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)

Mouse mAb M111 identifies a cell surface glycoprotein of 115,000 to 135,000 Da. M111 was expressed constitutively in subsets of cells of multiple lineages at discrete stages of cell maturation, suggesting that M111 is a differentiation Ag of the three germ layers. Ag expression could be induced by IFN-gamma but not by IFN-alpha, IFN-beta, or TNF. Induction of M111 expression was maximal at 48 h of culture in 200 U/ml of IFN-gamma and was independent of induction of class II MHC Ag. Induction was dependent on the cell type used. Nine colon cancer cell lines of undifferentiated phenotype were constitutively M111-; IFN-gamma induced M111 expression in seven of them. In contrast, IFN-gamma failed to induce M111 expression in six of six M111- ovarian cancer cell lines. Eight normal fibroblast cultures tested were M111-; they could not be induced to express M111. Three of five sarcoma cell lines were M111+; culture in IFN-gamma induced an increase in M111 expression in all of them. Constitutive and IFN-gamma-induced expression of M111 was independent of constitutive and induced expression of HLA class I and II molecules. IFN-gamma-mediated induction of M111 expression was not accompanied by coordinate changes in the expression of other differentiation traits. These results suggest that expression of the M111 gene is controlled by two mechanisms, one related to differentiation and the other activated by IFN-gamma.
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PMID:IFN-gamma-regulated expression of a differentiation antigen of human cells. 312 30

Epithelial surface antigen (ESA) is a glycoprotein with a distribution in vivo that is largely confined to human epithelial cells. Previous studies using a mouse monoclonal antibody (MH99) detecting ESA had shown that the antigen immunoprecipitated from most epithelial cancer cell lines has two chains (38,000 and 32,000 Da) when separated under reducing conditions and only one (38,000 Da) under nonreducing conditions. We now show that the 38-kDa band observed under nonreducing conditions consists of two species, one a 38-kDa single chain protein and the other a disulfide-linked dimer consisting of the 32-kDa chain bonded to a previously unrecognized 6-kDa chain. Pulse-chase studies have shown that ESA is synthesized as a 34-kDa protein which is glycosylated to a 38-kDa glycoprotein containing both high mannose and complex carbohydrate chains. With longer chase periods, a 32-kDa species also appears. Peptide mapping, together with the pulse-chase data, suggests that the 32- and 6-kDa species are formed from the 38-kDa protein, probably by limited proteolysis. Epithelial cell lines differ in their ratios of 38/32-kDa species, some cell lines having only the 38-kDa form. Incubation of radiolabeled extracts of cells having only the 38-kDa protein with unlabeled extracts of the other cell types resulted in progressive conversion of the 38-kDa species to the 32- and 6-kDa forms. Only cell lines expressing both forms of ESA are able to carry out this cleavage of the 38-kDa protein. This is a novel mechanism for generating cell-type related differences in cell surface glycoprotein expression. Finally, sequential immunoprecipitation experiments showed that the antigen detected by Ab MH99 is closely related or identical to that detected by Ab 17-1A, a previously described colon cancer antigen.
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PMID:Biochemical analysis of a human epithelial surface antigen: differential cell expression and processing. 319 32

Mouse monoclonal antibody A33 (mAb A33) recognizes a M(r) 43,000 cell surface glycoprotein (designated A33) expressed in human colonic epithelium and colon cancer but absent from most other normal tissues. In patients, mAb A33 localizes with high specificity to colon cancer and is retained for up to 6 weeks in the cancer but cleared rapidly from normal colon (5-6 days). As a carrier of (125)I or (131)I, mAb A33 has shown antitumor activity. Induction of strong human anti-mouse antibody (immunoglobulin; HAMA) responses in patients, however, limits the use of the murine mAb A33 to very few injections. A humanized version of this antibody (huAb A33) has been prepared for Phase I and II clinical studies in patients with colon cancer. In those studies, immunogenicity of huAb A33 has been monitored using a novel, highly sensitive BIACORE method, which allows measurement of human anti-human antibodies (HAHAs) without the use of secondary reagents. We found that 63% (26 of 41) of the patients treated with repeated doses of huAb A33 developed HAHAs against a conformational antigenic determinant located in the V(L) and V(H) regions of huAb A33. Detailed serological analysis showed two distinct types of HAHAs. HAHA of type I (49% of patients) was characterized by an early onset with peak HAHA levels after 2 weeks of treatment, which declined with ongoing huAb A33 treatment. HAHA of type II (17% of patients) was characterized by a typically later onset of HAHA than in type I and by progressively increasing HAHA levels with each subsequent huAb A33 administration. Colon cancer patients with type I HAHAs did not develop infusion-related adverse events. In contrast, HAHA of type II was indicative of infusion-related adverse events. By using this new method, we were able to distinguish these two types of HAHAs in patients while on antibody treatment, allowing patients to be removed from study prior to the onset of severe infusion-related adverse events.
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PMID:Serological analysis of human anti-human antibody responses in colon cancer patients treated with repeated doses of humanized monoclonal antibody A33. 1155 61

