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:C0699790 (colon cancer)
28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activated c-raf(-1) gene was found in three transformants obtained by transfecting DNAs from rat hepatocellular carcinoma, metastasis of human colon cancer in mesocolon and normal mucosa from a different colon cancer patient. Rat and human activated c-raf(-1) genes were cloned into cosmid vectors; restriction enzyme mapping revealed both activated c-raf(-1) genes to have rearrangement in the center of the normal form of the gene, and the upstream sequences were replaced by unrelated sequences. Using genomic DNA fragments located immediately downstream of the recombination points, the activations of all these c-raf(-1) were shown to have occurred during the transfection process. The recombination points in both the rat and human clones isolated were located in the intron between exons 7 and 8, and nucleotide sequencing around these recombination points showed there to be an inverted repeat which could be involved in inducing in vitro recombination. Nucleotide sequencing of rat and human c-raf(-1) cDNAs revealed the upstream sequences, recombined to the 3' half of c-raf(-1), to be expressed as fusion mRNAs; the production of fused proteins was predicted from a long open reading frame, which is in-frame with the kinase domain encoded from the 3' half of the c-raf(-1) gene. There is a cysteine clustering region in an N-terminal region of the c-raf(-1) product deduced from the nucleotide sequence, and this cysteine clustering region was found to be highly homologous to that present in an N-terminal region of protein kinase C, although, in the latter cysteine clusters are present in duplicate. From analogy with the activation mechanism of protein kinase C, the N-terminal region of serine/threonine kinase coded by the c-raf(-1) gene is suggested to be a regulatory part of the enzyme activity, and it proposed that the replacement or truncation of this regulatory part could be the mechanism whereby c-raf(-1) is activated.
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PMID:Activation of rat and human c-raf(-1) by rearrangement. 333 22

Human-human hybridoma technology was used to produce human monoclonal antibodies with reactivity to colorectal cancer antigens. Two different B-lymphoma cell lines were fused with lymphocytes obtained from mesenteric lymph nodes from colorectal cancer patients. The fusion frequency was 11% with LICR-LON-HMy-2. Out of 294 growing hybridomas 26 secreted antibodies reacting with epitopes on cultured colon adenocarcinoma cells. Only one (D4213) was established and has now been in culture for 1.5 years. D4213 antibody shows a strong reaction with colon cancer tissue compared with normal colon epithelium. Using W1-L2-729-HF2 the fusion frequency was about 50%. Of 2,487 hybridomas 499 produced immunoglobulin and 44 of these reacted with colon cancer tissues or cultured cancer cells. One of the established hybridomas produces antibody reacting with cancer cell membrane antigens, and on immunoblotting a number of components were stained. The antibody from the other hybridomas reacts with cytoplasmatic antigens, and only one of these showed reactivity in immunoblotting where it bound to a component with Mr of about 60K.
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PMID:Human-human hybridomas generated with lymphocytes from patients with colorectal cancer. 348 51

Partially desialylated ovine submaxillary mucin plus an immunological adjuvant has been used by us to induce a humoral immune response to Tn antigen and sialylated Tn in colon cancer patients at risk of recurrence. Peripheral blood lymphocytes were purified from one of these patients with a high IgM titer reactive with Tn antigen transformed with Epstein-Barr virus and subsequently fused with a human-mouse heteromyeloma cell line, HMMA2.11TG/O. Clones were screened and subcloned using an enzyme-linked immunoassay and four stable IgM-secreting clones were tested for reactivity with a variety of natural and synthetic antigens, paraffin-embedded colon carcinomas and normal colonic mucosa to determine their specificity. Four human IgM monoclonal antibodies reactive predominantly with Tn antigen were produced and shown to react with a mucinous human colon carcinoma cell line, LS-174T, and with paraffin-embedded human colon carcinomas. We conclude that modified ovine submaxillary mucin is an effective vaccine for generating a humoral immune response directed to Tn antigen present on human colon cancer.
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PMID:Anti-Tn human monoclonal antibodies generated following active immunization with partially desialylated ovine submaxillary mucin. 753 23

