Quantitative correlation between HLA class I allele expression and recognition of melanoma cells by antigen-specific cytotoxic T lymphocytes.

MHC class I antigen expression is necessary for CD8+ T-cell-mediated recognition of tumors. Recently, several mechanisms leading to loss or decreased expression of MHC antigens on the tumor cell surface have been described that may account for tumor escape from immune recognition. It is yet unknown whether tumor recognition by CTL occurs at a threshold amount of MHC molecules or correlates with the level of HLA-allele expression. In this study, a model was developed in which clones derived from the 624-MEL melanoma cell line and expressing varying amounts of HLA-A2 molecules were lysed in a standard 51Cr release assay by an HLA-A2-restricted CTL clone (A42) or a bulk culture of tumor-infiltrating lymphocytes. The A42 clone and the tumor-infiltrating lymphocyte culture were characterized previously as specifically recognizing the melanoma antigen MART-1(27-35) peptide. A marked heterogeneity in the susceptibility to lysis by A42 was observed in tumor clones and was not due to heterogeneous expression of MART-1 by the clones or loss of accessory molecules involved in the lymphocyte-target interaction. Lysis by A42 and by the tumor-infiltrating lymphocyte culture significantly correlated with the level of HLA-A2 expression, evaluated as mean channel number of fluorescence by flow cytometry (P < 0.001). Transfection of an HLA-A2-negative clone (624.28) with the HLA-A2.1 gene produced a panel of clones expressing different levels of HLA-A2, the lysis of which was highly correlated with the expression of HLA-A2 (P < 0.001). The addition of exogenous MART-1(27-35) peptide enhanced lysis of clones expressing intermediate amounts of HLA-A2 but did not affect clones with high expression. These data suggest that the number of HLA molecules present on the surface of tumor cells can quantitatively affect their lysis by CTL in situations with borderline amounts of peptide and/or MHC.

HLA antigens in childhood onset schizophrenia.

Evidence of immune system abnormalities in adult schizophrenia has prompted examination of the human leukocyte antigen (HLA) system. Childhood onset schizophrenia offers a unique opportunity to test neurodevelopmental hypotheses of schizophrenia, including those which implicate components of the immune system. In the present study, class I and II HLA antigens were typed using sequence-specific primers and the polymerase chain reaction in 28 childhood onset schizophrenics and 51 ethnically matched healthy subjects. Groups were compared for frequencies of HLA antigens reported to be associated with schizophrenia and/or autoimmune disorders. We hypothesized that antigen frequencies would differ between schizophrenic and healthy children, suggesting that some dimension of the neurodevelopmental disturbance experienced by these children may be mediated by subtle abnormalities of immune function. There were no significant differences between schizophrenic and healthy subjects in the frequency of any antigen tested. These findings do not support HLA-associated pathology in childhood onset schizophrenia.

High throughput HLA sequence-based typing (SBT) utilizing the ABI Prism 3700 DNA Analyzer.

AIMS AND BACKGROUND: The genetic complexity of the human major histocompatibility complex (MHC) has required the development of various molecular typing methods. The purpose of this paper is to compare the results of two of these molecular methods: sequenced based typing (SBT) and polymerase chain reaction (PCR) using sequence specific primers (PCR-SSP). METHODS: The SBT method described utilizes an ABI Prism 3700 DNA Analyzer, which has been designed fro high throughput production of sequence data through highly automated operation with significant walk-away time. The ABI Prism 3700 DNA Analyzer is a 96-capillary electrophoresis instrument with the capability of running four 96-well plates black to back in a sixteen-hour period. Potentially, data from this machine can produce Class I sequences for A or B loci for 64 samples in this time frame. The SBT method encompassed exons 2, 3, and 4 with forward and reverse sequence orientation reactions using the PE Biosystems HLA-A and HLA-B Sequenced Based Typing Kits (PE Applied Biopsystems/Perkin-Elmer, Foster City, CA, USA). Most SBT methods previously employed only gather data from exons 2 and 3 which distinguishes most of the polymorphism necessary to identify the majority of alleles in the HLA region. However, in an effort to discern numerous null alleles in the HLA region, exon 4 data is also included. The PCR-SSP method utilized consists of one 96 well tray, with 95 primer mixes and one negative control, per sample designed to produce an intermediate/high resolution HLA-A, B typing. RESULTS: Data from one 96-well capillary run on the ABI Prism 3700 DNA Analyzer, which consists of results from 16 samples for HLA-A or HLA-B loci, was compared to data derived from sixteen HLA-A and HLA-B PCR-SSP typings. 75% of loci tested achieved a higher resolution HLA typing by the SBT method. DISCUSSION: The ability to provide allele level HLA typing results can have significant functional implications for the bone marrow transplant community and numerous vaccine studies.

