Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04626 (erbB-2)
 5,251 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two cell lines (University of Michigan squamous carcinoma of the vulva UM-SCV-1A and UM-SCV-1B) were established from the primary tumor and a malignant pleural effusion of a 62-year-old woman. Both tumor specimens grew vigorously in vitro and could be passaged after only 14 and 10 days in culture, respectively. Both cell lines undergo 3 population doublings in 4 days, reaching saturation densities of 5 x 10(5) cells/cm2, and have been carried through more than 30 in vitro passages. In nude mice the cultured cells initially formed tumors but these regressed 2-3 weeks after inoculation. The regressing mouse tumors consisted of poorly differentiated squamous carcinoma surrounded by an inflammatory lymphoid infiltrate. The UM-SCV-1 cell lines express membrane antigens typically displayed by squamous-cell carcinomas. These include the HLA class-1 light chain beta 2-microglobulin, pemphigus, pemphigoid, and the alpha 6 beta 4 integrin defined by the UM-A9 monoclonal antibody (MAb). In contrast to the A431 vulvar carcinoma, these tumor lines do not have amplified expression of the epidermal growth factor (EGF) receptor. Although tissue from the primary tumor contained low levels of estrogen receptor activity, no receptor activity was detected in the cell lines. Nevertheless, both lines were sensitive to growth inhibition by tamoxifen. This effect was not reversible by estradiol, indicating an estrogen-receptor-independent mechanism. The tumors were both hypotetraploid, contained the same chromosome rearrangements and had stable karyotypes in vitro. Each contained inv(1)(p36.3q32.1), del(4)(q12), dic(4;11)(q12;p11.2), i(5p), der(6)t(3;6)(q25.1;p21.1), several rearrangements involving chromosomes 8 and 14, + i(13), i(18p), a dicentric t(11;19), and 2 or 3 unidentified markers. Since the karyotypes of both tumors were the same, no major karyotypic change was associated with metastatic spread. These paired primary and metastatic SCC lines from an unusually aggressive vulvar carcinoma provide an in vitro model for analysis of the biological basis of this tumor's behavior.
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PMID:Phenotypic characterization, karyotype analysis and in vitro tamoxifen sensitivity of new ER-negative vulvar carcinoma cell lines, UM-SCV-1A and UM-SCV-1B. 233 95

An extensive panel of monoclonal antibodies (MAb) and monospecific antisera reactive against neuroectodermal-, neuronal-, glial-, and lymphoid-associated antigens, extracellular matrix, HLA, and cell-surface receptors was used to characterize the phenotype of four continuous, karyotypically distinct medulloblastoma cell lines and transplantable xenografts. All four cell lines demonstrated significant reactivity with anti-neuroectodermal-associated MAb. No apparent pattern of reactivity with anti-lymphoid MAb was seen; notably, there was a uniform absence of detectable Thy-1. Review of the complete antibody reactivity profile revealed a dichotomy between lines TE-671 and Daoy and lines D283 Med and D341 Med, which have been previously shown to express neurofilament protein in culture and xenografts, and to exhibit neuroblastic morphological features in biopsy and xenograft tissue sections. TE-671 and Daoy reacted with the MAb directed against tenascin, epidermal growth factor (EGF) receptor, HLA-A,B epitopes, beta 2-microglobulin and 5/8 of the glioma-associated antigens, but did not react with the anti-neurofilament protein (NFP) MAb. D283 Med and D341 Med expressed NFP but did not react with MAb against tenascin, EGF receptor, HLA-A,B epitopes, beta 2-microglobulin or 6/8 and 7/8 (respectively) of the glioma-associated antigens. The observed phenotypic differences provide a conceptual framework for investigating basic differences in the biological behavior of medulloblastoma. Moreover, the subdivisions can be evaluated for prospective value in tissue diagnosis, cerebrospinal fluid cytology and antibody-mediated imaging and therapy.
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PMID:Phenotypic analysis of four human medulloblastoma cell lines and transplantable xenografts. 253 15

