UMLS:C0027627 - FACTA Search

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Query: UMLS:C0027627 (metastases)
103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

T cells infiltrating pre- and postvaccine metastases obtained from melanoma patients vaccinated with either dinitrophenyl (DNP)-modified autologous tumor or with the MAGE-3.A1 peptide display selective T cell receptor (TCR) beta chain variable region (BV) repertoire changes at the tumor site as a consequence of vaccination. Restricted sets of BV families expand in all postvaccine lesions when compared with prevaccine specimens and often contain dominant clones. A protocol devised to obtain T cell lines highly enriched for expression of a given BV region through the use of anti-BV monoclonal antibodies was used to understand whether responses to specific antigen(s) accounted for these clonal expansions. In one of the patients vaccinated with DNP-modified tumor cells, BV-driven selection of the T lymphocytes expanded in two infiltrated postvaccine metastases resulted in T cell lines able to exert HLA class I-restricted lysis of the autologous tumor. These results indicate that TCR repertoire analysis at the tumor site facilitates the detection of T cell responses elicited by a vaccine and potentially cytotoxic for the autologous tumor.
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PMID:Intralesional selection of T cell clonotypes in the immune response to melanoma antigens occurring during vaccination. 961 Sep 11

Recently, cytokine gene transfer into tumour cells has been shown to mediate tumour regression in animal models via immunomodulation. Consequently, a number of clinical protocols have been developed to treat cancer patients with cytokine gene-modified tumour cells. Here, we report the results of a clinical phase I trial using for the first time autologous, interleukin 7 gene-modified tumour cells for vaccination of ten patients with disseminated malignant melanoma. Melanoma cells were expanded in vitro from surgically removed metastases, transduced by a ballistic gene transfer technique and were then injected after in vitro irradiation s.c. at weekly intervals. Clinically, there was no major toxicity except for mild fever, and no major clinical response towards vaccination was observed. Eight of ten patients completed the initial three s.c. vaccinations and were eligible for immunological evaluation. Post vaccination, peripheral mononuclear cells (PBMCs) were found to contain an increased number of tumour-reactive proliferative as well as cytolytic cells, as determined by a limiting dilution analysis. In three of six patients, the frequencies of anti-melanoma cytolytic precursor cells increased between 2.6- and 28-fold. Two of these patients showed a minor clinical response. Analysis of the autologous tumour cell vaccines regarding IL-7 secretion after gene transfer, HLA class I and class II cell surface expression, secretion of immunosuppressive mediators (TGF-beta1, IL-10) and various melanoma-associated tumour antigens revealed a very diverse expression profile. In conclusion, vaccination using gene-modified autologous melanoma cells induced immunological changes in a group of advanced, terminally ill patients. These changes can be interpreted as an increased anti-tumour immune response. However, immunological modulation was most pronounced in patients in good physical condition. Therefore, patients with minimal tumour load or minimal residual disease might preferentially benefit from tumour cell vaccination in further studies. In order to evaluate the effects of the cytokine gene-modified tumour cell vaccines more precisely, an antigenically better defined vaccine is needed.
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PMID:Vaccination with IL-7 gene-modified autologous melanoma cells can enhance the anti-melanoma lytic activity in peripheral blood of patients with a good clinical performance status: a clinical phase I study. 966 67

Expression of HLA class I molecules is essential for the recognition of tumor cells by CD8+ T cells. In this study, 48 bioptic samples of 42 patients in all stages of melanoma were investigated after short-time cultivation of tumor cells. To confirm melanocytic origin of cultured cells, samples were screened for mRNA expression of melanoma markers gp100, tyrosinase, MAGE-3, MelanA, and MUC18 by reverse transcriptase-polymerase chain reaction. Surface expression of specific HLA-A and -B allospecificities on melanoma cells were analyzed with a standard microcytotoxicity assay after stimulation with interferon (IFN)-alpha and compared with the background found in peripheral blood mononuclear cells from the corresponding patients. Immunohistochemistry and flow cytometry confirmed specific losses in cases where the appropriate monoclonal antibodies were available. The level of expression of HLA-I, HLA-II, and intercellular adhesion molecule 1 antigens on melanoma cells cultured in the presence or absence of IFN-alpha and IFN-gamma was determined cytofluorometrically. All cell cultures tested were found to be positive for one or more melanocytic markers by reverse transcriptase-polymerase chain reaction. The specific HLA-I alleles on the cultured cells were detectable in 45 of 48 samples. In 11 cases a specific loss of one HLA-I allele was observed (2 x A2, B7, B8, B18, 4XB44, B47, B49). Ten of these samples were derived from locoregional lymphnode metastases or from distant metastatic tumors. Only one sample from a primary melanoma showed a specific loss of HLA-I (B47). IFN-alpha upregulated expression of HLA-I up to 4-fold. IFN-gamma enhanced the appearance of HLA-II up to 35-fold and the expression of intercellular adhesion molecule 1 up to 40-fold. Selective loss of HLA-I allospecificities might be a major step in tumor progression.
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PMID:Higher frequency of selective losses of HLA-A and -B allospecificities in metastasis than in primary melanoma lesions. 974 Feb 47

