Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027627 (metastases)
 103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mammalian immune system is essential for surviving challenge infections with a great range of potential pathogens. The protective effect produced is dependent on many different types of cells which require flexible and independent production and regulation. In particular, many important responses are carried out by lymphocytes, which recognise foreign antigen through exquisitely specific receptors: i.e. surface immunoglobulin (sIg) on B lymphocytes and the T cell receptor (TCR) on T lymphocytes. Each lymphocyte displays receptors with a single specificity, allowing cells with particular specificities to be regulated independently. Since millions of different Igs and TCRs are expressed, the precise selection and regulation of each T and B cell population to produce a useful self-tolerant repertoire is a very complex process. Control of cell populations can, in theory, be exercised at a number of levels, including modulation of active cell death by apoptosis. Recent research has demonstrated that regulation of apoptosis is indeed a crucial element in the control of the immune system in general, and in the development of the TCR and Ig repertoires in particular. The molecular analysis of apoptosis now takes a high priority and the proto-oncogene bcl-2 appears to be responsible for specific suppression of apoptosis in several important situations. It is also clear that malfunctions affecting apoptosis, and in particular bcl-2, can result in significant progression towards malignancy.
Cancer Metastasis Rev 1992 Sep
PMID:Apoptosis in the development of the immune system: growth factors, clonal selection and bcl-2. 139 95

Among tumour infiltrating lymphocytes (TIL) of a melanoma patient, A CD8+, WT31+ CTL clone (8B3) had been previously isolated which exhibited specific and MHC-restricted lytic activity against the autologous tumour. To molecularly characterize T cell receptor (TCR) alpha and beta transcripts of clone 8B3, sequence analysis of several cDNA isolates was carried out. Such analysis indicated that the functional alpha and beta chain of 8B3 are composed of V alpha 2.1/J alpha/C alpha and V beta 8.2/D beta/J beta 1.2/C beta 1 gene segments. Eleven additional melanoma-reactive T cell clones from the same patient (one MHC-restricted and 10 MHC-unrestricted) were analysed for usage of the 8B3 V alpha 2 and V beta 8 gene segments by Northern blot hybridization. Neither the V alpha 2 nor the V beta 8 segments were used by 8D9, the second MHC-restricted melanoma-specific TIL clone that displayed intra-tumour reactivity identical to that of 8B3 recognizing only 4 out of 25 melanoma clones isolated from the same metastases. No V beta 8 expression was found among the MHC-unrestricted T cell clones and all but two (found in duplicate as 4C4 and 4A6) were also negative for V alpha 2 expression. Southern blot analysis revealed different TCR beta chain rearrangements in most MHC-unrestricted T cell clones providing evidence of their independent derivation. Taken together these findings show that TCR of clone 8B3 is unique in composition and not shared by MHC-unrestricted melanoma-reactive T cell clones. The different set of V alpha and V beta families used by clone 8D9 further indicates that the TCR usage in the specific and MHC-restricted response to melanoma can be polyclonal.
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PMID:Two autologous melanoma-specific and MHC-restricted human T cell clones with identical intra-tumour reactivity do not share the same TCR V alpha and V beta gene families. 166 34

Restriction of the T cell receptor repertoire suggesting ongoing specific immune mechanisms has recently been described in melanoma tissue by several groups of investigators. The functional relevance for immunotherapy of melanoma, however, has not been established. We studied the T cell receptor repertoire in two melanoma metastases of a patient with a mixed response to immunotherapy. Expression of T cell receptor V beta regions was determined by subgroup-specific semiquantitative RNA polymerase chain reaction (PCR). In the regressing skin lesion a restricted expression of the T cell receptor repertoire and overexpression of three V beta subgroup genes was found; no restriction was present in the simultaneously progressing skin lesion of the same patient, compared with peripheral blood lymphocytes. Comparison of T cell receptor V beta gene expression in two metastatic lesions of a patient with simultaneously growing skin metastases, who did not receive immunotherapy, revealed only minor differences. These observations show for the first time an association between restricted T cell receptor repertoire and responsiveness of melanoma to immunotherapy and suggest a role of T cells using the overexpressed V beta genes for the cytokine-induced tumour regression.
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PMID:Restriction of T cell receptor V beta repertoire in melanoma metastasis responding to immunotherapy. 762 Mar 41