The HER-2/neu proto-oncogene encodes a transmembrane receptor protein whose expression is enhanced in a number of breast and ovarian tumors and correlates with tumor aggressiveness, suggesting that it may play an important role in tumor growth. Recent evidence suggests that HER-2/neu may be a potential candidate for targeted immune intervention. In this report we show that cytotoxic T lymphocytes (CTL) expanded from tumor-associated lymphocytes with HLA-A2+ and HER-2/neu+ tumors can specifically recognize synthetic peptides corresponding to amino acids 971-980 of HER-2/neu protein. This sequence includes a potential amphiphilic area containing both Rothbard's epitode motifs and HLA-A2 anchor residues. Our study provides the first direct evidence of HER-2/neu-reactive CTL in humans. The fact that these HER-2/neu peptide-reactive CTL show significantly lower reactivity with corresponding EGF-R peptides offers new perspectives for understanding the recognition of self-antigens by tumor-reactive T cells.
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PMID:Cytotoxic T cells isolated from ovarian malignant ascites recognize a peptide derived from the HER-2/neu proto-oncogene. 769 18

The HER-2/neu proto-oncogene (HER-2) encodes a transmembrane protein whose expression is enhanced in a number of breast and ovarian tumors and correlates with tumor aggressiveness. Because of its expression on normal epithelial cells, HER-2 can be defined as a tumor associated antigen and is of interest as a target of a therapeutic anti-tumor T cell response. To investigate whether oligopeptides analogs of HER-2 isolated from a likely target area of T cells can induce an anti-tumor CTL response, peripheral blood mononuclear cells were stimulated in vitro with HER-2 synthetic peptides. CTL cultures generated recognized peptides used as immunogen. A CD3+CD8+CD4- line isolated from these cultures lysed HLA-A2+, HER-2+ ovarian tumors but not natural killer target K562 cells, and showed significantly higher lysis of HER-2high than of HER-2low ovarian tumors. This lysis was inhibited by HER-2 peptide-pulsed HLA-A2+ targets, suggesting that similar epitopes are presented on tumor cells associated with HLA-A2. The observation that peptide analogs of a proto-oncogene can induce CTL in vitro which express tumor lysis dependent on the levels of expression of HER-2 is novel for human tumor systems. Targeting by T cells of HER-2 may prove useful for understanding the mechanisms of recognition, tolerance, and therapeutic use of human tumor reactive T cells.
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PMID:Oligopeptide induction of a cytotoxic T lymphocyte response to HER-2/neu proto-oncogene in vitro. 791 3

The HER-2/neu protooncogene (HER-2) is overexpressed in a significant number of breast and ovarian tumors. Peptides of HER-2 sequence were recently found to reconstitute recognition of cytotoxic T lymphocytes (CTLs) from tumor-associated (TALs) and tumor-infiltrating (TILs) lymphocytes, indicating that they reconstitute natural epitopes recognized by CTLs on HLA-A2+ tumors. Because HER-2 is an important antigen (Ag) for tumor-specific CTL induction and the immunogenicity of peptides for CTL induction is dependent on their presentation as stable complexes with HLA-A2, we identified peptides of high and low stabilizing activity from the sequence of HER-2 and the folate-binding protein (FBP). Distinct sequence patterns in the region positions (P)3-P5 and P1 were found for peptides with high (HSA) and low (LSA) stabilizing ability. A low-HLA-A2-affinity HER-2 peptide, P1 of the CTL epitope, was found to be permissive to substitutions that enhanced HLA-A2-stabilizing ability and conserved CTL recognition. In contrast, the region P3-P5 was not permissive to sequence changes. We conclude that the selective permissivity of P1 and P9 in the tumor epitope sequence may have important implications for optimization of tumor Ag presentation, and "neoantigenicity" of self-antigens, aiming toward induction of tumor-reactive CTLs of defined affinity and specificity for target Ags.
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PMID:Changes in an HER-2 peptide upregulating HLA-A2 expression affect both conformational epitopes and CTL recognition: implications for optimization of antigen presentation and tumor-specific CTL induction. 868 Jun 48