An IgM human monoclonal antibody (HuMAb) SK1 was generated from mesenteric nodal lymphocytes of a colon cancer patient that were fused with a human B-lymphoblastoid cell line SHFP-1. The reactivities of HuMAb SK1 to various human cell lines were screened by cell enzyme linked immunosorbent assay and immunocytochemical staining. The HuMAb SK1 reacted strongly with all 11 human carcinoma cell lines that were tested and had no detectable binding with noncarcinoma cell lines of the following origins: fibroblast; fetal lung; melanoma; soft tissue sarcoma; neuroblastoma; and glioblastoma. Carcinoma preferred reactivity of HuMAb SK1 was further confirmed by immunoperoxidase staining of a large number of frozen tissues, both malignant and benign. The antigen SK1 (AgSK1) in human carcinoma detected by immunoperoxidase staining was also identified biochemically as a sialoglycoprotein that migrated at M(r) 42,000 with an isoelectric point (pI) of approximately 5.9. A preferential staining by HuMAb SK1 was seen among colorectal, gastric, pancreatic, and lung cancers. Competitive inhibition study in solid-phase immunoassay suggested that the HuMAb SK1 did not cross-react with other antibodies specific for CEA, CA 19-9, and TAG 72. The AgSK1 appears to be a novel carcinoma associated antigen which may be a useful tumor marker in cancer diagnosis and treatment.
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PMID:AgSK1, a novel carcinoma associated antigen. 843 57

Monoclonal antibodies (MoAbs) are biologically engineered proteins designed to bind to antigens emanating from tumor cells. Selected radioactive isotopes are fused with MoAbs to allow radioimmunodetection of external imaging of metastatic deposits in patients with colon cancer. For the past 10 years, radiolabeled MoAbs have improved tumor localization techniques and influenced the clinical management of surgical patients. Intraoperatively, surgeons use appropriately shielded, handheld, gamma detection probes to locate radiolabeled MoAbs and corresponding colon cancers (ie, residual, recurrent tumors). Using gamma detection probes intraoperatively, surgeons can localize nonpalpable occult tumors and disease not suspected from external antibody scans or other traditional diagnostic methods. This success confirms the need for complete tumor resections, thorough scanning of entire tumor beds, and ex vivo scanning of surgical specimens to assess for potential nodal metastases.
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PMID:Radiolabeled monoclonal antibodies. 853 53

The construction, synthesis and expression of a genetically engineered bifunctional antibody/cytokine fusion protein is described. In order to target alpha-tumor necrosis factor (TNF) to tumor cells, recombinant antibody techniques were used to construct an RM4/TNF fusion protein containing the chimeric anti-tumor F(ab')2 (RM4) as well as the TNF moiety. The recombinant cDNA of human TNF was linked to the 3' end of the chimeric heavy-chain gene fragment (M4) containing the VH, the CH1 and the hinge region to form the fused heavy-chain gene fragment M4-TNF. Transfection of the M4-TNF gene fragment into a VKCK cell line producing the chimeric light-chain of the same antibody allowed the transfectant secreting the bifunctional fusion protein RM4/TNF. The RM4/TNF was purified by affinity chromatography. Our data showed that RM4/TNF retained the TAG72 antigen-binding reactivity as well as TNF activity as measured by ELISA, Western blotting, flow cytometry analysis, immunohistochemistry and cytotoxicity assays using the human colon cancer cell line LS174T. Therefore, the bifunctional fusion protein RM4/TNF may prove useful in targeting the biological effects of TNF to tumor cells, and in this way stimulate the immune destruction of tumor cells.
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PMID:Genetic engineering of a recombinant fusion possessing anti-tumor F(ab')2 and tumor necrosis factor. 916 56