The T cell receptor (TCR) alpha beta variable (V) gene family usage of tumour-infiltrating lymphocytes (TIL) in four different primary human malignant melanomas and their corresponding metastatic lesions was characterized using a recently developed method based on the reverse-transcription-coupled polymerase chain reaction (RT-PCR). All patients were typed for HLA-A1 and -A2, either serologically or by a newly developed RT-PCR method. Two of these patients expressed HLA-A2, one the HLA-A1 haplotype and one further patient was heterozygous HLA-A1/-A2. The prognostic parameters for all four patients indicated that rapid progression of the disease was to be expected. However, only two of the patients showed rapid progression, while the remaining two patients are still alive after more than 3 years. In TIL in primary melanomas, a possible correlation was suggested between HLA-A2 and the preferential usage of the TCR V gene families V alpha 4, V alpha 5, V alpha 22 and V beta 8, whereas the V beta 3 gene family appeared to be expressed together with HLA-A1. Other highly expressed V gene families, apparently not restricted to either HLA-A1 or -A2, were V alpha 1 (expressed in three of four primary tumours) and V alpha 21 (expressed in two of four tumours). We found no evidence suggesting any correlations between the haplotypes HLA-A1 and -A2 and preferential V gene family expression in the metastatic lesions, and the only common feature was V alpha 8, which was found to be highly expressed in two out of three subcutaneous metastases. The V gene families, which were highly expressed in the primary tumour were generally not, or only very weakly, expressed in metastases and vice versa, possibly reflecting a change in the phenotype of the metastatic melanoma target cells. With regards to patient 0368, it was possible to obtain and study material from two subcutaneous metastases. The first metastasis was excised more than a year after the primary tumour, showing a completely different V region repertoire. The second metastasis was excised at surgery 2 years after primary surgery and likewise showed a dramatic shift in comparison to the first subcutaneous metastasis. Although the present study only included a small number of patients, it suggests that the estimation of V gene expression, if applied to a larger amount of patient material, might make it possible to substantiate further the suggested correlations between the T cell response against the tumour, HLA and antigen expression.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Analysis of T cell receptor alpha beta variability in lymphocytes infiltrating melanoma primary tumours and metastatic lesions. 795 26

In a phase I clinical trial on the effects of preoperative adjuvant IL-2 therapy given to patients undergoing hepatic resection of colorectal adenocarcinoma metastases, we monitored the putative induction of T cell clonal expansion in both tissues and blood. The presence of T cell clonotypes was analyzed with a PCR-based method that determines V-D-J junction size patterns in T cell receptor (TCR) V beta subfamilies in samples before and after a 5-d IL-2 infusion. This high resolution method analyzing CDR3 sizes of TCR transcripts was used in conjunction with FACS analysis of the corresponding T cell subpopulations with TCR V beta-specific mAb. At time of surgery (day 8 after starting IL-2), we found in the three patients analyzed with V beta-C beta primers multiple dominant T cell clonotypes in the tumor and peritumoral tissues which had probably expanded as a result of therapy. In three control patients not treated with IL-2, multiple oligoclonal patterns were not observed with this set of primers. In the fourth control patient a unique V beta 21-C beta CDR3 pattern which corresponds to two dominant clonotypes was found in the tumor. The same dominant clonotypes identified in the tumor after IL-2 were also detectable in the blood and comparison of the profiles obtained before and after IL-2 therapy indicates that they were induced by IL-2. The relative expansion of the corresponding T cell subpopulations was maintained for varying periods of time after surgery (4-7 d and almost 2 yr in one case). Together, these results indicate that IL-2 induces marked expansion of several T cell clones. Systemic IL-2 administration may represent, either alone or as a vaccine adjuvant, an appropriate way of boosting antigen-specific immune responses.
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PMID:Clonal T cell expansion induced by interleukin 2 therapy in blood and tumors. 863 33

The T cell receptor (TCR) alpha beta variable (V) gene family usage of tumor-infiltrating lymphocytes (TIL) in different primary human malignant melanomas and corresponding metastatic lesions were characterized using a recently developed method using the reverse transcription coupled polymerase chain reaction (RT-PCR). This semiquantitative RT-PCR method could be adapted to analysis of formalin-fixed, paraffin-embedded histopathological samples of primary tumor material and demonstrated to be reproducible and to be useful for the assessment of V alpha- and V beta-gene family usage in tumor samples. The TIL in primary tumors were observed to preferentially express certain TCR V alpha- and V beta-gene families: V alpha 4, and V beta 8 were highly expressed in several of the primary tumors analyzed using this method. With respect to V alpha 22 and V beta 8, the preferential expression of these V-gene families was demonstrated to be due in situ clonal expansion of T cells by means of cloning and sequencing of the CDR3 regions (V-J or V-D-J, respectively) corresponding to the RT-PCR products from one of the primary tumors. The observed preferential usage of certain TCR V alpha and V beta-genes strongly suggest the in situ clonal expansion of specific populations of T cells in accordance with recent results from others. These clonal T cell populations probably react with certain melanoma-associated peptides presented by specific HLA molecules. The preferential usage of certain V alpha- and V beta-gene families observed in several tumors further supports the involvement of a limited number of shared melanocyte or melanoma-associated peptides. Since the HLA status of the patients is obviously important to interpret these results, some of the patients were typed for HLA-A1 and -A2, the two most well-characterized restriction elements for melanoma-associated antigens, either serologically or by a newly developed RT-PCR method which similarly could by applied directly to the tumor material. In TIL in primary melanomas, a possible correlation was suggested between HLA-A2 and the preferential usage of the TCR V-gene families V alpha 4, V alpha 5, V alpha 22 and V beta 8, whereas the V beta 3-gene family appeared to be expressed together with HLA-A1. The V-gene families which were highly expressed in the primary tumors were generally not, or only very weakly, expressed in the corresponding metastases and vice versa, possibly reflecting a substantial change in the phenotype of the metastatic melanoma target cells. Continued studies of larger patient materials will be necessary to extend and validate these conclusions and of obvious interest for the further analysis of the T cell response in melanoma.
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PMID:Analysis of T cell receptor alpha beta variability in tumor-infiltrating lymphocytes in primary and metastatic melanoma. 874 27