The use of monoclonal antibodies as adjuvants to cancer chemotherapy has drawn considerable interest in recent years, due to the success of several novel agents against a broad range of targets. One such target is EpCAM (aka GA733-2, KSA, 17-1A antigen), a human cell surface glycoprotein expressed on some normal and most neoplastic epithelial cells. It is now widely recognized as having an important role in tumor biology, especially in colorectal cancer, and since its original discovery in the early 1980s, the known mechanism by which it functions has steadily evolved. Initial studies of monoclonal antibodies directed against EpCAM demonstrated the presence of anti-idiotype networks involving both B and T cells, antibody-dependent cell cytotoxicity, and complement mediated cell death as mechanisms of tumor growth inhibition. Recently, a novel receptor for EpCAM has been described that is a member of the inhibitory group of immunoglobulin-like receptors and is present on lymphocytes, monocytes, dendritic cells, and NK cells. Neoplastic cells that interact with this receptor, named LAIR-1, may enact an immunologic escape, and thus confer a selective advantage for their growth and spread. This novel mechanism of action may add to our current understanding of how monoclonal antibodies targeted against EpCAM inhibit tumor growth. Passive vaccination with this antibody may induce a tertiary anti-idiotypic network which correlates with clinical outcome, but the mechanism behind this outcome in select patients with minimal residual disease may additionally involve a novel blockade of tumor specific immunosuppression. This review will focus on the initial discoveries of EpCAM's cellular adhesion properties, its role in normal and neoplastic cell function, its distribution and presumed mechanism of action, and clinical studies of EpCAM as a therapeutic target. Clinical trials of edrecolomab, one such monoclonal antibody, in patients with colon cancer will be reviewed and updated. While phase III trials of edrecolomab have not demonstrated improved efficacy as adjuvant therapy for stage III colon cancer, newer agents with improved affinity, less chimerism, and improved delivery may still demonstrate benefit.
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PMID:EpCAM: A new therapeutic target for an old cancer antigen. 1590 97

The expression of a humanized single-chain variable domain fragment antibody (A33scFv) was optimized for Pichia pastoris with yields exceeding 4 g L(-1). A33scFv recognizes a cell surface glycoprotein (designated A33) expressed in colon cancer that serves as a target antigen for immunotherapy of colon cancer. P. pastoris with a MutS phenotype was selected to express A33scFv, which was cloned under regulation of the methanol-inducible AOX1 promoter. We report the optimization of A33scFv production by examining methanol concentrations using fermentation technology with an on-line methanol control in fed-batch fermentation of P. pastoris. In addition, we examined the effect of pH on A33scFv production and biomass accumulation during the methanol induction phase. A33scFv production was found to increase with higher methanol concentrations, reaching 4.3 g L(-1) after 72 h induction with 0.5% (v/v) methanol. Protein production was also greatly affected by pH, resulting in higher yields (e.g., 4.88 g L(-1)) at lower pH values. Biomass accumulation did not seem to vary when cells were induced at different pH values, but was greatly affected by lower concentration of methanol. Purification of A33scFv from clarified medium was done using a two-step chromatographic procedure using anion-exchange and hydrophobic interaction chromatography, resulting in 25% recovery and >90% purity. Pure A33scFv was tested for functionality using surface plasmon resonance and showed activity against immobilized A33 antigen. Our results demonstrate that functional A33scFv can be produced in sufficient quantities using P. pastoris for use in further functionality studies and diagnostic applications.
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PMID:An optimized fermentation process for high-level production of a single-chain Fv antibody fragment in Pichia pastoris. 1529 76

The A33 antigen is a cell surface glycoprotein expressed in human gastrointestinal epithelium and in 95% of colorectal cancers. We have compared the N-linked glycosylation profile of A33 antigen naturally expressed in a human colorectal cancer cell line with recombinant human A33 antigen (rA33) produced in insect cell culture using the baculovirus expression vector. N-Linked glycans were enzymatically released from the protein, and glycan composition was analyzed by HPLC. In three insect cell lines tested (Sf-21, Tn5B1-4, and Tn-4s), glycosylation of rA33 was dominated by high mannose structures (M5Gn2 to M9Gn2; 78-95% of total N-linked glycans), with M8Gn2 being the single most abundant glycoform. A33 antigen naturally expressed in the SW1222 human colon cancer cell line (A33) also possessed a high abundance of high mannose glycans (72%). No complex glycosylation was detected on rA33 expressed in insect cells. Natural A33 was galactosylated to a small extent (6%). These results illustrate a case of similar glycosylation of a glycoprotein between a recombinant version produced in insect cell culture and its counterpart naturally expressed in human cell culture.
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PMID:Glycosylation profiles of the human colorectal cancer A33 antigen naturally expressed in the human colorectal cancer cell line SW1222 and expressed as recombinant protein in different insect cell lines. 1529 62