The granulocyte-macrophage colony-stimulating factor receptor (GM-CSFR) is a potential target for toxin-directed therapy, because it is overexpressed on many leukemias and solid tumors and apparently not on stem cells. To investigate the potential therapeutic use of GM-CSF toxins, we fused human GM-CSF to truncated forms of either Pseudomonas exotoxin (PE) or diphtheria toxin (DT) and tested the cytotoxicity of the resulting GM-CSF-PE38KDEL and DT388-GM-CSF on human gastrointestinal (GI) carcinomas and leukemias. Toward gastric and colon cancer cell lines, GM-CSF-PE38KDEL was much more cytotoxic than DT388-GM-CSF, with IC50s (concentration resulting in 50% inhibition of protein synthesis) of 0.5 to 10 ng/mL compared with 4 to 400 ng/mL, respectively. In contrast, toward leukemia lines and fresh bone marrow cells DT388-GM-CSF was more cytotoxic than GM-CSF-PE38KDEL. The cytotoxicity of both GM-CSF-PE38KDEL and DT388-GM-CSF toward the human cells was specific, because it could be competed by an excess of GM-CSF. Binding studies indicated that human GM-CSF receptors were present on all of the human GI and leukemic cell lines tested, at levels of 540 to 3,700 sites per cell (kd = 0.2 to 2 nmol/L), and the number of sites per cell did not correlate with the cell type. A similar pattern of cytotoxicity was found with recombinant immunotoxins binding to the transferrin receptor, in that anti-TFR(Fv)-PE38KDEL was much more cytotoxic than DT388-anti-TFR(Fv) toward GI cells, but both were similar in their cytotoxic activity toward leukemia cells. The fact that PE is more effective than DT in killing GI but not leukemic tumor cells targeted by GM-CSF indicates a fundamental difference in the way PE or DT gains access to the cytosol in these cells. GM-CSF-PE38KDEL and DT388-GM-CSF deserve further evaluation as possible treatments for selected tumors.
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PMID:Recombinant toxins containing human granulocyte-macrophage colony-stimulating factor and either pseudomonas exotoxin or diphtheria toxin kill gastrointestinal cancer and leukemia cells. 920 60

Cytoplasmic sequestration of the p53 tumor suppresser protein has been proposed as a mechanism involved in abolishing p53 function. However, the mechanisms regulating p53 subcellular localization remain unclear. In this report, we analyzed the possible existence of cis-acting sequences involved in intracellular trafficking of the p53 protein. To study p53 trafficking, the jellyfish green fluorescent protein (GFP) was fused to the wild-type or mutated p53 proteins for fast and sensitive analysis of protein localization in human MCF-7 breast cancer, RKO colon cancer, and SAOS-2 sarcoma cells. The wild-type p53/GFP fusion protein was localized in the cytoplasm, the nucleus, or both compartments in a subset of the cells. Mutagenesis analysis demonstrated that a single amino acid mutation of Lys-305 (mt p53) caused cytoplasmic sequestration of the p53 protein in the MCF-7 and RKO cells, whereas the fusion protein was distributed in both the cytoplasm and the nucleus of SAOS-2 cells. In SAOS-2 cells, the mutant p53 was a less efficient inducer of p21/CIP1/WAF1 expression. Cytoplasmic sequestration of the mt p53 was dependent upon the C-terminal region (residues 326-355) of the protein. These results indicated the involvement of cis-acting sequences in the regulation of p53 subcellular localization. Lys-305 is needed for nuclear import of p53 protein, and amino acid residues 326-355 can sequester mt p53 in the cytoplasm.
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PMID:Cooperation of a single lysine mutation and a C-terminal domain in the cytoplasmic sequestration of the p53 protein. 967 15