We have developed a novel approach to cancer immunotherapy-an autologous whole-cell vaccine modified with the hapten dinitrophenyl (DNP). This approach elicits significant inflammatory responses in metastatic sites and some objective tumor responses. Post-surgical adjuvant immunotherapy with DNP-modified melanoma vaccine in a setting of micrometastatic disease produces significant survival prolongation in stage III melanoma patients. Histologically, the inflammatory responses of the tumor consist of infiltration by lymphocytes, the majority of which are CD8+, HLA-DR+ T cells. T cells from these lesions tend to have mRNA for interferon gamma. T cell receptor analysis suggests that the tumor-infiltrating T cells are clonally expanded. DNP-modified vaccine also induces T cells in the peripheral blood, which respond to DNP-modified autologous cells in a hapten-specific, MHC-restricted manner. Moreover, a T cell line generated from these lymphocytes responded to only a single HPLC fraction of MHC-associated, DNP-modified tumor peptides. Since inflammatory responses in metastases were not consistently associated with dramatic tumor regression, we considered the possibility of immunosuppression at the tumor site. We found that mRNA for the anti-inflammatory cytokine, interleukin-10 (IL-10) is expressed in most metastatic melanoma tissues and subsequently demonstrated that IL-10 protein is produced by melanoma cells. Thus the efficacy of DNP vaccine could be further enhanced by inhibition of IL-10 production or binding. Finally, we expect these results obtained with melanoma to be applicable to other human cancers.
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PMID:Active specific immunotherapy with hapten-modified autologous melanoma cell vaccine. 900 71

Metastatic melanoma patients treated with an autologous DNP-modified tumor cell vaccine develop inflammatory responses in metastatic tumors characterized by infiltration of CD8+ T cells. To further define this immune response, we analyzed T cell receptor beta-chain variable (TCRBV) region repertoire in biopsy specimens and peripheral blood lymphocytes of six patients. After administration of DNP vaccine, a restricted set of TCRBV gene families was found to be expanded compared with prevaccine metastases. In several postvaccine lesions of one patient, obtained over a 2-yr period, TCRBV14+ T cells were clonally expanded and identical T cell clonotypes could be detected. Two major recurring clones were biased toward the use of TCRBJ1S5. Furthermore, T cell lines derived from two such infiltrated skin lesions and, enriched in TCRBV14+ T cells, displayed HLA-class I-restricted lysis of the autologous melanoma cells. Clonal expansion of T cells was demonstrated in the T cell-infiltrated, postvaccine metastasis of a second patient as well. These results indicate that vaccination with autologous, DNP-modified melanoma cells can expand selected clones of T cells at the tumor site and that such clones are potentially destructive to the tumor.
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PMID:Clonal expansion of T lymphocytes in human melanoma metastases after treatment with a hapten-modified autologous tumor vaccine. 904 74

In this study, we examined the therapeutic antitumor effect of cytotoxic T lymphocytes (CTL) generated against CD86-transfected mouse neuroblastoma C1300. We first generated the transfectant, CD86 + C1300, expressing a high level of mouse CD86 on the cell surface. While CD86 + C1300 cells were rejected in syngeneic A/J mice when inoculated subcutaneously, neither vaccination nor any therapeutic antitumor effect was obtained, implying that C1300 may be a poorly immunogenic tumor. However, in vitro stimulation of splenocytes from either C1300-bearing or CD86 + C1300-rejecting mice with CD86 + C1300 cells resulted in remarkable CTL activity against C1300 cells. The CTL activity induced by CD86 + C1300 was mediated by T cell receptor/CD3 and CD8 and was further enhanced by the addition of interleukin-2. Intravenous inoculation of C1300 cells led to multiple organ metastases including the liver, lung, kidney, ovary, lymph node and bone marrow. To examine the therapeutic effect of CTL in this metastasis model, CTL induced by parental or CD86 + C1300 cells were administrated into C1300-bearing mice. Adoptive transfer of CD86 + C1300-induced CTL resulted in marked elimination of multi-organ metastases and prolonged survival in almost all mice, 70% of which survived indefinitely. These results indicate that adoptive transfer of CTL induced by CD86-transfected tumor cells in vitro would be effective and useful for tumor immunotherapy against poorly immunogenic tumors.
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PMID:Adoptive transfer of cytotoxic T lymphocytes induced by CD86-transfected tumor cells suppresses multi-organ metastases of C1300 neuroblastoma in mice. 922 78

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


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