We have developed an in vitro model to study mechanisms by which ovarian tumor cells that over-express the HER-2/neu proto-oncogene escape recognition by TCD8+. Nine tumor-specific, HLA A2-restricted TCD8+ clones were isolated from 2 ovarian tumor-specific TCD8+ lines derived from tumor-infiltrating or -associated lymphocytes. Of these, 2 clones recognized the previously defined HER-2/neu epitope E75 (a.a. 369-377) and one recognized the C85 epitope (a.a. 971-979), whereas the specificity of the remaining 6 clones was unknown. Three different tumor escape variants (EVC8, EVC22 and EVC36) were produced by co-culturing an ovarian tumor line over-expressing HER-2/neu with these autologous TCD8+ clones. Cell surface expression of HLA A2 was markedly decreased on all 3 escape variants, relative to the parental tumor line, while no significant decrease in their expression of the HER-2/neu, ICAM-1 or LFA-3 molecules was found. There was a correlation between the level of tumor-specific recognition and HLA A2 expression among the tumor clones isolated from 2 of the escape variants (EVC8 and EVC36). In contrast, high HLA A2-expressing tumor clones isolated from the EVC22 variant, or EVC22 which had regained high HLA A2 expression through IFN-gamma treatment, were not recognized by the HER-2/neu-specific TCD8+ clone C-22. No mutations were found in the cDNA or the genomic DNA derived from the PCR product corresponding to a 496 bp fragment including the region coding for the E75 epitope of the HER2/neu gene in the EVC22 variant. Collectively, this in vitro model underlines the importance of decreased expression of the HLA restriction element for escape from tumor-specific TCD8+ but also demonstrates that additional mechanisms exist.
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PMID:Mechanisms of escape from CD8+ T-cell clones specific for the HER-2/neu proto-oncogene expressed in ovarian carcinomas: related and unrelated to decreased MHC class 1 expression. 898 99

Small peptides, 8-10 amino acids long, derived from degradation of cytoplasmic proteins by a proteasome-proteinase complex, are usually presented and recognized by CD8+ cytolytic T lymphocytes (CTLs) associated with major histocompatibility complex (MHC) class I molecules. Recently synthetic peptides were used for the in vitro induction of tumor-specific CTLs, offering another strategy in the study of the immune-response repertoire and providing a new tool in cancer vaccination and immunotherapy. Peptides derived from otherwise normal proteins, overexpressed in many tumors as products of the protooncogene, may represent a target for an immune response. This is the case of HER-2/neu gene (also known as ErbB-2), encoding a cysteine-rich glycoprotein transmembrane receptor with tyrosine kinase activity (gp185neu). Recent data, demonstrating that HLA-A2.1-related peptides are able to stimulate in vitro CD8+ lymphocytes, Prompted us to study the binding to HLA-A2.1 molecules of several gp185 synthetic peptides containing a cystein residue and to define the relevance of this amino acid residue in the reduced or oxidated form of the sulfhydryl group. We found that monomers and their homodimers, linked by a disulfide bridge, bind to HLA-A2.1 molecules with overlapping affinity. These results suggest that additional amino acids of the nonapeptide do not prevent the binding and the HLA refolding through chemical or sterical interactions. This might be of particular relevance for the in vivo processing of cysteine-rich proteins. Because ErbB-2 molecules, as tumor-differentiation antigens in melanoma, are cysteine-rich molecules, it may be relevant to evaluate the possible role of the cystine residues interacting with the T-cell receptor. The recognition of these heterodimers by CD8+ lymphocytes will require functional in vivo studies.
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PMID:MHC-peptide binding: dimers of cysteine-containing nonapeptides bind with high affinity to HLA-A2.1 class I molecules. 940 48