CD44, a widely distributed cell surface glycoprotein and a receptor for hyaluronan (HA), has been implicated in facilitating tumor growth and metastasis, antiapoptosis and directional motility of cancer cells. In order to investigate the role of soluble CD44 (CD44(sol)) in colon cancer cell growth, SW620, a human colon cancer cell line deficient in CD44 expression was stably transfected with human CD44 cDNA containing exons 1-5, 15 and 16 of the human CD44. Western blot analyses demonstrated the presence of 78 kDa soluble CD44 protein in the culture supernatant of stably transfected cell lines (CD44(sol) clones) and were not detected in the empty vector control line (clone m). The CD44(sol) transfected cells showed higher cell proliferation and clonal growth in vitro, confirmed by MTT and clonogenic assays respectively, when compared to the control cells. Cell adhesion to hyaluronan was significantly lower with CD44(sol) cells compared to the control cells. Western blot analyses were negative for cleaved PARP in lysates from CD44(sol) cells, suggesting resistance to apoptosis. These findings indicate that the secretion of soluble CD44 contributes to colon cancer growth in vitro, possibly as a decoy receptor.
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PMID:Soluble CD44 secretion contributes to the acquisition of aggressive tumor phenotype in human colon cancer cells. 1794 13

The A33 antigen is a cell surface glycoprotein of the small intestine and colonic epithelium with homology to tight junction-associated proteins of the immunoglobulin superfamily, including CAR and JAM. Its restricted tissue localization and high level of expression have led to its use as a target in colon cancer immunotherapy. Although the antigen is also present in normal intestine, radiolabeled antibodies against A33 are selectively retained by tumors in the gut as well as in metastatic lesions for as long as 6 weeks. Accordingly, we have studied the trafficking and kinetic properties of the antigen to determine its promise in two-step, pretargeted therapies. The localization, mobility, and persistence of the antigen were investigated, and this work has demonstrated that the antigen is both highly immobile and extremely persistent-retaining its surface localization for a turnover halflife of greater than 2 days. In order to explain these unusual properties, we explored the possibility that A33 is a component of the tight junction. The simple property of surface persistence, described here, may contribute to the prolonged retention of the clinically administered antibodies, and their uncommon ability to penetrate solid tumors.
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PMID:A33 antigen displays persistent surface expression. 1823 42

Monoclonal antibody (mAb) has been widely applied in the treatment of human diseases, especially in malignant tumours. However, most antibodies produced in mouse by hybridoma technology might induce severe human anti-mouse reactions. We had reported a murine mAb CAb-1 of therapeutic interest for its specifically binding to a cell surface glycoprotein of human colon cancer. Here, we attempted to generate a reconstituted human-mouse chimeric Fab (cFab) of CAb-1 in vitro to reduce its antigenicity and increase its capacity of penetration. First, the genes of heavy and light chain variable region (VH, VL) of CAb-1 were cloned. Then, the chimeric light chain (cL) and Fd (cFd) were constructed and expressed in Escherichia coli. Finally, the reconstituted cFab was obtained by gradient dialysis of the mixture of cFd and cL. SDS-PAGE and western blot analysis showed the reconstituted cFab with a recovery rate of 70.2% when the initial total concentration of cL and cFd proteins to be 100 microg/ml. The reconstituted cFab maintained the affinity and specificity to colon cancer cells compared with its parental antibody as determined by immunostaining analysis, FACS and ELISA. Our results established a foundation for further application of the cFab in diagnosis and treatment of colon cancer.
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PMID:High efficiency reconstitution of a human-mouse chimeric Fab of CAb-1 antibody specific to human colon cancer. 1848 5

Numerous techniques are available for investigating protein-ligand interactions. The phage display technique is one such method routinely used to identify antibody-antigen interactions and has the benefit of being easily adaptable to high-throughput screening platforms. Once identified, antigen-binding domains on fragment antibodies or single-chain fragment antibodies (scFv) can be expressed and purified for further studies. In this chapter, we describe a method for high-level expression of a phage display-derived scFv in Pichia pastoris. The phage display-derived antibody A33scFv recognizes a cell surface glycoprotein (designated A33) expressed in colon cancer that serves as a target antigen for radioimmunoimaging and/or immunotherapy of human colon cancer. The expression and purification of A33scFv was optimized for the methylotrophic yeast P. pastoris. P. pastoris with a Mut(S) phenotype was selected to express A33scFv under regulation of the methanol-inducible AOX1 promoter. Here we describe a large-scale fed-batch fermentation process with an efficient online closed-loop methanol control for the production of the recombinant protein. Purification of A33scFv from clarified culture medium was done using a two-step chromatographic procedure using anion exchange and hydrophobic interaction chromatography, resulting in a final product with more than 90% purity. This chapter provides protocols that can be used as a base for process development of recombinant protein expression in P. pastoris and purification of these proteins for use in further functionality studies and in diagnostic and therapeutic applications.
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PMID:High-level expression of a phage display-derived scFv in Pichia pastoris. 1955


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