag presentation is only observed in the presence of the specific Ag recognized by the CTL. This inhibition is MHC-restricted. In the presence of specific Ag, CTL inhibit the ability of APC to present unrelated Ag. However, bystander APC are not affected by activated CTL. Taken together these results indicate that when APC present exogenous Ag to CTL, they are inhibited or killed. The CTL that mediates this activity has a conventional CD4-CD8+ phenotype and utilizes a TCR-alpha beta. The potential significance of these findings and their possible relationship to phenomena associated with Ts cells are discussed.     

T cell recognition of nonpolymorphic determinants on H-2 class I molecules

Recognition of polymorphic determinants on class I or class II MHC Ag is required for T lymphocyte responses. Using cell-size artificial membranes (pseudocytes) bearing H-2 class I Ag it is demonstrated that T cells can, in addition, recognize nonpolymorphic determinants on class I proteins. Pseudocytes bearing class I alloantigen stimulate in vitro generation of secondary allogeneic CTL responses. At a suboptimal alloantigen surface density, incorporation of class I molecules identical to those of the responder cells (self-H-2) or from third-party cells resulted in dramatically enhanced responses, whereas incorporation of class II proteins had no effect. The receptor that mediates recognition of conserved class I determinants has not been identified, but results of antibody blocking studies are consistent with the Lyt-2/3 complex of CTL having this role. Thus, class I proteins on Ag-bearing cells can have two distinct roles in T cell activation, one involving recognition of polymorphic determinants by the Ag-specific receptor and the other involving recognition of conserved determinants.     

Unexpected cell surface labeling in conjugates between cytotoxic T lymphocytes and target cells

Specific binding of target cells by cytotoxic T lymphocytes (CTL) is an example of tight interaction between two different cell types. The molecular events that occur at the cell membranes during these interactions are largely unknown. In the present report, we describe an electron microscopic immunostaining study made on CTL-target cell conjugates. Various membrane structures were labeled with monoclonal antibodies specific for structures possibly relevant to cytolysis (Lyt-2, LFA-1, and target cell class I major histocompatibility antigens) or probably unrelated to the cytolytic process (effector cell class I major histocompatibility antigens). Antibodies against Thy-1 were also used. Staining was achieved with immunoperoxidase or immunoferritin. With both techniques nonconjugated cells were either stained or not, depending on whether they bore the antigen corresponding to the antibody used. However, when conjugated to an antigen-bearing cell, a "non-antigen bearing" cell was labeled near the cell interaction area. No increased Fc receptor activity could be detected on bound cells near the interaction area. These data are consistent with the occurrence of limited exchange of membrane macromolecules between bound CTL and target cell.     

Induction of HPV16 capsid protein-specific human T cell responses by virus-like particles

It has been postulated that upon binding to a cell surface receptor, papilloma virus-like particles (VLPs) gain entry into the cytosol of infected cells and the capsid proteins L1 and L2 can be processed in the MHC class I presentation pathway. Vaccination of mice with human papilloma virus-like particles consisting of capsid proteins L1 and L2 induced a CD8-mediated and perforin dependent protective immune response against a tumor challenge with human papilloma virus transformed tumor cells, which express only minute amounts of L1 protein. Here we show that HPV16 capsid proteins stimulate a MHC class I restricted CTL response with human peripheral blood lymphocytes (PBL) in vitro. The vigorous response was specific for VLP-infected target cells and was MHC class I restricted. Moreover we show the presence of at least one HLA-A*0201 restricted CTL epitope within the HPV-16 capsid proteins by using a VLP-'infected' HLA-A*0201 transfected human cell line as target cells. These results demonstrated that VLPs can induce a HPV16 capsid protein-specific immune response in humans, allowing the monitoring of immune responses induced by vaccines based on chimeric VLPs carrying additional immunogenic peptides or proteins in therapeutical applications in human patients.