Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

MHC class I and II molecules play an important role in specific interactions with cells of the immune system. Endogenous or exogenous antigens are presented to the clonotypic receptor of T cells as small peptides associated to MHC molecules. Qualitative or quantitative variation in the expression of these molecules in the surface of tumor cells could have important implications in anti-tumor immune responses. We have analysed 344 human tumors for HLA class I and II expression and found that 10-30% of tumors present a total loss of HLA ABC molecules. In addition, HLA-A or -B locus-specific losses were also detected. These alterations have been correlated with tumor aggressiveness in breast and laryngeal carcinomas. We also have observed that the expression of HLA ABC molecules in autologous metastasis did not always correspond with the expression detected in the primary tumor. In laryngeal carcinomas HLA-DR expression was associated with an excellent prognosis. We have observed in most tumors that the absence of class I molecules usually corresponds with a simultaneous loss of heavy chain and beta 2 microglobulin expression and with a low level of the mRNA specific for class I genes. Nevertheless, a variety of mechanisms are involved since in colon tumors the absence of expression is caused by beta 2 microglobulin down regulation. Also post-transcriptional mechanisms may be involved in the differential expression of HLA-A and -B locus products. There is no doubt that a more exact knowledge of the mechanisms that produce alteration in the expression of these antigens will help to manipulate MHC gene expression in human tumors and to induce a more efficient immune response.
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PMID:MHC expression on human tumors--its relevance for local tumor growth and metastasis. 191 16

Genomic amplification of the oncogene N-myc is associated with rapid tumor progression and poor prognosis in patients with neuroblastoma (NB). However, 40% of NBs which lack N-myc amplification are also clinically aggressive. Factors other than N-myc copy number must therefore play a role in determining tumor progression in these NBs. We have established an unusual human NB cell line (NBL-S) from the primary tumor of a patient with rapidly progressive disease which lacks N-myc amplification. The doubling time in vitro (48 h) and the time from injection of 2 x 10(7) cells to detectable tumors in nude mice (46 days) in similar to NB cell lines with amplified N-myc. However, karyotype analysis reveals no evidence of double minutes (DMs), homogeneously staining regions (HSRs), or chromosome 1p deletions, features commonly seen in NB cell lines. The cells have the cell surface phenotype typical of N-myc amplified NB (HLA-A,B,C negative and HSAN 1.2 positive), and similar to other NB cell lines, N-myc RNA and protein are expressed. Interestingly, the half-life of the N-myc protein in NBL-S is prolonged (approximately 100 min) compared to the short N-myc protein half-life previously described in N-myc amplified NB cell lines (approximately 30 min). Because N-myc protein is thought to have a regulatory role, prolongation of the half-life of this protein may be an important factor in the regulation of growth in NBs which lack N-myc amplification and rapidly progress.
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PMID:Prolonged N-myc protein half-life in a neuroblastoma cell line lacking N-myc amplification. 228 1

The effect of recombinant gamma-interferon (IFN-gamma) on established human colon carcinoma cell lines as well as fresh tumor cells from colon carcinoma patients has been investigated with respect to growth inhibition, enhancement of HLA expression, and modulation of immunogenicity. A direct antiproliferative activity of IFN-gamma was observed in five of seven cell lines tested, with a reduction of [3H]thymidine incorporation between 30 and 90%. Depending on the cell line, the IFN-gamma doses required for maximal inhibition varied between 20 and 2 X 10(4) units/ml. Independent of this effect, IFN-gamma enhanced the expression of HLA-A,B,C antigens in all cells investigated and induced expression of HLA-DR in three of seven carcinoma cell lines. Antigenic modulation of Class I and II major histocompatibility complex antigens was paralleled by an enhancement of the in vitro immunogenicity in three of four established carcinoma lines and in three of three cases, using cells derived from primary tumor cultures. Induction or enhancement of both proliferative and cytolytic T-cell responses was obtained in allogeneic and in autologous mixed-lymphocyte tumor cell cultures.
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PMID:Differential gamma-interferon response of human colon carcinoma cells: inhibition of proliferation and modulation of immunogenicity as independent effects of gamma-interferon on tumor cell growth. 316 Apr 56

