Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0677930 (primary tumor)
 20,210 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have shown previously that peripheral blood lymphocytes (PBL) of patients with metastatic melanoma include cytotoxic T-cell clones that recognize Melan-A/MART-1 in a HLA-A2-restricted fashion. Such clones preferentially use the variable (V) regions TCRBV14 or TCRBV7 in the beta-chain of their T-cell receptor (TCRB). It was not known, however, whether this finding is associated with the presence of the HLA-A2 allele in tumor tissue and whether evidence of the predominance of these TCRBV families can also be observed in primary tumor tissue. To address these issues, we have used a semiquantitative PCR to examine the TCRBV repertoire in six HLA-A2-matched primary melanomas in comparison with their autologous PBL. Although each patient had his or her own pattern of skewed TCRBV utilization, in all patients, T-cells that used TCRBV14 were significantly overrepresented in the neoplastic site compared with PBL. All of the primary tumors studied had detectable expression of Melan-A/MART-1 and gp100, and immunohistochemical analysis confirmed the presence of the HLA-A2 allele. Additional samples of Melan-A/MART-1-positive, gp100-positive primary melanomas from six non-HLA-A2 patients and four autologous normal skin controls failed to reveal a TCRBV14 predominance in such tissues. These results point to a role of TCRBV14 T lymphocytes in the HLA-A2-restricted immune recognition of primary melanomas.
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PMID:Overexpression of the T-cell receptor beta-chain variable region TCRBV14 in HLA-A2-matched primary human melanomas. 761 74

We characterized the HLA class I alterations in five metastases obtained from two patients with melanoma immunized with Melan A/MART-1, tyrosinase and gp100 tumor peptides. All three metastases analyzed in the first patient (NW145) showed a similar HLA class I alteration with a dual population of melanoma cells. One population was HLA class I antigen positive and the other had loss of heterozygosity (LOH) in the short arm of chromosome 6 leading to an HLA haplotype loss (A02011, B4007, Cw1). The absence of HLA-A2 antigen may explain why this patient did not develop HLA-A2 restricted, Melan A/MART-1 specificity immunization, since this HLA molecule is the restriction element for the tumor peptides used. However, this HLA-deficient population was not selected after peptide immunotherapy. The primary tumor in this patient presented LOH in region 6q, but only in the vertical growth phase of the lesion, whereas LOH at 6p was observed only in DNA from metastatic material. The second patient (NW16) also presented two metastatic lesions with an identical HLA molecular defect, i.e. HLA B locus downregulation (HLA B51011: serological B51; B1503: serological B70). One lesion expressed the tumor antigen (Melan A/ MART-1), but the other did not. Interestingly, the antigen-positive metastasis regressed after peptide immunotherapy, whereas the other progressed rapidly. These findings provide the first indication that multiple metastases generated in the same host can have identically altered HLA class I phenotypes.
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PMID:Analysis of HLA class I expression in different metastases from two melanoma patients undergoing peptide immunotherapy. 1155 81

We developed the techniques of lymphatic mapping and sentinel node (SN) biopsy to improve the management of patients with high-risk (thick and deep) primary melanoma. The SN is the first lymph node on the direct lymphatic drainage path from the primary tumor. This node is uniquely immune-modulated by the primary tumor and is the node most likely to contain the earliest stages of metastases. Accurate assessment of the SN requires careful evaluation of multiple sections removed from the areas of the node most likely to contain tumor. These sections are stained with hematoxylin and eosin and by immunohistochemistry with antibodies directed to tumor-associated markers (S-100, HMB-45, and Melan-A/MART-1) in the case of melanoma and to cytokeratins for breast cancer. Studies are in progress to determine whether molecular biology techniques will detect additional nodes that contain truly occult tumor deposits.
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PMID:Current practice and future directions in pathology and laboratory evaluation of the sentinel node. 1159 89

A significant percentage of stage II melanoma patients (tumor thickness>1 mm) remain at risk of tumor recurrence after primary tumor excision. In this study, we used tumor antigen-pulsed dendritic cells as an adjuvant for immunization of these "high-risk" melanoma patients after resection of the primary tumor. A total of 13 patients were included and vaccinated 6 times every 14 days with autologous dendritic cells pulsed with a MelanA/MART-1 peptide in combination with a recall antigen. Antigen-specific immune responses were monitored before, during and up to 1 year after the last vaccination. The majority of patients exhibited increased recall antigen-specific CD4+ T cell responses upon vaccination. MelanA/MART-1-specific CD8+ T cells were expanded in 9/13 patients resulting in increased frequencies of memory cells in these patients. CD8+ T cells acquired the capacity to secrete IFN-gamma, to proliferate in culture in response to the tumor antigen used for vaccination and postvaccine samples contained MelanA/MART-1-specific T cells that recognized also the natural MelanA/MART-1-antigen expressed by tumor cells. Moreover, vaccination induced a long-lived tumor antigen-specific DTH-reactivity in the majority of the patients, detectable even 12 months after the last immunization. These data demonstrate for the first time that vaccination with tumor antigen-pulsed dendritic cells in a clinically adjuvant setting induces strong and persistent antigen-specific T-cell responses in tumor-free stage II melanoma patients, suggesting that tumor protective T cell immunity can be achieved.
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PMID:Induction of strong and persistent MelanA/MART-1-specific immune responses by adjuvant dendritic cell-based vaccination of stage II melanoma patients. 1635 38

