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Query: UMLS:C0025202 (
melanoma
)
69,561
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Previous studies have indicated that most
HLA-A2
-binding peptides are 9 amino acid (aa) residues long, with a Leu at position 2 (P2), and a Val or Leu at P9. We compared the binding properties of different peptides by measuring the rate of dissociation of beta 2-microglobulin from peptide-specific
HLA-A2
complexes. The simplest peptide that we identified that could form
HLA-A2
complexes had the sequence (in single letter aa code) GLFGGGGGV, indicating that three nonglycine aa are sufficient for binding to
HLA-A2
. To determine whether most nonapeptides that contained Leu at P2 and Val or Leu at P9 could bind to
HLA-A2
, we tested the binding of nonapeptides selected from published HIV and
melanoma
protein sequences, and found that six of seven tested formed stable
HLA-A2
complexes. We identified an optimal antigenic undecapeptide from the cytomegalovirus gB protein that could form stable
HLA-A2
complexes that contained apparent anchor residues at P2 and P11 (sequence FIAGN-SAYEYV), indicating that the spacing between anchor residues can be somewhat variable. Finally, we tested the importance of every aa in the influenza A matrix peptide 58-66 (sequence GILGFVFTL) for binding to
HLA-A2
, by using Ala-substituted and Lys-substituted peptides. We found that multiple positions were important for stable binding, including P2, P3, P5-P7, and P9. We conclude that the P2 and P9 anchor residues are of prime importance for peptide binding to
HLA-A2
. However, other peptide side chains (especially at P3) contribute to the stability of the interaction. In certain cases, the optimal length for peptide binding can be longer than 9 residues.
...
PMID:Sequence motifs important for peptide binding to the human MHC class I molecule, HLA-A2. 133 Dec 39
Cytotoxic T lymphocytes (CTL), CD3+, alpha/beta T-cell-receptor-positive, are important effector cells with specific immunity in
melanoma
patients. The establishment and expansion in vitro of CTL of a specific phenotype to tumor cells strongly depends on the method of activation and sensitization with tumor cells. We generated CD3+ CTL lines to
melanoma
by co-culturing peripheral blood lymphocytes with autologous irradiated
melanoma
cells and repetitive stimulation with high-dose interleukin-4 in a "cocktail" culture medium. CTL lines were investigated for their specificity to kill autologous and allogeneic
melanoma
. Histocompatibility locus antigen (HLA) class I (A, B) molecules are important restrictive recognition antigens for CTL. Although these antigens are highly polymorphic, they can share a similar immunogenic molecular epitope(s) and can be immunologically cross-reactive. The CTL lines generated were found to kill not only autologous
melanoma
, but also allogeneic melanomas having class I HLA-A antigens shared or "cross-reactive" with autologous HLA-A. These CTL lines were poor killers of melanomas bearing non-shared or non-cross-reactive HLA-A. Cold-target inhibition assays demonstrated this CTL cross-reactivity to allogeneic
melanoma
specificity. Epstein-Barr-virus-transformed autologous and allogeneic B lymphoblastoid cell lines failed to block autologous
melanoma
killing, indicating that CTL were not recognizing major histocompatibility complex antigens, serum proteins or culture medium products as the primary target antigen.
HLA-A2
was the major shared HLA-A antigen recognized by CTL lines on the
melanoma
lines studied. CTL lines also recognized shared HLA-A11 and A24 on allogeneic
melanoma
. There were no CTL lines showing restriction to HLA-B. These results suggest that common tumor-associated antigens are present on melanomas and are recognized in association with distinct HLA-A epitopes by CTL.
...