The antigenic heterogeneity of primary and metastatic lesions surgically removed from nine patients with nodular melanoma was investigated by using monoclonal antibodies to HLA-A, B antigens, to beta 2-microglobulin, to Ia antigens, and to melanoma-associated antigens (MAA). The latter include three types of membrane-bound MAA and a cytoplasmic MAA. In spite of an homogeneous morphologic appearance, multiple lesions removed from the same patient differed significantly in their reactivity with the panel of monoclonal antibodies in indirect immunofluorescence test. The extent of antigenic heterogeneity did not correlate with melanin synthesis, site of origin of the primary tumor, site of metastatic foci, or treatment, but was less marked in patients carrying the primary tumor. The antigenic heterogeneity of multiple lesions removed from one patient and the independent expression of the various types of MAA investigated suggest that combinations of monoclonal antibodies to MAA may be more effective than single antibodies for radioimaging and immunotherapy.
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PMID:Antigenic heterogeneity of surgically removed primary and autologous metastatic human melanoma lesions. 660 Apr 84

We determined the frequency of expression of the major histocompatibility complex antigens HLA-A,B,C in tumor cells from 207 primary tumor lesions of breast and bronchogenic carcinomas, to see if the expression of theses antigens was linked with several clinicopathological parameters associated with tumor aggressivity, such as abnormal cellular DNA content. We compared tumor tissues with nonneoplastic tissues and tissues from 15 benign breast lesions. HLA class I expressor and nonexpressor tumor cells were determined by using immunohistochemical stains (PAP and APAAP methods) and antibodies against these antigens. Reduction of HLA class I antigen was detected in 65 tumors (31.7%) and was significantly associated with poor tumor differentiation and abnormal cellular DNA content (p < 0.001). These characteristics might define a group of aggressive tumors in which the decrease of HLA class I antigens would enable tumor cells to avoid eliciting host immune responses. On the other hand, the altered regulatory mechanisms, of tumors with abnormal cellular DNA content, might modulate the expression of HLA class I molecules.
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PMID:Class I major histocompatibility complex antigens and tumor ploidy in breast and bronchogenic carcinomas. 904 59

The generation of fused cells between dendritic cells (DC) and tumor cells is a very effective approach for tumor antigen presentation in cancer immunotherapy. However, the application of this approach in clinical studies is limited by the need for established tumor cell lines and the time-consuming procedures for selecting and expanding the fused cells. In the current study, the authors report a rapid, novel approach to produce fused cells between DCs and primary tumor cells from patients with malignant melanoma. Peripheral blood DCs and a primary tumor cell culture were generated from the same patients, labeled with fluorescent green and red dyes, respectively, and fused. The fused cells were isolated by fluorescence-activated cell sorting. Because the fused cells do not need to be expanded, these cell hybrids have been named instant dendritomas. Fluorescence-activated cell sorting analysis showed that instant dendritomas express the key molecules for antigen presentation (HLA-A, B, C; HLA-DR; CD80; and CD86). In vitro studies have shown that instant dendritomas effectively activated autologous CD8+ T lymphocytes to proliferate and secret interferon-gamma. More importantly, the activated CD8+ T lymphocytes effectively lysed the patients' primary tumor cells. This approach represents a practical clinical strategy for cancer immunotherapy.
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PMID:A rapid, novel strategy to induce tumor cell-specific cytotoxic T lymphocyte responses using instant dentritomas. 1126 78