One approach to development of specific cancer immunotherapy relies on the induction of cytotoxic T lymphocytes (CTL) specific for tumor-associated antigens (TAA). Induction of TAA-specific CTL could be used towards the eradication of established tumors, or to prevent their dissemination or recurrence after primary treatment. The present study identifies a set of CTL epitopes from TAA frequently found on solid epithelial tumors such as breast, lung and gastro-intestinal tumors. Specifically, HLA-A2.1 binding peptides from the MAGE2, MAGE3, HER-2/neu and CEA antigens were tested for their capacity to elicit in vitro anti-tumor CTL using lymphocytes from normal volunteers and autologous dendritic cells as antigen-presenting cells. A total of 6 new epitopes (MAGE2[10(157)], MAGE3[9(112)], CEA[9(691)], CEA[9(24)], HER2[9(435)] and HER2[9(5)]) were identified which were capable of specifically recognizing tumor cell lines lines expressing HLA-A2.1 and the corresponding TAA. In one case (CEA[9(24)]), induction of vigorous anti-tumor CTL responses required epitope engineering to increase HLA-A2.1 binding affinity. Finally, most of the newly identified epitopes (5 out of 6) were found to be highly crossreactive with other common HLA alleles of the A2 supertype (A2.2, A2.3, A2.6 and A6802), thus demonstrating their potential in providing broad and non-ethnically biased population coverage. The results are discussed in the context of the development of multi-epitope-based therapies with broad applicability for patients suffering from commonly found tumors.
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PMID:The multi-epitope approach for immunotherapy for cancer: identification of several CTL epitopes from various tumor-associated antigens expressed on solid epithelial tumors. 954 34

Molecular changes associated with breast cancer progression were characterized using the MCF-10F cell series. MCF-10F was established from fibrous mastectomy tissue of a patient without detectable cancer. In vitro treatment of MCF-10F cells with benzo(a)pyrene resulted in a transformed subclone MCF-10F-BP1 (BP1). Transfection of clone BP1 with T24-Hras resulted in the tumorigenic line MCF-10F-BP1-Tras (BP1-Tras). Using flow cytometry, the expression of HLA I, ERBB-2 and MUC-1 was found to be comparable in 'normal' MCF-10F, transformed BP1 and tumorigenic BP1-Tras cells. Glycosylated mucin is elevated in BP1 but reduced in BP1-Tras cells. Using mRNA differential display analysis, cDNA profiles of the 'normal', transformed and tumorigenic cell lines were strikingly similar, yet distinct and elevated expression of several common cDNA fragments was detected in BP1 and BP1-Tras when compared with MCF-10F cells. These fragments were cloned and sequenced. The sequences of clones T1-360 and C4-310 are homologous to two reported EST cDNA clones from human fetal tissue and were further characterized. Elevated expression of the genes corresponding to clones T1-360 and C4-310 was verified using Northern blotting. High-level expression of these genes was also detected in the breast cancer cell line MCF-7 that was derived from the pleural effusion of a patient with advanced breast cancer. Therefore, specific molecular changes associated with breast cancer development were identified and may be indicators of neoplastic progression.
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PMID:Neoplastic progression of breast epithelial cells--a molecular analysis. 968 93

Previous studies have characterized the reactivity of CD8+ CTLs with ovarian and breast cancer. There is little information about the antigens and epitopes recognized by CD4+ T cells in these patients. In this study, we analyzed the ability of T cells from peripheral blood mononuclear cells of breast cancer patients to recognize HER-2/neu (HER-2) peptides. We found that 13 of 18 patients responded by proliferation to at least one of the HER-2 peptides tested. Of these peptides, one designated G89 (HER-2: 777-789) was recognized by T cells from 10 patients. Seven of nine responding patients were HLA-DR4+, suggesting that this peptide is recognized preferentially in association with HLA-DR4. Analysis of the specificity and restriction of the cytokine responses to G89 by G89-stimulated T cells revealed that these cells secreted significantly higher levels of IFN-gamma than interleukin 4 and interleukin 10, suggesting priming for a Th0-T helper 1 response. The same pattern of cytokine responses was observed to the intracellular domain of HER-2 protein, suggesting that G89-stimulated T cells recognized epitopes of the HER-2 protein in association with HLA-DR4. Because HLA-DR4 is present in 25% of humans, characterization of MHC class II-restricted epitopes inducing Th0-T helper 1 responses may provide a basis for the development of multivalent HER-2-based vaccines against breast and ovarian cancer.
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PMID:Proliferative and cytokine responses to class II HER-2/neu-associated peptides in breast cancer patients. 971 33


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