PMID:Cytotoxic T cell lines recognize autologous and allogeneic melanomas with shared or cross-reactive HLA-A. 137 43
We have established that melanomas express shared tumor antigens (Ags) that can be recognized by T cells if presented in the context of self-MHC molecules. Tumor-infiltrating lymphocytes (TILs) from six
melanoma
patients were tested for lysis of large panels of HLA-matched or unmatched targets representing a variety of tissue types. Lysis was specific for allogeneic melanomas sharing at least one HLA-A, -B, or -C Ag with TILs, and demonstrated commonly expressed tumor Ags. Similar findings were obtained when cytokine secretion by TILs was used to indicate specific Ag recognition. Transfection of the
HLA-A2
.1 gene into
HLA-A2
-
melanoma
lines conferred susceptibility to lysis by
HLA-A2
restricted
melanoma
TILs, demonstrating expression of common tumor Ags among patients of diverse HLA types. These findings have important implications for developing broadly applicable cancer immunotherapies such as vaccines.
...
PMID:Recognition of shared melanoma antigens by human tumor-infiltrating lymphocytes. 144 13
Autologous
melanoma
-specific CTL recognize a common tumor-associated Ag (TAA) in the context of HLA class I antigens. We have demonstrated that
HLA-A2
can be a restricting Ag and, in T cell lines homozygous for
HLA-A2
, that CTL can be generated by stimulation with
HLA-A2
allogeneic melanomas. In the current study, we have investigated T cell lines from patients who are heterozygous at HLA-A region locus, to determine the relative importance of each A-region allele in this MHC-restricted recognition of tumor. We have shown that HLA-A1 can be a restricting Ag, and that allogeneic melanomas expressing HLA-A1 can substitute for the autologous tumor in the generation of HLA-A1-restricted CTL. However, when T cell lines express both HLA-A1 and
HLA-A2
, the
HLA-A2
allele governed restriction of the
melanoma
TAA. Three autologous-stimulated HLA-A1, A2 CTL lines all demonstrated restriction by the
HLA-A2
allele, when examined in cytotoxicity assays, cold-competition assays, and proliferation assays. There was no evidence of restriction by the second HLA-allele, HLA-A1. Although the autologous-stimulated CTL use a single A-region allele for tumor recognition, the autologous HLA-A1, A2 tumors are lysed by both HLA-A1-restricted and
HLA-A2
-restricted CTL. The dominance of restricting alleles was further demonstrated when HLA-matched allogeneic melanomas were used as the stimulating tumor to generate tumor-specific CTL. Stimulation of the heterozygous (HLA-A1, A2) lymphocytes with
HLA-A2
-matched allogeneic melanomas resulted in CTL specific for the autologous tumor, and restricted by the
HLA-A2
Ag. However, stimulation with an HLA-A1-matched allogeneic
melanoma
failed to induce tumor-specific CTL restricted by the HLA-A1 Ag. The data suggest there is a dominance of HLA-A region Ag at the level of the T cell, such that only one is restricting in the recognition of the autologous
melanoma
. At the level of the tumor, however, the TAA is expressed in the context of both HLA-A region alleles. We can generate specific CTL from lymph node cells or PBL and HLA-A region matched allogeneic melanomas; however, because most patients are heterozygous at the HLA-A region locus, an understanding of the dominant restricting alleles must be obtained so that an appropriately matched allogeneic
melanoma
can be selected.
...