SUMMARY: The generation of fused cells between dendritic cells (DC) and tumor cells is a very effective approach for tumor antigen presentation in cancer immunotherapy. However, the application of this approach in clinical studies is limited by the need for established tumor cell lines and the time-consuming procedures for selecting and expanding the fused cells. In the current study, the authors report a rapid, novel approach to produce fused cells between DCs and primary tumor cells from patients with malignant melanoma. Peripheral blood DCs and a primary tumor cell culture were generated from the same patients, labeled with fluorescent green and red dyes, respectively, and fused. The fused cells were isolated by fluorescence-activated cell sorting. Because the fused cells do not need to be expanded, these cell hybrids have been named instant dendritomas. Fluorescence-activated cell sorting analysis showed that instant dendritomas express the key molecules for antigen presentation (HLA-A, B, C; HLA-DR; CD80; and CD86). In vitro studies have shown that instant dendritomas effectively activated autologous CD8+ T lymphocytes to proliferate and secret interferon-gamma. More importantly, the activated CD8+ T lymphocytes effectively lysed the patients' primary tumor cells. This approach represents a practical clinical strategy for cancer immunotherapy.
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PMID:A Rapid, Novel Strategy to Induce Tumor Cell-Specific Cytotoxic T Lymphocyte Responses Using Instant Dendritomas. 1144 68

p53 overexpression occurs in more than 50% of colorectal carcinomas, which makes it an interesting target for immunotherapy. HLA class I expression on tumor cells is required for the presentation of p53 peptides and an effective T-cell mediated-immune response to ensue. To analyze to which extent p53 and HLA-I expression in a primary tumor reflects expression in liver metastases, we investigated p53, HLA-A and HLA-B/C expression in 82 colorectal carcinomas and 143 associated liver metastases of 82 patients. We used the monoclonal antibodies DO-7 (p53), HCA2 (HLA-A) and HC-10 (HLA-B/C) on formalin-fixed, paraffin embedded tissue. The percentage of expressing cells was estimated. P53 was overexpressed in 73% of the colorectal carcinomas and 66% of liver metastases. HLA-A was expressed in 98% and 96% and HLA-B/C in 100% and 94% of colorectal cancers and liver metastases respectively. There were no significant differences between the primary tumors and the liver metastases for each marker. The concordance was also very high in those cases in which more than one metastasis was available. Discordant cases consisted of tumors in which expression of p53 or HLA-A was lost in the liver metastases, whereas it was present in only a few tumor cells in the primary tumor. The combined analysis of p53 and HLA-I expression in liver metastases demonstrated that both molecules were expressed in 63% of the cases. P53 and HLA-I were expressed in the majority of primary tumors and their associated liver metastases. This allows to select patients for p53-immunotherapy on the basis of p53 and HLA-I expression in the primary tumor.
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PMID:p53 and HLA class-I expression are not down-regulated in colorectal cancer liver metastases. 1506 6

The granted European patent EP 2 561 890 describes a procedure for an immunological treatment of cancer. It is based on the principles of the HLA-supported communication of implantation and pregnancy. These principles ensure that the embryo is not rejected by the mother. In pregnancy, the placenta, more specifically the trophoblast, creates an "interface" between the embryo/fetus and the maternal immune system. Trophoblasts do not express the "original" HLA identification of the embryo/fetus (HLA-A to -DQ), but instead show the non-classical HLA groups E, F, and G. During interaction with specific receptors of NK cells (e.g., killer-immunoglobulin-like receptors (KIR)) and lymphocytes (lymphocyte-immunoglobulin-like receptors (LIL-R)), the non-classical HLA groups inhibit these immunocompetent cells outside pregnancy. However, tumors are known to be able to express these non-classical HLA groups and thus make use of an immuno-communication as in pregnancies. If this occurs, the prognosis usually worsens. This patent describes, in a first step, the profiling of the non-classical HLA groups in primary tumor tissue as well as metastases and recurrent tumors. The second step comprises tailored antibody therapies, which is the subject of this patent. In this review, we analyze the underlying mechanisms and describe the currently known differences between HLA-supported communication of implantation and that of tumors.
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PMID:European Patent in Immunoncology: From Immunological Principles of Implantation to Cancer Treatment. 3101 67

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