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Query: UMLS:C0009402 (colorectal cancer)
 53,228 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The therapy of colorectal cancer may be improved by biologic response modifiers that enhance natural killer (NK) cell and antibody-dependent tumoricidal mechanisms. This study examined the effect of a recently discovered cytokine purified from the supernatant of an Ebstein-Barr virus-transformed B-lymphoblastoid cell line (RPMI-8866), natural killer cell stimulatory factor (NKSF), on NK and antibody-dependent cellular cytotoxicity (ADCC) of human colon adenocarcinoma cell lines. Human peripheral blood lymphocytes were cultured for 24 hr in the presence or absence of NKSF (3.6 pM) or interleukin-2 (1 nM). The cultured lymphocytes were analyzed for lytic potential toward chromium-51-labeled colon carcinoma targets SW 1116, 498 LI, and WC 1. ADCC was measured by incubating chromium-51-labeled SW 1116 or WC 1 targets with the monoclonal antibody CO17-1A, an IgG2a antibody reactive with gastrointestinal cancer-associated cell antigen, or control mouse IgG prior to testing NKSF-treated or control PBL effectors in a 6-hr cytotoxicity assay. NKSF significantly enhanced NK cytolysis of colon carcinoma and NK-resistant lymphoma cell lines, and on a molar basis was approximately 300 times more potent than interleukin-2 in generating NK cytotoxicity. Furthermore, NKSF significantly augmented lymphocyte-mediated ADCC against colon carcinoma targets, and the combination of NKSF with the antibody CO17-1A had an additive effect on lymphocyte tumoricidial capacity. Thus, NKSF may have a potential role in the treatment of colon cancer.
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PMID:Natural killer cell stimulatory factor (NKSF) augments natural killer cell and antibody-dependent tumoricidal response against colon carcinoma cell lines. 167 86

Novel immunotherapeutic strategies for combating colon cancer are also being explored in pancreatic, hepatic, and esophageal cancers. Preliminary clinical trials in patients with pancreatic cancer suggest a therapeutic role for anti-idiotypic antibodies against tumor-specific monoclonal antibodies (MoAbs)--eg, CO17-1A, BW 494/32--but not for MoAbs when used alone. Adding low doses of interferon gamma to CO17-1A enhances in vitro antibody-dependent cellular cytotoxicity against pancreatic tumor cells; CO17-1A plus a regimen of 5-FU/doxorubicin/mitomycin has resulted in beneficial therapeutic effect. Treatments with immunotoxins, radiolabeled MoAbs, and adoptive immunotherapy are still being tested preclinically. In 105 patients with unresectable hepatocellular cancer, a 7% complete and 41% partial regression rate with 131I-labeled antiferritin has been reported. In several patients, radiolabeled antiferritin caused sufficient shrinkage of lesions to permit curative resection. Pretreatment with low-dose doxorubicin may improve the efficacy of low-dose radiolabeled antiferritin antibody therapy. Chemoembolization of primary hepatocellular carcinoma, based on the concept of regional therapy for metastatic colorectal cancer, has shown considerable palliative and survival benefit in patients with unresectable disease. Although adoptive immunotherapy has been used to treat hepatocellular carcinoma, the results have been disappointing. The development of immunotherapeutic approaches to esophageal cancer is less advanced than that for other gastrointestinal malignancies. Paralleling the successful use of 5-FU/interferon alfa-2a in colon cancer are two phase II studies that have evaluated this combination in patients with locally advanced esophageal cancer. The objective response rate (27%) was encouraging.
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PMID:Implications of current therapeutic approaches in colorectal cancer for other gastrointestinal malignancies. 199 29

Chimeric antibodies were constructed in which the murine variable region of anti-colorectal cancer monoclonal antibody CO17-1A was joined with human gamma 1, gamma 2, gamma 3, and gamma 4 constant regions. Human-mouse chimeric proteins were compared with the parental murine IgG2a antibody CO17-1A for their ability to participate in tumor-cell destruction by human and murine effector cells in antibody-dependent cell-mediated cytotoxicity (ADCC) assays. All of the chimeric antibodies showed different degrees of ADCC with human lymphocytes, monocytes, and granulocytes and with murine macrophages. Monocytes and macrophages were able to utilize the chimeric IgG1 and, to a lesser degree, IgG4 and IgG3 antibodies to lyse tumor-cell targets in ADCC assays. The chimeric IgG1 and IgG4 antibodies were nearly as effective as the parental CO17-1A antibody in inhibiting tumor growth in nude mice. These data indicate that chimeric IgG1 antibody is superior in its antitumor activity.
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PMID:Biological activity of human-mouse IgG1, IgG2, IgG3, and IgG4 chimeric monoclonal antibodies with antitumor specificity. 338 41