The generation of T cells with specific reactivity against tumor-associated antigens is prerequisite for adoptive transfer therapy. Melanoma-specific lymphocyte cultures can be established from tumor-infiltrating lymphocytes (TILs) by in vitro culture with high levels of interleukin-2. In this report, we present TIL data originating from 728 attempted cultures from 33 consecutive melanoma biopsy specimens originating from 30 patients. Cultures were analyzed for the presence of interferon gamma (IFNgamma)-producing cells upon stimulation with a panel of HLA-ABC semimatched melanoma cell lines. We sought to find whether such cell lines could be used to analyze TIL reactivity. Cell lines were used as stimulators to circumvent the need for autologous primary tumor cells. Melanoma-reactive cultures were identified by flow cytometry in 25 of the 30 patients. Four hundred forty-four of 728 (60.9%) cultures contained TILs at the end of experiment. Ninety-one of 318 cultures (28.6%) contained IFNgamma-producing cells after stimulation. In HLA-A*0201 patients IFNgamma analysis was complemented with melanoma-specific tetramer staining. All but one HLA-A*0201 patient had MART-1/Melan-A27-35-directed TILs, with frequencies ranging from 0.1% to 90% of CD8 cells. In addition, tetramer analysis also identified TILs directed against gp100, Tyrosinase, and Her2Neu. Tumor material was collected via needle biopsy in 16 cases and surgery in 18 cases. Overall, surgical material generated more cultures positive for T cells. The described methods are efficient in characterizing clinically relevant melanoma-reactive TILs.
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PMID:Effector T cell analysis of melanoma tumor-infiltrating lymphocyte cultures using HLA-ABC semimatched melanoma cell lines. 1860 Jan 81

An optimized antigen-presenting cell for tumor immunotherapy should produce a robust antigen specific cytotoxic T lymphocytes (CTL) response to tumor-associated antigens, which can persist in vivo and expand on antigen reencounter. Interleukin (IL)-21 synergizes with other gamma-chain cytokines to enhance the frequency and cytotoxicity of antigen-specific CTL. As T cells themselves may serve as effective antigen-presenting cells (T antigen-presenting cells; TAPC) and may be useful in vivo as cellular vaccines, we examined whether CD8(+) T cells genetically modified to produce IL-21 could induce immune responses to tumor associated antigen peptides in healthy human leukocyte antigen-A2(+) donors. We found that IL-21 modified TAPC enhanced both the proliferation and survival of MART-1 specific CD8(+) T cells, which were enriched by >8-fold over cultures with control nontransgenic TAPC. MART-1-specific CTL produced interferon-gamma in response to cognate peptide antigen and killed primary tumor cells expressing MART-1 in a major histocompatibility complex restricted manner. IL-21 modified TAPC similarly enhanced generation of functional CTL against melanoma antigen gp100 and the B-cell chronic lymphocytic leukemia associated RHAMM antigen. Antigen-specific CTL generated using IL-21 gene-modified TAPC had a central memory phenotype characterized by CD45RA(-), CD44(high), CD27(high), CD28(high), CD62L(high), and IL-7 receptor-alpha(high), contrasting with the terminal effector phenotype of CTL generated in the absence of IL-21. Thus, TAPC stimulation in the presences of IL-21 enhances proliferation of tumor antigen-specific T cells and favors induction of a central memory phenotype, which may improve proliferation, survival, and efficacy of T-cell based therapies for the treatment of cancer.
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PMID:Genetic modification of T cells with IL-21 enhances antigen presentation and generation of central memory tumor-specific cytotoxic T-lymphocytes. 1956 36

There is a significant need for the development of diagnostic tools that can precisely distinguish Spitz nevi and spitzoid melanomas. Here, we report the development of a PCR-based quantitative diagnostic assay for spitzoid melanocytic lesions utilizing the expression ratio of neuropilin-2 and melan-A genes in primary tumor specimens. We find that the expression ratio of neuropilin-2/melan-A is significantly increased in spitzoid melanomas compared with Spitz nevi. The diagnostic potential of this quantitative assay was validated in two independent sets of patient samples as demonstrated in a receiver operating characteristic curve analysis showing an area under the curve value of 91.8%. Furthermore, the assay was found to quantitatively distinguish the clinical nature of atypical spitzoid melanocytic lesions that were diagnostically undetermined using histopathologic criteria alone. Our data indicate that this quantitative assay may be used as a tool in determining the diagnostic classification of histologically challenging spitzoid tumors.
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PMID:Quantitative assessment of neuropilin-2 as a simple and sensitive diagnostic assay for spitzoid melanocytic lesions. 2922 34

Ependymoma (EPN) is a rare primary tumor of the central nervous system (CNS) that affects both children and adults. Despite the definition and classification of distinct molecular subgroups, there remains a group of EPNs with a balanced genome, which makes it difficult to predict a prognosis of patients with EPN. The role of miRNA-mRNA network on EPN is still poorly understood. We assessed the involvement of miRNA-mRNA pairs in EPN by applying a weighted co-expression network analysis (WGCNA) approach. Using whole genome expression profile analysis followed by functional enrichment, we detected hub genes involved in active proliferation and DNA replication of nerve cells. Key genes including CYP11B1, KRT33B, RUNX1T1, SIK1, MAP3K4, MLANA, and SFRP5 identified in co-expression networks were regulated by miR-15a and miR-24-1. These seven miRNA-mRNA pairs were considered to influence not only pathways in cancer and tumor suppression process, but also MAPK, NF-kappaB, and WNT signaling pathways which were associated with tumorigenesis and development. This study provides a novel insight into potential diagnostic biomarkers of EPN and may have value in choosing therapeutic targets with clinical utility.
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PMID:Investigation of miRNA and mRNA Co-expression Network in Ependymoma. 3226 23