UNIPROT:P04637 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dendritic cells (DC) are now recognized as the most potent professional antigen presenting cells (APC). Several studies on cancer immunotherapy using different approaches to induce cytotoxic T lymphocytes (CTL) in vivo recognizing tumor-associated antigens have been reported. However, the efficacy of immunotherapy in vivo may be limited by the local or systemic suppression of CTL generation or function. To explore the ability of lipopolysaccharide (LPS) stimulated human monocyte-derived DC involved in activity of autologous CD4(+)CD25(+) T cells, HLA-A2 restricted p53(264 - 272) peptide was used as tumor antigen, DC generated with LPS (DC-LPS(+)) or without LPS (DC-LPS(-)) were co-cultured with autologous T cells respectively. The results showed that CD4(+)CD25(+) T cell population in the DC-LPS(+) activated T cells was lower than that in the DC-LPS(-) activated T cells. This finding suggest that the relationship between DC-LPS(+) and population of CD4(+)CD25(+) T cells exists and this property may contribute to regulation of T cell responses to tumor-associated antigens.
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PMID:Role of LPS-stimulated human monocyte-derived dendritic cells in the modulation of autologous CD4+ CD25+ T Cell activation. 1640 82

Intracellular Ags are processed into small peptides that are presented on cell surfaces in the context of HLA class I molecules. These peptides are recognized by TCRs displayed by CD8+ T lymphocytes (T cells). To date, direct identification and quantitation of these peptides has relied primarily on mass spectrometry analysis, which is expensive and requires large quantities of diseased tissues to obtain useful results. Here we demonstrate that multimerization of a soluble single-chain TCR (scTCR), recognizing a peptide from p53 presented in the context of HLA-A2.1, could be used to directly visualize and quantitate peptide/MHC complexes on unmanipulated human tumor cells. Tumor cells displaying as few as 500 peptide/MHC complexes were readily detectable by flow cytometry. The scTCR/multimers exhibited exquisite recognition capability and could distinguish peptides differing in as little as a single amino acid. We also demonstrate that scTCR/multimers could specifically stain human tumors generated in mice, as well as tumors obtained from patient biopsies. Thus, scTCR/multimers represent a novel class of immunostaining reagents that could be used to validate, quantitate, or monitor epitope presentation by cancer cells.
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PMID:Visualization of p53(264-272)/HLA-A*0201 complexes naturally presented on tumor cell surface by a multimeric soluble single-chain T cell receptor. 1649 83

We previously have generated a single-chain T cell receptor-cytokine fusion protein (264scTCR/IL-2) comprising interleukin-2 genetically linked to a soluble HLA-A2.1-restricted TCR recognizing a peptide of human p53 protein. In this report, we show that 264scTCR/IL-2 inhibits the growth of primary tumors derived from the A375 (p53+/HLA-A2.1+) human melanoma and exhibits significantly better antitumor activity than recombinant human IL-2 alone. Moreover, treatment with 264scTCR/IL-2 results in tumor growth retardation in mice bearing large A375 tumors and other p53+/HLA-A2.1+ human tumors but does not affect tumor outgrowth of HLA-A2.1-negative tumors. This suggests that antigen targeting plays a substantial role in the efficacy of 264scTCR/IL-2 against p53+/HLA-A2+ tumors. Further, the antitumor activity of 264scTCR/IL-2 was found to be likely mediated by NK cell activation and tumor infiltration. A biologically active chimeric version of the molecule (c264scTCR/IL-2) also exhibits favorable pharmacokinetic properties required of a clinical candidate for this novel class of potent antitumor activities and targeted anticancer immunotherapeutics.
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PMID:Potent antitumor activity of a tumor-specific soluble TCR/IL-2 fusion protein. 1680 13

Wild-type (WT) sequence p53 peptides are attractive candidates for broadly applicable cancer vaccines. The aim of this study was to evaluate the potential of a WT p53-based immunotherapeutic approach for patients with hepatocellular carcinoma (HCC). Circulating CD8+ T cells specific for WT p53(149-157) and WT p53(264-272) HLA-A*0201 restricted epitopes were directly identified in the peripheral blood by the use of peptide/HLA-A2.1 tetramers in 24 HCC patients. Cytotoxic T lymphocyte (CTL) activity after WT p53 peptide-specific stimulation was assessed by analysis of granzyme B and interferon-gamma mRNA transcription, using a quantitative real-time polymerase chain reaction assay. Tumor immunophenotyping was performed to evaluate the p53 status, the expression of major histocompatibility complex (MHC) and costimulatory molecules in freshly isolated tumor cells. HCC patients exhibited significantly higher frequencies of WT p53-specific memory CD8+ T cells and stronger WT p53-specific CTL activity, when compared with healthy controls. Increased frequencies of p53-specific CD8+ T cells and their activity correlated with selective HLA-A2 allele loss and reduced costimulatory molecule expression of tumor cells. Moreover, augmented numbers of p53-specific T cells coincided with high MHC class II expression in tumor cells but were inversely related to the T status of the tumor node metastasis staging system. Our results indicate the existence of natural immunosurveillance and tumor immune evasion, involving a T cell response against WT p53 tumor antigen in patients with HCC. These findings may have important implications for the future development of cancer vaccines.
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PMID:Increased frequencies of CD8+ T lymphocytes recognizing wild-type p53-derived epitopes in peripheral blood correlate with presence of epitope loss tumor variants in patients with hepatocellular carcinoma. 1699 81