Monoclonal anti-idiotypic antibody (Ab2) VF2 was derived from rats immunized with anti-colorectal carcinoma (anti-CRC) monoclonal antibody (Ab1) CO17-1A. In rabbits the Ab2 induced anti anti-idiotypic antibodies (Ab3) that shared idiotopes with the Ab1, bound to the same epitope on CRC cells as Ab1, and bound to the isolated CO17-1A antigen. Monoclonal Ab2 VF2 was superior to the previously described polyclonal goat Ab2 against Ab1 CO17-1A in its capacity to elicit humoral immunity in animals. Ab2 VF2 also induced a specific delayed-type hypersensitivity (DTH) response to challenge with irradiated CO17-1A antigen-positive human CRC cells in mice. Of nine CRC patients immunized with aluminum hydroxide-precipitated Ab2 VF2, six developed antibodies that bound to Ab2, but only three patients developed Ab3 that bound to idiotypic determinants on Ab2. However, the Ab3 did not bind to CO17-1A antigen-positive CRC cells. In contrast, in a previously described trial with polyclonal goat Ab2 to Ab1 CO17-1A, most of the patients developed anti-CRC antibodies. Four of the nine patients immunized with Ab2 VF2 developed DTH responses to intradermal challenge with the Ab2, and in one patient DTH was both Ab2- and antigen-specific. Peripheral blood mononu-clear cells of the four DTH-reactive patients did not proliferate in response to in vitro stimulation with either Ab2 or antigen. These studies demonstrate that the immunomodulatory activity of monoclonal Ab2 VF2 in animals is only in part predictive of its activity in patients.
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PMID:Immunomodulatory activity of monoclonal anti-idiotypic antibody to anti-colorectal carcinoma antibody CO17-1A in animals and patients. 806 2

The monoclonal antibodies (MAbs) 323/A3 and 17-1A both recognize a 40-kDa carcinoma-associated epithelial glycoprotein (EGP40). MAb 17-1A has been used in many therapeutic trials as an immunotherapeutic agent to combat advanced colorectal cancer, and about 5-10% overall responses have been observed. It has been shown that MAb 323/A3 has a higher affinity than 17-1A, which might be an advantageous feature for a therapeutic agent. In our immunohistological studies different reaction patterns of these two MAbs were observed, suggesting that MAb 323/A3 reacts more intensely with carcinoma cells than MAb 17-1A. This also suggests that MAb 323/A3 might be a more effective immunotherapeutic tool. Because chimerization may reduce the immunogenicity of the murine MAb 323/A3 and increase the interaction with human effector mechanisms, we developed a chimeric form of murine MAb 323/A3. MAb 323/A3 heavy and light chain variable genes were cloned and grafted onto human C gamma 1 and C kappa domains, respectively. A chimeric antibody-producing cell line was established by transfection of the chimeric constructs into a nonproducing myeloma cell. The chimeric and murine 323/A3 MAbs were evaluated for efficacy of inducing complement-mediated cytotoxicity (CMC) and mediating antibody-dependent cellular cytotoxicity against LS 180 cells derived from human colon carcinoma. Both forms were found to mediate similar levels of CMC in the presence of human complement; however, higher levels of lysis of target cells were observed with human peripheral blood lymphocytes when the chimeric 323/A3 was used. Chimeric 323/A3 mediated higher maximal cytotoxicity than chimeric 17-1A in both CMC and antibody-dependent cellular cytotoxicity assays and was equally active as chimeric 17-1A at 100- to 1000-fold lower concentrations. The superior reactivity of chimeric 323/A3 with EGP40 on carcinoma cells and its higher cytotoxicity-mediating capacity, compared to chimeric 17-1A, are important characteristics, which support further clinical studies with chimeric MAb 323/A3 in immunotherapy of carcinomas.
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PMID:New chimeric anti-pancarcinoma monoclonal antibody with superior cytotoxicity-mediating potency. 813 90