Tumor-infiltrating lymphocytes from human ovarian cancer patients recognize autologous tumor in an MHC class II-restricted fashion.

PURPOSE: To search for tumor-specific in vitro reactivity by lymphocytes derived from patients with ovarian carcinoma. METHODS: Tumor-infiltrating lymphocytes (TIL) were derived from primary or metastatic solid tumors and tumor-associated lymphocytes (TAL) were derived from ascites from 13 patients with ovarian cancer. TIL or TAL were cultured for approximately 30 to 60 days and studied for phenotype, cytotoxicity, and cytokine secretion in response to autologous tumor stimulation. RESULTS: Twenty-nine bulk TIL or TAL cultures were successfully established from 10 patients using various culture conditions. Thirteen cultures were predominantly CD4+ and 16 were mainly CD8+. In contrast to reports by others, none of the cultures tested were specifically lyric for autologous tumor. Five predominantly CD4+ bulk TIL (from four patients) preferentially secreted tumor necrosis factor-alpha and granulocyte macrophage-colony stimulating factor when stimulated with autologous tumor and not when stimulated by autologous Epstein Barr virus-B cells, fibroblasts, peripheral blood mononuclear cells, or allogeneic HLA matched or mismatched stimulators. This cytokine secretion was found to be MHC class-II restricted in three patients because it was inhibited by the anti-MHC class-II antibody IVA12 and the HLA-DR specific antibody L243. CONCLUSION: We believe these data are the first to suggest that tumor reactive CD4+ lymphocytes exist in some ovarian cancer patients. This finding may be useful in the development of novel immunotherapies for these patients.

Enhancement of cellular immunity in melanoma patients immunized with a peptide from MART-1/Melan A.

PURPOSE: In this study, we tested the effectiveness of a melanoma-associated antigen-derived peptide, MART-1(27-35), in eliciting cellular immune responses in vivo in the context of a phase I active immunization protocol. This peptide (AAGIGILTV) corresponds to residues 27-35 from the nonmutated melanoma-associated antigen MART-1/Melan A and is recognized by most melanoma-specific, HLA-A*0201-restricted, tumor-infiltrating lymphocytes. To test the in vivo induction of cytotoxic T lymphocyte (CTL) sensitization, we compared CTL reactivity in vitro from peripheral blood mononuclear cell (PBMC) pools obtained before and after vaccination. PATIENTS AND METHODS: MART-1(27-35) was administered to HLA-A*0201 melanoma patients subcutaneously in an emulsification with incomplete Freund's adjuvant. A vaccination course included four inoculations of peptide at 3-week intervals. PBMC collected by leukapheresis and separated by Ficoll-Hypaque gradient before and after vaccination were analyzed in 18 patients by in vitro sensitization with MART-1(27-35). To induce MART-1(27-35)-specific CTL, PBMC were incubated with 1 microM peptide (on day 0) and interleukin-2 (IL-2) (300 IU/mL, on days 1 and 4 after each stimulation). At weekly intervals, cells were harvested and an aliquot was cryopreserved for later analysis. The remaining cells were replated and restimulated using irradiated autologous PBMC pulsed with 1 microM of relevant peptide. After three restimulations, all samples from one patient were tested simultaneously for HLA-A*0201-restricted anti-MART-1(27-35) reactivity by microcytotoxicity and cytokine (IFN-gamma) release assays. RESULTS: Toxicities were minimal and consisted of local irritation at the site of vaccine administration. None of the patients sustained a clinical response. The first eight patients were monitored by inducing CTL reactivity from PBMC obtained preimmunization and after two and four vaccinations. Only two prevaccination cultures were reactive to MART-1, compared with five and seven cultures from PBMC obtained after two and four vaccinations, respectively. Thus, an enhancement in cytotoxic activity could be detected in postvaccination CTL cultures, and serial vaccine administrations appeared to boost the detectability of cytotoxicity in vitro. For completeness, the analysis compared prevaccination with postvaccination PBMC cultures. Specific anti-MART-1(27-35) cytotoxicity (> or = 10 lytic units) could be detected in two prevaccination and 12 postvaccination cultures after two in vitro stimulations. In 15 postvaccination CTL cultures, a more than threefold increase in specific release of IFN-gamma was noted, compared with prevaccination. DISCUSSION: In vivo administration of a melanoma-associated antigen peptide, emulsified in incomplete Freund's adjuvant, could safely augment CTL reactivity against epitopes commonly expressed by melanoma cells. Although the enhancement of CTL reactivity did not achieve tumor regression, it is possible that the use of recombinant immunogens with increased immunomodulatory capabilities in future clinical trials could reach the threshold of CTL activation necessary for tumor regression.