Tumor peptide-based vaccines are more effective when they include tumor-specific Th cell-defined as well as CTL-defined peptides. Presently, two overlapping wild-type sequences (wt) p53 helper peptides, p53(108-122) and p53(110-124), have been identified as HLA-DR1- and/or HLA-DR4-restricted epitopes. These HLA-DR alleles are expressed by approximately 35% of subjects with cancer. To identify Th cell-defined wt p53 peptides suitable for use on the remaining subject population, a dendritic cell (DC)-based coculture system was developed. CD4+ T cells isolated from PBMC obtained from HLA-DR4- normal donors were stimulated ex vivo with autologous DC transfected with wt p53 or mutant p53 cDNA. Reactivity of T cells was tested in ELISPOT IFN-gamma assays against DC pulsed individually with a panel of algorithm-predicted, multiple HLA-DR-binding wt p53 peptides. The wt p53(25-35) peptide was identified as capable of inducing and being recognized by CD4+ T cells in association, at a minimum, with HLA-DR7 and -DR11 molecules, each of which is expressed by approximately 15% of the population. In addition, the presence of anti-p53(25-35) CD4+ Th cells was shown to enhance the in vitro generation/expansion of HLA-A2-restricted, anti-wt p53(264-272) CD8+ T cells, which from one donor were initially "nonresponsive" to the wt p53(264-272) peptide. The wt p53(25-35) peptide has attributes of a naturally presented Th cell-defined peptide, which could be incorporated into antitumor vaccines applicable to a broader population of subjects for whom a wt p53 helper peptide is presently unavailable, as well as used for monitoring anti-p53 Th cell activity in cancer subjects receiving p53-based immunotherapy.
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PMID:The wild-type sequence (wt) p53(25-35) peptide induces HLA-DR7 and HLA-DR11-restricted CD4+ Th cells capable of enhancing the ex vivo expansion and function of anti-wt p53(264-272) peptide CD8+ T cells. 1708 93

p53 Mutations are found in up to 30% of breast cancers and peptides derived from over-expressed p53 protein are presented by class I HLA molecules and may act as tumor-associated epitopes in cancer vaccines. A dendritic cell (DC) based p53 targeting vaccine was analyzed in HLA-A2+ patients with progressive advanced breast cancer. DCs were loaded with 3 wild-type and 3 P2 anchor modified HLA-A2 binding p53 peptides. Patients received up to 10 sc vaccinations with 5 x 10(6) p53-peptide loaded DC with 1-2 weeks interval. Concomitantly, 6 MIU/m(2) interleukine-2 was administered sc. Results from a phase II trial including 26 patients with verified progressive breast cancer are presented. Seven patients discontinued treatment after only 2-3 vaccination weeks due to rapid disease progression or death. Nineteen patients were available for first evaluation after 6 vaccinations; 8/19 evaluable patients attained stable disease (SD) or minor regression while 11/19 patients had progressive disease (PD), indicating an effect of p53-specific immune therapy. This was supported by: (1) a positive correlation between p53 expression of tumor and observed SD, (2) therapy induced p53 specific T cells in 4/7 patients with SD but only in 2/9 patients with PD, and (3) significant response associated changes in serum YKL-40 and IL-6 levels identifying these biomarkers as possible candidates for monitoring of response in connection with DC based cancer immunotherapy. In conclusion, a significant fraction of breast cancer patients obtained SD during p53-targeting DC therapy. Data encourage initiation of a randomized trial in p53 positive patients evaluating the impact on progression free survival.
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PMID:Vaccination with p53 peptide-pulsed dendritic cells is associated with disease stabilization in patients with p53 expressing advanced breast cancer; monitoring of serum YKL-40 and IL-6 as response biomarkers. 1728 89

Wild-type sequence (wt) p53 peptides are attractive candidates for broadly applicable cancer vaccines. Six HLA-A2 or HLA-A24-restricted wt p53 peptides were evaluated for their ex vivo immunogenicity and their potential for use in cancer vaccines. Peripheral blood mononuclear cells (PBMC) obtained from HLA-A*0201(+) and/or HLA-A*2402(+) normal donors and subjects with squamous cell carcinoma of the head and neck (SCCHN) were analyzed for p53 peptide-specific reactivity in ELISPOT IFN-gamma assays. CD8(+) T cells in 7/10 normal donors (HD) and 11/23 subjects with SCCHN responded to at least one of the wt p53 peptides. CD8(+) T cell precursors responsive to wt p53 epitopes were detected in the circulation of most subjects with early disease, and an elevated blood Tc(1)/Tc(2) ratio distinguished wt p53 peptide responders from non-responders. The identification of multiple wt p53 peptides able to induce cytolytic T lymphocytes in most subjects with cancer promotes the development of multi-epitope p53 vaccines.
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PMID:Toward the development of multi-epitope p53 cancer vaccines: an in vitro assessment of CD8(+) T cell responses to HLA class I-restricted wild-type sequence p53 peptides. 1763 Oct 51