The CO17-1A/GA733 antigen is associated with human carcinomas and some normal epithelial tissues. This antigen has shown promise as a target in approaches to passive and active immunotherapy of colorectal cancer. The relevance of animal models for studies of immunotherapy targeting this antigen in patients is dependent on the expression of the antigen on normal animal tissues. Immunohistoperoxidase staining with polyclonal rabbit antibodies to the human antigen revealed the human homologue on normal small intestine, colon and liver of mice, rats and non-human primates, whereas mouse monoclonal antibodies to the CO17-1A or GA733 epitopes on the human antigen did not detect the antigen. Polyclonal rabbit antibodies, elicited by the murine antigen homologue derived from recombinant baculovirus-infected insect cells, immunoprecipitated the antigen from mouse small intestine, colon, stomach, kidney and lung. The isolated recombinant murine protein bound polyclonal, but not monoclonal, antibodies to the human CO17-1A/GA733 antigen, and recombinant human antigen bound polyclonal antibodies elicited by the murine antigen homologue. Thus, the antigen homologue expressed by animal tissues is similar, but not identical, to the human antigen. These results have important implications for experimental active and passive immunotherapy targeting the CO17-1A/GA733 antigen.
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PMID:Expression of an antigen homologous to the human CO17-1A/GA733 colon cancer antigen in animal tissues. 932 51

Edrecolomab is a mouse-derived monoclonal IgG2a antibody. It recognises the human tumour-associated antigen CO17-1A which is expressed on the cell surface of a wide variety of tumours and normal epithelial tissue. Edrecolomab is thought to destroy tumour cells by activating an array of endogenous cytotoxic mechanisms, including antibody-dependent cell-mediated cytotoxicity and possibly antibody-dependent complement-mediated cytotoxicity. Edrecolomab may induce antitumour activity indirectly by inducing a host anti-idiotypic antibody response. Adjuvant therapy with edrecolomab (500 mg initial dose followed by four 100 mg infusions administered at 4-weekly intervals) significantly improved survival and reduced the tumour recurrence rate in patients with resected Dukes' stage C colorectal cancer and minimal residual disease. Data from several small clinical trials suggest that edrecolomab given as monotherapy or in combination with other antineoplastic agents has limited efficacy in the treatment of advanced colorectal or pancreatic tumours. However, results from a small phase I study in patients with advanced breast cancer were more promising. Edrecolomab was generally well tolerated in clinical trials. In a postmarketing surveillance study, the most common adverse events associated with edrecolomab were flushing/erythema and gastrointestinal symptoms including diarrhoea, abdominal pain and nausea and vomiting. Because edrecolomab is of murine origin, anaphylactic reactions have developed in some patients treated with the drug.
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PMID:Edrecolomab (monoclonal antibody 17-1A). 980 8

The 5-year survival of colorectal cancer patients with distant metastases is below 30%, despite the development and use of a variety of chemotherapeutic regimens. Therefore, new therapeutic strategies are warranted. Whereas radioimmunotherapy (RIT) has shown disappointing results in bulky disease, it may be a promising therapeutic alternative in limited and small volume disease. The aim of this study was, therefore, to compare, in a preclinical study, the therapeutic efficacy of RIT in colorectal cancer to equitoxic chemotherapy, as well as to evaluate, in a pilot clinical trial, its efficacy in small volume disease. Nude mice, bearing subcutaneous or metastatic human colon cancer xenografts, were injected either with the unlabeled or 131I-labeled monoclonal antibodies (MAbs), CO17-1A (which is a murine IgG2a directed against a 41-kD membrane glycoprotein) or F023C5 (which is an anti-CEA MAb of murine IgG1 subtype), or were administered 5-fluorouracil/folinic acid (5-FU/LV) at equitoxic doses. In a pilot clinical study, 10 colorectal cancer patients with small volume metastatic disease (all lesions < or = 3 cm) have been entered so far in an ongoing mCi/m2-based dose escalation study with the 131I-labeled F023C5. In the animals, the maximum tolerated activities (MTD) of 131I-labeled CO17-1A and F023C5 were 300 microCi and 600 microCi, respectively, corresponding to blood doses of approximately 15 Gy each. Accordingly, myelotoxicity was dose-limiting. The MTD in the chemotherapy group was 0.6 mg 5-FU/1.8 mg LV, given as intravenous bolus 1 h apart for 5 subsequent days. Whereas no significant therapeutic effects were seen with both unlabeled MAbs or 5-FU/LV chemotherapy, tumor growth was retarded significantly with both radiolabeled antibodies. In the metastatic model, chemotherapy prolonged life for only a few weeks, whereas RIT led to cures in 35-55% of the animals. As was the case in the animals, myelotoxicity seems to be dose-limiting in patients as well. Encouraging anti-tumor effects were observed, lasting for up to more than 12 months. These data suggest that radioimmunotherapy may be a viable therapeutic option in colorectal cancer patients with limited disease. Myelotoxicity is the only dose-limiting organ toxicity. Although most patients were treated below the MTD, anti-tumor effects are encouraging. Further studies are ongoing.
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PMID:Radioimmunotherapy of colorectal cancer in small volume disease and in an adjuvant setting: preclinical evaluation in comparison to equitoxic chemotherapy and initial results of an ongoing phase-I/II clinical trial. 1047 Jan 70