PMID:MHC-restricted recognition of autologous melanoma by tumor-specific cytotoxic T cells. Evidence for restriction by a dominant HLA-A allele. 167 80
Three predominantly CD8+ CTL lines, TIL 501, TIL 620, and TIL 660, were generated from three HLA-A2+
melanoma
patients by culturing tumor-infiltrating lymphocytes in 1000 U/ml IL-2. These tumor-infiltrating lymphocytes lysed 12 of 18 HLA-A2+ autologous and allogeneic melanomas, but none of 20
HLA-A2
-negative melanomas. They also did not lyse the MHC class I negative lymphoma-leukemia cell lines, Daudi, K562, or HLA-A2+ non-
melanoma
cell lines including PHA or Con A-induced lymphoblast, fibroblast, EBV-transformed B cell, Burkitt's B cell lymphoma, and colon cancer cell lines. Autologous and allogeneic
melanoma
lysis was inhibited by anti-CD3, by anti-MHC class I, and by anti-
HLA-A2
mAb, indicating recognition of shared tumor Ag among
melanoma
cell lines in a TCR-dependent,
HLA-A2
-restricted manner. Six
HLA-A2
-negative
melanoma
cell lines obtained from five
HLA-A2
-negative patients were co-transfected with the
HLA-A2
.1 gene and pSV2neo. All 17 cloned transfectants expressing cell surface
HLA-A2
molecules, but none of 12 transfectants lacking
HLA-A2
expression, were lysed by these three
HLA-A2
-restricted,
melanoma
-specific CTL. Lysis of the HLA-A2+ transfectants was inhibited by anti-CD3, by anti-MHC class I, and by anti-
HLA-A2
mAb, indicating recognition of shared tumor Ag on transfectants in a TCR-dependent,
HLA-A2
-restricted manner. These results identify the
HLA-A2
.1 molecule as an Ag-presenting molecule for
melanoma
Ag. They also suggest that common
melanoma
Ag are expressed among
melanoma
patients regardless of HLA type. These findings have implications for the development of
melanoma
vaccines that would induce antitumor T cell responses.
...
PMID:Shared human melanoma antigens. Recognition by tumor-infiltrating lymphocytes in HLA-A2.1-transfected melanomas. 172 79
Human
melanoma
is an immunogenic neoplasm whereby enhancement of specific cell-mediated immunity can alter tumor progression.
HLA-A2
-restricted CTL have been demonstrated to kill allogeneic
HLA-A2
-matched
melanoma
. We investigated the ability of allogeneic
melanoma
cells sharing HLA-A antigens to sensitize
melanoma
patients' lymphocytes to induce HLA-A-restricted CTL to autologous
melanoma
. PBL from
melanoma
patients were cocultured with autologous
melanoma
cells in defined "cocktail medium" to generate
melanoma
-specific HLA-A-restricted CTL lines. CTL generated by sensitization with allogeneic
melanoma
bearing shared
HLA-A2
, A11, A24, or "cross-reactive" HLA-A antigens could kill almost as many autologous
melanoma
cells as CTL sensitized with autologous
melanoma
. There are HLA-A antigens that are immunogenically cross-reactive because they share determinant epitopes. CTL were not activated NK or LAK cells. The HLA restriction and
melanoma
cell specificity of the CTL were demonstrated by cold target inhibition with autologous and allogeneic
melanoma
and B lymphoblasts. Anti-CD3 and anti-HLA AB inhibited CTL killing of
melanoma
. The CTL were predominantly CD3+CD4+ TCR alpha/beta+. These studies demonstrate that melanomas being shared or cross-reactive HLA-A can be used for in vitro generation of HLA-restricted CTL that recognize
melanoma
-associated antigens. The findings have very important implications in human tumor immunotherapy.
...