Drug resistance, both primary and acquired, is a major obstacle to advances in cancer chemotherapy. In vitro, multidrug resistance can be mediated by P-glycoprotein (PGY1), a cell surface phosphoglycoprotein that acts to efflux natural products from cells. PGY1 is encoded by the MDR1 gene located at 7q21.1. Overexpression of MDR1 has been demonstrated in many cancers, both in patient tumors and in cell lines selected with a variety of chemotherapeutic agents. Recent studies in drug-selected cell lines and patients samples have identified hybrid mRNAs comprised of an active, but apparently random, gene fused 5' to MDR1. This observation indicates that random chromosomal rearrangements, such as translocations and inversions, leading to "capture" of MDR1 by constitutively expressed genes may be a mechanism for activation of this gene following drug exposure. In this study, fluorescence in situ hybridization (FISH) using whole chromosome paints (WCP) and bacterial artificial chromosome (BAC)-derived probes showed structural rearrangements involving 7q in metaphase and interphase cells, and comparative genomic hybridization (CGH) revealed high levels of amplification at chromosomal breakpoints. In an adriamycin-selected resistant colon cancer line (S48-3s/Adr), WCP4/WCP7 revealed t(4;7)(q31;q21) and BAC-derived probes demonstrated that the breakpoint lay between MDR1 and sequences 500-1000 KB telomeric to it. Similarly, in a subline isolated following exposure to actinomycin D (S48-3s/ActD), a hybrid MDR1 gene composed of heme oxygenase-2 sequences (at 16p13) fused to MDR1 was identified and a rearrangement confirmed with WCP7 and a subtelomeric 16p probe. Likewise, in a paclitaxel-selected MCF-7 subline where CASP sequences (at 7q22) were shown to be fused to MDR1, WCP7 showed an elongated chromosome 7 with a homogeneously staining regions (hsr); BAC-derived probes demonstrated that the hsr was composed of highly amplified MDR1 and CASP sequences. In all three selected cell lines, CGH demonstrated amplification at breakpoints involving MDR1 (at 7q21) and genes fused to MDR1 at 4q31, 7q22, and 16p13.3. Finally, in samples obtained from two patients with drug refractory ALL, BAC-derived probes applied to archived marrow cells demonstrated that a breakpoint occurred between MDR1 and sequences 500-1000 KB telomeric to MDR1, consistent with a random chromosomal rearrangement. These results support the proposal that random chromosomal rearrangement leading to capture and activation of MDR1 is a mechanism of acquired drug resistance.
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PMID:Cytogenetic and molecular characterization of random chromosomal rearrangements activating the drug resistance gene, MDR1/P-glycoprotein, in drug-selected cell lines and patients with drug refractory ALL. 971 96

A promising strategy for cancer treatment is adoptive immunotherapy with gene-modified lymphocytes expressing a chimeric T cell receptor (cTCR) that directs tumor targeting and stimulates T cell effector functions. In this study, the activities of two novel cTCR molecules (GAgamma and GAHgamma) were investigated. Both encode a single-chain variable fragment (scFv) derived from the monoclonal antibody (MAb) GA733.2, which binds the epithelial glycoprotein 2 (EGP-2) overexpressed on a variety of human carcinomas. In the GAgamma cTCR, the scFv is directly fused to the transmembrane/cytoplasmic portions of the immunoglobulin Fc receptor (Ig FcRI) gamma subunit, which mediates T cell signaling. GAHgamma possesses an extracellular spacer composed of the CD8alpha immunoglobulin hingelike domain inserted between the scFv and gamma chain. Activated T cells (ATCs), stimulated ex vivo using anti-CD3 MAb, were derived from either healthy donors or patients and transduced with recombinant retrovirus encoding the respective GA cTCR molecules. After culture expansion for 14 days, GAgamma-modified ATCs demonstrated enhanced targeting and lysis of EGP-2+ colon cancer cells and increased cytokine secretion. Cells transduced with the GAHgamma cTCR displayed specific lytic activity that was about twofold greater than that of GAgamma-ATCs and produced significantly more cytokine. In addition, reactivation of GAHgamma-ATC with anti-CD3 MAb prior to addition to EGP-2+ tumor target induced a further increase in lytic activity. Because the activation status influences T cell antitumor functions, our data suggest that reactivation prior to adoptive transfer would improve the clinical efficacy of GAHgamma-modified ATCs.
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PMID:Specific targeting of EGP-2+ tumor cells by primary lymphocytes modified with chimeric T cell receptors. 1064 35


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