High-resolution HLA-A*0201 subtyping using directed heteroduplex analysis.

HLA-A02* has become an important target for cytotoxic T lymphocyte-based immunotherapy reflecting the high prevalence of this allele in patient populations. There are at least 26 different A*02 alleles, and their subtype specificity has significant functional implications for T-cell-mediated recognition of immunologic targets. We have developed a novel method for HLA-A*02 allelic screening using directed heteroduplex analysis (DHDA). DNA samples from Epstein-Barr virus (EBV)-transformed B lymphoblastoid cell lines (EBV-B) representing 10 different HLA-A*02 alleles (0201, 0202, 0204, 0205, 0206, 0208, 0210, 0211, 0216, 0217) were prepared. In addition, DNA was prepared from 81 individuals representing a wide variety of A*02 subtypes previously determined by sequence specific primer (SSP) polymerase chain reaction (PCR) including individuals heterozygous for two A*02 specificities. Probes and samples were generated by PCR amplification using HLA-A*02 specific primers encompassing exons 2 and 3, where most of the functionally significant allelic polymorphism is clustered. DHDA was performed by generating heteroduplex molecules composed of a fluorescein-labeled allelic probe sequence and an unlabeled allelic PCR product. Gel retardation was consistent for allele-probe combinations. We were able to identify several A*02 alleles prepared from EBV-B cell lines that, when used as probes, had very impressive specificity and sensitivity. Combinations of two probes were identified (0205 + 0211 and 0208 + 0211) that allowed differentiation of A*0201 alleles from all other A*02 alleles tested. All samples typed by probe combinations had DHDA typing and SSP typing confirmed by DNA sequencing. This study expands the molecular typing repertoire available to the modern HLA laboratory, and shows that DHDA has significant promise as a reliable screening method for HLA A*02 subtyping.

Differences in frequency distribution of HLA-A2 subtypes between North American and Italian white melanoma patients: relevance for epitope specific vaccination protocols.

Cytotoxic T lymphocytes (CTL) associated in vivo with tumor regression recognize the product of nonmutated genes expressed by most melanoma cells as peptides bound to human leukocyte antigen (HLA) molecules. Multiple HLA-A*0201 restricted peptides derived from melanoma associated antigens (MAA) have been described, and peptide-based vaccination protocols against melanoma are being developed worldwide for the treatment of HLA-A2 melanoma patients based on the assumption that most serologically typed HLA-A2+ individuals will be suitable for such vaccinations. Serologic typing of HLA-A2, however, encompasses a family of at least 17 related alleles recognized by molecular typing techniques and differing at one or more functional residues of the HLA class I molecule. We have recently shown that naturally occurring single-residue variants of HLA-A*0201 are responsible for significant differences in CTL response to MAA-peptide stimulation. Existing data for HLA-A*02 subtype frequencies among whites (who are most affected by melanoma) derive from analyses of Northern European and North American populations that are of similar heritage and predict an exceedingly rare (< 5%) frequency of non-HLA-A*0201 alleles. Melanoma however, affects other white populations in which the prevalence of HLA-A*02 alleles could be more variable. This study was done to identify HLA-A*02 subtypes and their prevalence in two ancestrally different white melanoma populations. HLA-A*02 subtype frequencies were compared by polymerase chain reaction between serologically HLA-A2+ melanoma patients referred for treatment to the Istituto Nazionale Tumori of Milan (n = 93), Italy or the National Cancer Institute, Bethesda, MD, U.S.A. (n = 100). This analysis demonstrated differences in subtype specificity and distribution between the two populations, with a significantly higher percentage of non HLA-A*0201 subtypes in the Italian population. Only 2% of serologically HLA-A2+ Northern American white melanoma patients did not express HLA-A*0201. In contrast, 15% of HLA-A2+ Italian patients were not HLA-A*0201 (p2 value = 0.001). As allele-specific/peptide-based vaccination protocols are presently pursued at several institutions, a proportion of patients might be inappropriately enrolled basing their eligibility on serologically defined HLA-typing.