Limited T-cell receptor (TCR) repertoire of tumor-infiltrating lymphocytes has been found in melanoma metastases and spontaneously regressing melanoma. Immunotherapy with INF-alpha/interleukin 2 can induce tumor regression in a proportion of patients with metastatic melanoma. We analyzed the gene expression of the TCR-beta variable (Vbeta) region of tumor-infiltrating lymphocytes from 16 melanoma metastases by subgroup-specific semiquantitative RNA PCR to investigate the influence of immunotherapy on the TCR pattern. In five progressing metastases before or after immunotherapy, no overexpression of Vbeta gene families was detectable, whereas in seven of seven metastases responding to IFN-alpha/interleukin 2 one to four Vbeta gene families were overexpressed. Preferential usage of certain Vbeta gene subgroups in patients sharing the same HLA class I molecules suggests a T-cell response to dominant public epitopes. Analysis of multiple specimens from the same patients gives evidence that this strong oligoclonal T-cell selection is induced or at least augmented by immunotherapy, supporting the functional relevance of this finding.
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PMID:T-cell receptor beta variable region diversity in melanoma metastases after interleukin 2-based immunotherapy. 981 29

The high mortality rate of melanoma patients who develop metastases prompted us to look for prognostic markers to determine high-risk and non-risk patients at the primary tumour stage. Therefore, we quantified plasma concentrations of soluble HLA class I antigens (sHLA-I) by ELISA in patients with primary tumours (MM-P) and with metastases (MM-M), respectively, and compared them to a control group. Whereas healthy probands (n = 55) and MM-M (n = 38) showed similar mean values of sHLA-I (1.30 +/- 1.44 micrograms/ml and 1.29 +/- 1.27 micrograms/ml), MM-P (n = 67) revealed significantly reduced levels of this marker (0.84 +/- 0.85 microgram/ml). This result matches with our immunohistological staining of membrane-bound HLA-I in sections of paraffin-embedded melanoma. Further subdivision of the MM-P substantiated the observation that mean values of decreased sHLA-I concentrations are in line with high tumour thickness. Since the beginning of this study (1990) to date, 11 of 67 MM-P have developed metastases. The prognostic efficiency of sHLA-I to identify high-risk and non-risk patients was tested by ROC-analysis (receiver operating characteristic) and did not demonstrate good prognostic relevance for sHLA-I (W = 0.64, p = 0.04).
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PMID:Soluble HLA class I antigens in plasma of patients with malignant melanoma. 985 97

This review covers the results obtained so far with a chronological analysis of the antitumor cytolytic T lymphocyte (CTL) cell response of a melanoma patient who enjoys an unusually favorable evolution. Two melanoma cell lines, MEL.A and MEL.B, were derived from metastases removed from the patient in 1988 and 1993, respectively. The patient developed a very strong CTL response against the MEL.A cells. Several antigens on these cells, presented by various HLA class I molecules, result from point mutations present in the genome of the tumor. The MEL.B cells, on the other hand, resist lysis by these CTLs because they have lost expression of most HLA class I molecules, suggesting that they were selected in vivo by the anti-MEL.A CTLs. New CTLs recognize MEL.B cells specifically, however. Analysis of their specificity indicates that they carry inhibitory receptors similar to those present on natural killer (NK) cells. These results illustrate the relationship between a tumor and the immune system in vivo over a period of several years. They are discussed in the context of the recent identification of many human tumor antigens recognized by CTLs, and the perspectives of specific immunotherapy opened up by these discoveries.
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PMID:Antitumor immunity at work in a melanoma patient. 1021 3

Histocompatibility leukocyte antigen (HLA)-A2 is used as a restricting element to present several melanoma-associated antigen (MAA)-derived peptides to cytotoxic T lymphocytes (CTLs). HLA-A2 antigen is selectively lost in primary melanoma lesions and more frequently in metastases. Only scanty information is available about the molecular mechanisms underlying this abnormality, in spite of its potentially negative impact on the clinical course of the disease and on the outcome of T cell-based immunotherapy. Therefore, in this study we have shown that the selective HLA-A2 antigen loss in melanoma cells 624MEL28 is caused by a splicing defect of HLA-A2 pre-mRNA because of a base substitution at the 5' splice donor site of intron 2 of the HLA-A2 gene. As a result, HLA-A2 transcripts are spliced to two aberrant forms, one with exon 2 skipping and the other with intron 2 retention. The latter is not translated because of an early premature stop codon in the retained intron. In contrast, the transcript with exon 2 skipping is translated to a truncated HLA-A2 heavy chain without the alpha(1) domain. Such a polypeptide is synthesized in vitro but is not detectable in cells, probably because of the low steady state level of the corresponding mRNA and the low translation efficiency. These results indicate that a single mutational event in an HLA class I gene is sufficient for loss of the corresponding allele. This may account, at least in part, for the high frequency of selective HLA class I allele loss in melanoma cells. Our conclusion emphasizes the need to implement active specific immunotherapy with a combination of peptides presented by various HLA class I alleles. This strategy may counteract the ability of melanoma cells with selective HLA class I allele loss to escape from immune recognition.
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PMID:Selective histocompatibility leukocyte antigen (HLA)-A2 loss caused by aberrant pre-mRNA splicing in 624MEL28 melanoma cells. 1043 84