Monocytes and natural killer (NK) cells are known to be important effector cell populations in mediating antibody-dependent cell-mediated cytotoxicity (ADCC). Purified monocyte and NK effector cell populations, from normal and colorectal cancer (CRC) patients, together with a number of murine (17-1A and 323/A3) and their chimaeric (c17-1A) or humanised (3622W94) equivalents, and chimaeric (c) SF25 were compared for their ability to mediate ADCC of colorectal tumour cells. The chimaeric and humanised antibodies were significantly better at mediating tumour lysis than their murine equivalents with all-effector populations. When effector cells from CRC patients were used the cSF25 antibody was significantly better than 3622W94 (P < 0.02) which, in turn, was significantly better than c17-1A (P < 0.03). Depletion of NK cells produced a decrease in specific tumour lysis with all antibodies. In addition a higher rate of NK cell death was observed in CRC patients during the assay than in normal controls. The chimaeric and humanised antibodies stained a similar percentage of the HT-29 target cells (>80%), but 3622W94 bound to significantly more cells from primary tumour biopsies than cSF-25 (P = 0.001). Together, the results suggest that NK cells are the most important effector cell type mediating ADCC in vitro, that there is some impairment of NK function in CRC patients, and that cSF25 is the most potent antibody. For use in vivo the anti-Ep-CAM antibody 3622W94 would appear to be the most suitable reagent for further study.
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PMID:The role of monocytes and natural killer cells in mediating antibody-dependent lysis of colorectal tumour cells. 1060 89

The glycoprotein recognized by the monoclonal antibody (mAb) 17-1A is present on most carcinomas, which makes it an attractive target for immunotherapy. Indeed, adjuvant treatment with mAb 17-1A did successfully reduce the 5 years mortality among colorectal cancer patients with minimal residual disease. Currently the antibody is approved for clinical use in Germany, and is on its way to approval in a number of other countries. New immunotherapeutic strategies targeting the 17-1A antigen are in development or even in early-phase clinical trials. Therefore, a better understanding of the biology of the 17-1A antigen may result in improved strategies for the treatment and diagnosis of human carcinomas. In this review the properties of the 17-1A antigen are discussed concerning tumor biology and the function of the molecule. This 40-kDa glycoprotein functions as an Epithelial Cell Adhesion Molecule, therefore the name Ep-CAM was suggested. Ep-CAM mediates Ca2+-independent homotypic cell-cell adhesions. Formation of Ep-CAM-mediated adhesions has a negative regulatory effect on adhesions mediated by classic cadherins, which may have strong effects on the differentiation and growth of epithelial cells. Indeed, in vivo expression of Ep-CAM is related to increased epithelial proliferation and negatively correlates with cell differentiation. A regulatory function of Ep-CAM in the morphogenesis of epithelial tissue has been demonstrated for a number of tissues, in particular pancreas and mammary gland. The function of Ep-CAM should be taken into consideration when developing new therapeutic approaches targeting this molecule.
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PMID:The biology of the 17-1A antigen (Ep-CAM). 1060 5


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