UMLS:C0699790 - FACTA Search

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

The maytansinoid drug DM1 is 100- to 1000-fold more cytotoxic than anticancer drugs that are currently in clinical use. The immunoconjugate C242-DM1 was prepared by conjugating DM1 to the monoclonal antibody C242, which recognizes a mucin-type glycoprotein expressed to various extents by human colorectal cancers. C242-DM1 was found to be highly cytotoxic toward cultured colon cancer cells in an antigen-specific manner and showed remarkable antitumor efficacy in vivo. C242-DM1 cured mice bearing subcutaneous COLO 205 human colon tumor xenografts (tumor size at time of treatment 65-130 mm3), at doses that showed very little toxicity and were well below the maximum tolerated dose. C242-DM1 could even effect complete regressions or cures in animals with large (260- to 500-mm3) COLO 205 tumor xenografts. Further, C242-DM1 induced complete regressions of subcutaneous LoVo and HT-29 colon tumor xenografts that express the target antigen in a heterogeneous manner. C242-DM1 represents a new generation of immunoconjugates that may yet fulfill the promise of effective cancer therapy through antibody targeting of cytotoxic agents.
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PMID:Eradication of large colon tumor xenografts by targeted delivery of maytansinoids. 871 Sep 20

Since fiscal year 1991, the U.S. Human Genome Project has spent $170.6 million in federal funds to help isolate genes associated with Huntington's disease, amyotrophic lateral sclerosis, neurofibromatosis types 1 and 2, myotonic dystrophy, and fragile X syndrome and to localize genes that predispose people to breast cancer, colon cancer, hypertension, diabetes, and Alzheimer's disease. Now comes the hard part. Biology's 21st century megaproject starts to look relatively manageable compared to another challenge facing the enterprise: sorting out ethical, legal, and social issues associated with using this information. "The Human Genome Project," wrote Senior Editor Barbara Jasny in the October 1 Science editorial, stretches "the limits of the technology and the limits of our ability to ethically and rationally apply genetic information to our lives."
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PMID:Ethical, legal, and social issues of the Human Genome Project: what to do with what we know. 971 68

C242-DM1 is a tumor-activated immunotoxin under development by GlaxoSmithKline plc (formerly SmithKline Beecham plc), under licence from ImmunoGen Inc, as a potential treatment for colon tumor. It consists of a colon cancer-specific humanized antibody, C242, conjugated to the maytansine derivative DM1. In preclinical studies, C242-DM1 caused complete tumor regression in animal models of both human pancreatic and non-small cell lung cancer (NSCLC) at non-toxic doses. C242-DM1 has also been evaluated in an immunoconjugate combination with J-591 (Cornell University). The J591-DM1 immunoconjugate demonstrated effective, antigen-specific delivery of a highly cytotoxic drug to PSMA-positive Pca cells in vitro and in vivo with low systemic toxicity. Results from studies in monkeys showed that C242-DM1 had no significant toxicity or side effects, when administered at doses higher than those that were previously shown to completely eradicate human colon tumors in mice [271420]. ImmunoGen acquired the right to evaluate, and an option to license, technology related to maytansines from Takeda. In February 1999, ImmunoGen and SmithKline Beecham signed a US $45 million development and commercialization agreement for C242-DM1 [313493]. In August 1997, Immunogen received an SBIR grant to advance development of huC242-DM1 [258356]. EP-00425235, held by ImmunoGen, covers conjugated forms of ansamitocin (maytansine) derivatives. Takeda holds several patents for the production of ansamitocin and its analogs, the first one being JP-53124692.
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PMID:Technology evaluation: C242-DM1, ImmunoGen Inc. 1133 34