Loss at the chromosomal region 6p21.3 is a frequent event in head and neck squamous cell carcinomas (HNSCC). Since the human leukocyte antigen (HLA) complex is located at 6p21.3, loss of heterozygosity (LOH) of this region may provide tumour cells with an immune-escape tumour phenotype. In the present study, we have studied the correlation of HLA class I, TAP1 and TAP2 expression and LOH at 6p21.3. HLA class I and TAP1 and TAP2 protein expression was analysed by immunohistochemical procedures. A panel of 41 HNSCC with downregulated HLA class I expression was selected for LOH studies using 5 microsatellite markers located at 6p21.3 (D6S105, D6S265, D6S276, D6S273, D6S291) and 2 markers located at the chromosome 6 centromere (D6S473) and the 6p telomere (D6S277). In addition, LOH of the beta-2-nmicroglobulin (beta2m) gene was studied using 2 microsatellite markers flanking the beta2m gene (D15S126 and D15S153) and was correlated with beta2m and HLA class I expression. In 20/41 (49%) of the HNSCC, allelic loss for at least one locus at 6p21.3 was found. Loss at 15q was found in 4/10 (40%) HNSCC with downregulated beta2m expression and in 12/41 (29%) HNSCC with downregulated HLA class I expression. Our data show that downregulation of HLA class I expression is correlated with loss of chromosomal regions at 6p21.3 in HNSCC. In addition, LOH at 6p21.3 and 15q in 10 paired samples of DNA derived from the primary HNSCC, the lymph node metastases and from peripheral blood lymphocytes (PBLs) was studied. Five (5/10) primary tumours contained the same deletion as the corresponding lymph node metastases. The other cases contained deletions either in the primary tumour (3 cases) or in the lymph node metastases (1 case) or no deletions at all (1 case).
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PMID:HLA class I expression and chromosomal deletions at 6p and 15q in head and neck squamous cell carcinomas. 1051 60

We have pursued our analysis of antigens recognized by autologous cytolytic T lymphocytes (CTLs) on the melanoma cells of patient LB33. This patient enjoys an unusually favorable evolution, which is associated with a strong and sustained antitumor CTL response. We reported previously the analysis of two melanoma cell lines, MEL.A and MEL.B, which were derived from metastases removed from the patient at 5 years' distance. Autologous CTL clones derived from blood lymphocytes recognized several antigens presented by different HLA class I molecules on MEL.A. The MEL.B cells resisted lysis by these CTLs because they have lost expression of most HLA molecules, suggesting that they were selected in vivo by the anti-MEL.A CTL response. One of the MEL.A antigens was shown to result from a point mutation in the tumor. Here we report the cloning of a gene that encodes two other MEL.A antigens. This new gene, MUM-2, is expressed ubiquitously. In the melanoma cells of patient LB33, it contains a point mutation that changes one amino acid in the translated protein. Two different antigenic peptides, one presented to CTL by HLA-B44 molecules and another by HLA-C6 molecules, overlap and contain the mutated residue. Gene MUM-2 is homologous to an essential yeast gene, bet5, that was recently shown to be implicated in the vesicular transport of proteins from the endoplasmic reticulum to the Golgi. In a mutant yeast with a disrupted bet5 gene, both the wild-type and the mutated MUM-2 genes could complement for bet5 function. These results indicate that the antigenic mutation does not destroy the function of the protein, a function that is conserved in eukaryotic cells. The identification of these antigens suggests that point mutations could be the major cause of the strong immunogenicity of MEL.A cells.
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PMID:Two antigens recognized by autologous cytolytic T lymphocytes on a melanoma result from a single point mutation in an essential housekeeping gene. 1058

It is generally accepted that human and experimental tumor cells can lose major histocompatibility complex (MHC) class I molecules. These human leukocyte antigen (HLA) losses are detected when the primary tumor breaks the basal membrane, invades the surrounding tissues, and starts to metastasize. These altered HLA class I phenotypes probably constitute the major tumor escape mechanism facing anti-tumor T-cell mediated responses. Thus, it is important to characterize these phenotypes in clinical tumor samples, analyze the mechanism(s) responsible for them, and counsel patients before and during peptide anti-cancer immunotherapy. The present paper summarizes the most relevant altered HLA class I phenotypes found in human tumor samples, indicates their frequency, and outlines the mechanisms implicated. This review also points out that the natural killer (NK) escape mechanism of HLA class I deficient cancer cells is yet to be defined. Knowledge accumulated to date reveals that HLA class I molecules are an important crossroad in tumor immunology.
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PMID:The HLA crossroad in tumor immunology. 1065 79

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