Anti-tumor immunity plays an important role in the development of and protection from malignancy. However, there is a lack of information regarding induction of CD4+ T helper responses in patients with squamous cell carcinoma (SCCHN). To explore anti-tumor immune responses against SCCHN, a permanent cell line, Gun-1 was established from a squamous cell carcinoma of the hypopharynx. In addition to its characterization, we performed mixed lymphocyte-tumor cell cultures (MLTC) using peripheral blood lymphocytes and autologous tumor cells. Furthermore, T cell responses to wild type (wt) p53-derived peptides were assessed. Gun-1 cells overexpressed p53 and were negative for HLA-A2 expression. No tumor-specific or wt p53-specific CD8+ CTL lines could be established from peripheral blood mononuclear cells (PBMCs) of this patient. Autologous tumor-specific HLA-DR-restricted CD4+ T helper clone was obtained by limiting dilutions using bulk populations from MLTC. This clone produced IFN-gamma but not IL-5 in response to autologous tumor cells. In addition, CD4+ T cells were generated from the patient's PBMCs which responded to two HLA-DP5-restricted wt p53-derived peptides. Our results suggest that the immune cells specific for autologous tumor as well as wt p53-derived epitopes are present in the peripheral circulation of this cancer patient. However, helper-type CD4+ T lymphocytes represent the predominant anti-tumor response.
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PMID:CD4+ T helper responses in squamous cell carcinoma of the head and neck. 1822 9

We have previously reported that a single-chain T cell receptor/IL-2 fusion protein (scTCR-IL2) exhibits potent targeted antitumor activity in nude mice bearing human tumor xenografts that display cognate peptide/HLA complexes. In this study, we further explore the mechanism of action of this molecule. We compared the biological activities of c264scTCR-IL2, a scTCR-IL2 protein recognizing the aa264-272 peptide of human p53, with that of MART-1scTCR-IL2, which recognizes the MART-1 melanoma antigen (aa27-35). In vitro studies showed that c264scTCR-IL2 and MART-1scTCR-IL2 were equivalent in their ability to bind cell-surface IL-2 receptors and stimulate NK cell responses. In mice, MART-1scTCR-IL2 was found to have a twofold longer serum half-life than c264scTCR-IL2. However, despite its shorter serum half-life, c264scTCR-IL2 showed significantly better antitumor activity than MART-1scTCR-IL2 against p53(+)/HLA-A2(+) tumor xenografts. The more potent antitumor activity of c264scTCR-IL2 correlated with an enhanced capacity to promote NK cell infiltration into tumors. Similar differences in antigen-dependent tumor infiltration were observed with activated splenocytes pre-treated in vitro with c264scTCR-IL2 or MART-1scTCR-IL2 and then transferred into p53(+)/HLA-A2(+) tumor bearing recipients. The data support a model where c264scTCR-IL2 activates immune cells to express IL-2 receptors. Following stable interactions with cell-surface IL-2 receptors, c264scTCR-IL2 fusion molecule enhances the trafficking of immune cells to tumors displaying target peptide/HLA complexes where the immune cells mediate antitumor effects. Thus, this type of fusion molecule could be used directly as a targeted immunotherapeutic or in adoptive cell transfer approaches to activate and improve the anti-cancer activities of immune cells by providing them with pre-selected antigen recognition capability.
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PMID:Targeting activity of a TCR/IL-2 fusion protein against established tumors. 1836 20

Tumor suppressor p53 is reported to be an attractive immunotherapy target because it is mutated in approximately half of human cancers, resulting in inactivation and often an accumulation of the protein in the tumor cells. Only low amounts of protein are detectable in normal tissues. The differential display of antigen in normal versus tumor tissues has been reported to create an opportunity to target p53 by immunotherapy. We sought to determine the relationship between p53 expression and its recognition by cognate T cells in human tumors including common epithelial malignancies. Inasmuch as nonsense or missense p53 mutations may disrupt processing and presentation, we studied tumors with either identified wild-type or mutated p53, based on our gene-sequencing studies or published data. T cells transduced with a high-affinity, p53(264-272)-reactive T cell receptor (TCR) derived from HLA-A2.1 transgenic mice recognized a wide panel of human tumor lines. There was no significant correlation between p53 expression in tumors and recognition by the anti-p53 TCR-transduced T cells. This conclusion was based on the study of 48 cell lines and is in contrast to several prior studies that used only a limited number of selected cell lines. A panel of normal cells was evaluated for recognition, and some of these populations were capable of stimulating anti-p53 T cells, albeit at low levels. These studies raise doubts concerning the suitability of targeting p53 in the immunotherapy of cancer patients.
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PMID:Relationship of p53 overexpression on cancers and recognition by anti-p53 T cell receptor-transduced T cells. 1984 82

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