In this report, we describe the synthesis of a panel of disulfide-linked huC242 (anti-CanAg) antibody maytansinoid conjugates (AMCs), which have varying levels of steric hindrance around the disulfide bond, in order to investigate the relationship between stability to reduction of the disulfide linker and antitumor activity of the conjugate in vivo. The conjugates were first tested for stability to reduction by dithiothreitol in vitro and for plasma stability in CD1 mice. It was found that the conjugates having the more sterically hindered disulfide linkages were more stable to reductive cleavage of the maytansinoid in both settings. When the panel of conjugates was tested for in vivo efficacy in two human colon cancer xenograft models in SCID mice, it was found that the conjugate with intermediate disulfide bond stability having two methyl groups on the maytansinoid side of the disulfide bond and no methyl groups on the linker side of the disulfide bond (huC242-SPDB-DM4) displayed the best efficacy. The ranking of in vivo efficacies of the conjugates was not predicted by their in vitro potencies, since all conjugates were highly active in vitro, including a huC242-SMCC-DM1 conjugate with a noncleavable linkage which showed only marginal activity in vivo. These data suggest that factors in addition to intrinsic conjugate potency and conjugate half-life in plasma influence the magnitude of antitumor activity observed for an AMC in vivo. We provide evidence that bystander killing of neighboring nontargeted tumor cells by diffusible cytotoxic metabolites produced from target cell processing of disulfide-linked antibody-maytansinoid conjugates may be one additional factor contributing to the activity of these conjugates in vivo.
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PMID:Disulfide-linked antibody-maytansinoid conjugates: optimization of in vivo activity by varying the steric hindrance at carbon atoms adjacent to the disulfide linkage. 2142 76

A new, sensitive ELISA method has been developed which measures catabolites in cells and media upon processing of antibody-drug conjugates (ADCs) by target cancer cells. This ELISA method, exemplified for maytansinoid ADCs, uses competitive inhibition by a maytansinoid analyte of the binding of biotinylated antimaytansine antibody to an immobilized BSA-maytansinoid conjugate. Synthetic standards of several maytansinoid catabolites derived from ADCs with different linkers were tested and showed similar inhibition curves, with an EC50 of about 0.1 nM (0.03 pmol in an assay volume of 0.25 mL). This high sensitivity allowed quantification of catabolites from a methanolic cell extract and from the medium, generated from an ADC in 1 day using only about 1 million cells. The processing of anti-EpCAM and anti-CanAg ADCs with noncleavable linker (SMCC-DM1), disulfide linker (SPDB-DM4), and charged sulfonate-bearing disulfide linker (sulfo-SPDB-DM4), each containing an average of about four maytansinoid molecules per antibody, were compared in colon cancer cell lines (COLO 205 and HT-29). An 8-10-fold higher total level of catabolite was observed for anti-CanAg ADCs than for anti-EpCAM ADCs upon processing by COLO 205 cells, consistent with a higher cell-surface expression of CanAg. In a multidrug resistant HCT-15 colon cancer cell line, the anti-EpCAM-SPDB-DM4 linker conjugate was not cytotoxic and showed a significantly lower level of catabolite within cells compared to that in medium, presumably due to Pgp-mediated efflux of the nonpolar DM4 catabolite. In contrast, sulfo-SPDB-DM4 and SMCC-DM1 linker conjugates were cytotoxic, which correlated with higher amounts of catabolites found within the HCT-15 cells relative to amounts in medium. In a nonmultidrug resistant HT-29 cell line, the anti-EpCAM-SPDB-DM4 linker conjugate was cytotoxic, with most of the catabolite found in cells and little in the medium. In conclusion, this highly sensitive ELISA method for measurement of ADC catabolite is convenient for screening multiple ADC parameters such as linkers and antibodies in a number of cell lines, does not require concentration of sample or extraction of media, and is complementary to other reported methods such as radiolabeling of ADCs or mass spectrometry.
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PMID:Sensitive ELISA Method for the Measurement of Catabolites of Antibody-Drug Conjugates (ADCs) in Target Cancer Cells. 2573 94

There are some indications that the prevalence of benign and malign neoplasms is increased in patients with a mitochondrial disorder (MID). This study aimed at calculating the prevalence of malign and benign neoplasms in MID patients compared to the general population. Among 103 adult patients with definite or probable MID 16 had a malignancy (15.5%) and 11 (10.7%) a benign neoplasm. Four patients had thyroid cancer, three patients had prostate cancer, two patients each colon cancer, or ovarian cancer, and one each lung cancer, basalioma, Paget carcinoma of the skin, Bowen disease, renal cancer, and urinary bladder cancer. One patient had two carcinomas. Five patients had lipomas, two thyroid adenoma, and one each meningeoma, ovarian adenoma, hemangioma of the liver, and pituitary adenoma. Compared to the general population, the prevalence of malignancies was 3-4 fold increased in definite and probable MIDs. Compared to a cohort of myotonic dystrophy type-1 patients, the prevalence was 1.4 fold increased. In conclusion, adult MID patients seem to carry an increased risk to develop malignancy or a benign neoplasm. Females with a MID seem to be predominantly at risk to develop a neoplasm.
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PMID:Prevalence of neoplasms in definite and probable mitochondrial disorders. 2718 Oct 47