PMID:Induction of CD4+ cytotoxic T cells by sensitization with allogeneic melanomas bearing shared or cross-reactive HLA-A. 173 12
During the past 5 years, we have been conducting clinical trials with a therapeutic
melanoma
vaccine (
melanoma
"theraccine"). Mechanical lysates of two
melanoma
cell lines chosen for their complementary characteristics were combined with the adjuvant DETOX and injected subcutaneously on weeks 1, 2, 3, 4 and 6 for one or two courses, and then monthly in patients with objective clinical responses. Of 109 patients, 22 (20%) have had objective clinical regression of tumor masses, with 5% complete responses. Ten patients have lived more than a year. Eight of the 10 are still alive, five of whom have lived more than 3 years. It was not necessary to achieve complete remissions to cause an increase in survival, and most of the long-surviving patients have one or more (stable) residual nodules. The pace of the disease process has clearly been slowed in those individuals. A rise in the level of cytotoxic T lymphocyte precursors in the blood (pCTL) has correlated with clinical response. Only one patient without such a rise in pCTL has had a response, and assays in that patient were considered unreliable. Both CD4+ and CD8+ CTL have been cloned from the blood of immunized patients. Both types of CTL killed a number of
melanoma
cell lines, but not other types of tumor or normal cells (lymphoblasts and melanocytes). CD8+ CTL have not been restricted to killing the autologous
melanoma
. MHC restriction by the
HLA-A2
locus was identified. CD4+ CTL were not restricted only by Class II HLA antigens. Many CD4+ clones killed HLA Class II-negative melanomas, and we were able to block cytotoxicity of a particular clone with either anti-HLA Class I or anti-Class II MHC monoclonal antibodies, or both. An association of clinical response to the theraccine with certain HLA phenotypes, notably HLA-C3, -A2 (and the cross-reactive HLA-A28), B12 (and the related alleles (HLA-B44 and -B45) and perhaps DR4, particularly when combinations of those alleles were present, was suggested by our analysis of 70 patients. It is possible that this simply indicates the sharing of MHC antigens between the immunizing melanomas and the patient's
melanoma
. However, these MHC molecules may be important in their own right in presenting
melanoma
-associated antigens in CTL in vivo. Subtractive hybridization of mRNA from lung squamous carcinoma cells from cDNA of the M-1
melanoma
cell line has yielded several DNA sequences unique to
melanoma
. Those are now being analyzed for possible immunogenicity, with cytotoxicity by CTL from immunized patients as the major criterion.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Attempts to optimize active specific immunotherapy for melanoma. 177 76
To study antitumor immunity in patients with choroidal
melanoma
, T cells were generated from the peripheral blood of choroidal
melanoma
patients by mixed lymphocyte/tumor cell culture (MLTC). Because autologous tumors are generally unavailable, an allogeneic choroidal
melanoma
cell line, OCM-1, was used as the specific stimulus. Lymphocyte cultures from 27 patients were characterized by cell-surface phenotypes, patterns of reactivity towards cells of the melanocytic origin and T-cell-receptor gene usage. Antimelanoma reactivity was found in cell-sorter-purified CD4+ and CD8+ T cell subsets. To analyze this reactivity, sorter-purified CD4+ and CD8+ cells from a MLTC were cloned by limiting dilution in the presence of exogenous interleukin-2 and interleukin-4 as well as irradiated OCM-1. Under these conditions, CD4+ T cells did not proliferate, perhaps because of the absence of antigen-presenting cells. However, CD8+ grew vigorously and 29 cytolytic CD8+ T cell clones were isolated. On the basis of their pattern of lysis of OCM-1, a skin
melanoma
cell line M-7 and its autologous lymphoblastoid cell line LCL-7, the clones were categorized into three groups. Group 1, representing 52% of the clones, lysed all three target cells, and are alloreactive. However, since OCM-1 and M-7 did not share class I antigens, these clones recognized cross-reactive epitope(s) of the histocompatibility locus antigen (HLA) molecule. Group 2, constituting 28% of the clones, lysed both the ocular and skin
melanoma
cell lines but not LCL-7, and were apparently
melanoma
-specific. Unlike classical HLA-restricted cytolytic T lymphocytes, these T cells might mediate the lysis of
melanoma
cells via other ligands or a more degenerate type of HLA restriction. For the latter, the
HLA-A2
and -A28 alleles would have to act interchangeably as the restriction element for shared melanoma-associated antigen(s). Group 3, representing only 10% of the T cell clones, was cytotoxic only to OCM-1, but not to M-7 or LCL-7. These clones may recognize antigens unique to ocular melanoma cells. Our data suggest that choroidal
melanoma
patients can recognize
melanoma
-associated antigens common to both ocular and cutaneous melanoma cells, and presumbly their autologous tumor. Thus, choroidal
melanoma
, like its skin counterpart, may be responsive to immunotherapeutic regimens such as active specific or adoptive cellular immunotherapy.
...
PMID:Lymphocytes cytotoxic to uveal and skin melanoma cells from peripheral blood of ocular melanoma patients. 183 Oct 67
An
HLA-A2
-specific cytotoxic T lymphocyte (CTL) clone (CTL49), capable of killing the
HLA-A2
-negative autologous
melanoma
(Me665/2) in a T cell receptor and MHC-independent fashion, lysed six of 16 Me665/2 tumour clones in short-term (4 and 18 hour) 51Cr-release assays. In long-term (96 hour) lytic assays, CTL49 could lyse all the 16 tumour clones. The lysis observed in the 96 hour assay could be enhanced by stimulating CTL49 with anti-CD3 monoclonal antibodies (MAb) and interleukin-2 (IL-2). Supernatants of anti-CD3- or antigen-stimulated CTL49, known to contain tumour necrosis factor (TNF) alpha and interferon (IFN)gamma, were also able to lyse all but one (665/2/51) of the tumour clones in 96 hour assays. Absence of lysis of tumour clone 2/51 by supernatants correlated with resistance of the same tumour clone to lysis by recombinant IFN-gamma plus TNF-alpha. Antibodies to TNF-alpha and, to a lesser extent, to IFN-gamma, reduced significantly the 96 hour lysis of Me2/9 and Me2/10, two of the tumour clones killed in long term but not in short term assays. Winn assays in nude mice revealed that CTL49, stimulated with anti-CD3-MAb plus IL-2, could abolish tumour cell growth when injected together with clones 2/9 or 2/10. These results indicate that intra-tumour heterogeneity for susceptibility to lysis can be overcome even by a single CTL clone providing that appropriate signals (i.e. anti-CD3-MAb and IL-2) are supplied to an effector able to mediate tumour cell lysis by multiple mechanisms.
Melanoma
Res
PMID:An autologous T cell clone overcomes intra-melanoma heterogeneity for susceptibility to cell-mediated lysis by using multiple lytic mechanisms: in vitro and in vivo analysis. 184 13
Major histocompatibility complex (MHC) class I antigens (Ag), particularly human lymphocyte antigen (HLA)-A2, have been shown to function as restriction elements in human cytotoxic T lymphocyte recognition of tumor. This study was undertaken to determine the function of non-A2 MHC class I Ag in tumor recognition by tumor-infiltrating lymphocytes (TILs) cultured from six melanomas, and to find evidence for shared or unique tumor-associated Ag. Four predominantly CD8+ and two mixed CD4+, CD8+ population TIL cultures were tested for lysis in short-term 51Cr-release assays against a panel of targets including 29 fresh melanomas, 2 fresh sarcomas, 11 cultured
melanoma
lines, and 14 nonmelanoma cell lines derived from HLA-typed patients. All six
melanoma
TILs lysed the autologous
melanoma
. Two of three TILs from HLA-A2+ patients lysed allogeneic melanomas matched for
HLA-A2
, giving evidence for shared tumor Ag; one of these TILs also used HLA-B44 as a restriction element. The third HLA-A2+ TIL lysed autologous
melanoma
but not autologous Epstein-Barr virus-transformed B cells nor 14
HLA-A2
matched allogeneic melanomas, suggesting the possibility of a unique tumor Ag in this system. The three
HLA-A2
- TILs each lysed multiple HLA-matched melanomas, using HLA-A24, HLA-A31, and HLA-Cw7 as restriction elements. Blocking of autologous and allogeneic
melanoma
lysis by TILs with mAb w6/32 (anti-MHC class I) and anti-CD3, as well as cold target inhibition assays, confirmed that specific interaction of the T-cell receptor with MHC class I Ag and the relevant tumor Ag on the target cell surface is required for tumor lysis. These data provide evidence for specific recognition of shared
melanoma
Ag by human TILs.
...
PMID:Common expression of melanoma tumor-associated antigens recognized by human tumor infiltrating lymphocytes: analysis by human lymphocyte antigen restriction. 186 40
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