Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human granulocytes express several species of nonspecific cross-reacting antigens (NCA), glycoproteins belonging to the carcinoembryonic antigen (CEA) family. Our previous studies have shown that at least two different NCA of 95 and 90 kDa are contained in the major NCA band of 90 to 100 kDa detectable upon gel electrophoresis of immunoprecipitates obtained from the cell surfaces of granulocytes with polyclonal anti-NCA. In the present study, the 90 to 100-kDa NCA band was found to include one more species of 100 kDa. This component was reactive with an anti-CD67 antibody as well as polyclonal anti-NCA and released from the cell surface with phosphatidylinositol-specific phospholipase C, indicating that the 100-kDa NCA species is CD67. Both antibodies revealed high binding activities with a recombinant protein of CGM6, which has been identified in a leukocyte cDNA library as an NCA gene and found to encode a glycosyl-phosphatidylinositol-anchored heterotypic cell adhesion molecule. Furthermore, the apparent molecular mass of the deglycosylated CD67 (38 kDa) corresponded with that of the CGM6 protein. These results suggest that CD67 is equivalent to the NCA species CGM6.
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PMID:Three different NCA species, CGM6/CD67, NCA-95, and NCA-90, are comprised in the major 90 to 100-kDa band of granulocyte NCA detectable upon SDS-polyacrylamide gel electrophoresis. 137 Aug 82

Antigenic epitopes of carcinoembryonic antigen (CEA) and non-specific cross-reacting antigen (NCA) were analysed in relation to their domain structures [domains N, I (A1-B1), II (A2-B2), III (A3-B3) and M for CEA and domains N, I (A1-B1), and M for NCA]. We reconstructed cDNAs for CEA-N, CEA-N-I, CEA-N-I-II, CEA-N-I-II-III-M (CEA-whole), NCA-N, NCA-N-I and NCA-N-I-M (NCA-whole), which were expressed in Chinese Hamster Ovary (CHO) cells. The recombinant proteins were purified by immunoadsorption and gel filtration. Their mol. wts judged from Western blotting were 17,000-26,000 for CEA-N, 70,000 for CEA-N-I, 150,000 for CEA-N-I-II, 165,000 for s-CEA-whole which was spontaneously released from cells into culture medium, 180,000 for p-CEA-whole which was solubilized with phosphatidylinositol specific phospholipase C (PI-PLC) from cells, 18,000-25,000 for NCA-N, 63,000 for NCA-N-I, and 96,000 for p-NCA-whole which was solubilized with PI-PLC from cells. The divergence of the observed mol. wts from those calculated from cDNA sequences seems to indicate that these recombinant proteins are highly N-glycosylated. By enzyme immunoassays, the immunoreactivities of the purified recombinant proteins were tested with 25 distinct anti-CEA monoclonal antibodies (MAbs), each representative of 25 different subgroups within five groups (Groups 1-5) previously classified by us in terms of the reactivity with CEA and CEA-related antigens. Twenty-one MAbs previously shown to react with different protein epitopes of the CEA molecule allow to define six groups (A-F) of epitopes according to their expression by different domains of the CEA and NCA molecules. Among four epitopes common to CEA and NCA, two were found to be present on domain N (Group A) and two on domain I (Group B). Among 15 epitopes absent from NCA but expressed by CEA and normal fecal antigens (NFAs), four were on domain N (Group C), five on domain I (Group D) and six on domain II (Group E). Two epitopes were previously described as "CEA distinctive", because they were recognized by MAbs reacting with CEA but not with the NFAs. These two epitopes (Group F) were found to be expressed by p-CEA-whole but not by s-CEA-whole. The latter results suggest that the Group F epitopes are located on a part of the domain III close to the anchoring device of the CEA molecule.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Epitope mapping of the carcinoembryonic antigen with various related recombinant proteins expressed in Chinese hamster ovary cells and 25 distinct monoclonal antibodies. 137 22

Griffonia simplicifolia agglutinin-2-binding glycoprotein (GBG) in human colonic carcinoma was examined immunochemically and histochemically, GBG was extracted from colonic carcinoma as a serum-type glycoprotein of 160 kilodaltons. GBG was not identical with carcinoembryonic antigen (CEA), since its molecular weight and localization in tissue sections were different from those of CEA. The non-reducing terminals of GBG probably carry N-acetylglucosamine, but not blood group determinants. Furthermore, GBG was released by phosphatidylinositol-specific phospholipase C from cell membrane. GBG was suggested to be anchored to the membrane via linkage to a glycosyl-phosphatidylinositol molecule. Among colonic carcinoma-associated antigens, serum-type glycoproteins having N-acetylglucosamine at non-reducing terminals have not previously been reported. GBG is a novel carbohydrate antigen of human colonic carcinoma.
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PMID:Griffonia simplicifolia agglutinin-2-binding glycoprotein as a novel carbohydrate antigen of human colonic carcinoma. 169 41

We use a sensitive biotin polarity assay to survey the surface distribution of glycosyl-phosphatidylinositol (GPI) anchored proteins in five model epithelial cell lines derived from different species (dog, pig, man) and tissues, i.e., kidney (MDCK I, MDCK II, LLC-PK1) and intestine (Caco-2 and SK-CO15). After biotinylation of apical or basolateral surfaces of confluent monolayers grown on polycarbonate filters, GPI-anchored proteins are identified by their shift from a Triton X-114 detergent-rich phase to a detergent-poor phase in the presence of phosphatidylinositol-specific phospholipase C. All GPI-anchored proteins detected (3-9 per cell type, at least 13 different proteins) are found to be apically polarized; no GPI-anchored protein is observed preferentially localized to the basal surface. One of the GPI-anchored proteins is identified as carcinoembryonic antigen (CEA). Survey of MDCK II-RCAr, a mutant cell line with a pleiotropic defect in galactosylation of glycoproteins and glycolipids (that presumably affects GPI anchors) also reveals an apical polarization of all GPI-anchored proteins. In contrast, analysis of MDCK II-ConAr (a mutant cell line with an unknown defect in glycosylation) revealed five GPI-anchored proteins, two of which appeared relatively unpolarized. Our results indicate that the polarized apical distribution of GPI-anchored proteins is highly conserved across species and tissue-type and may depend on glycosylation.
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PMID:Preferred apical distribution of glycosyl-phosphatidylinositol (GPI) anchored proteins: a highly conserved feature of the polarized epithelial cell phenotype. 213 77

About 50-70 mg in total of carcinoembryonic antigen (CEA) (or CEA-related antigens) was detected in normal adult feces evacuated during one day (200-250 g). Ten percent or less of the antigen was found to be in soluble form in fresh feces (naturally solubilized antigen), while 90% or more was still in membrane-bound form which was releasable with phosphatidylinositol-specific phospholipase C (PI-PLC-solubilized antigen). The naturally solubilized and PI-PLC-solubilized antigens are antigenically different from each other and similar to normal fecal antigen (NFA)-2 and CEA, respectively, suggesting that "CEA-distinctive" antigenicity detected so far in CEA from cancerous tissues is not due to the difference between antigens in normal and malignant tissues but is probably due to the presence of the glycosylinositolphosphate moiety at the carboxyl-terminus of the antigen molecule. Thus, "CEA-distinctive" antigenicity is by no means cancer-specific, but this antigenicity seems to be critical for the clinical significance of CEA as a tumor marker, because an assay system (Kit II) which is able to distinguish CEA from NFA-2 revealed much improved features in cancer diagnosis as reported recently.
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PMID:Characterization of carcinoembryonic antigen-related antigens in normal adult feces. 216 22

Complementary DNA clones coding for both carcinoembryonic antigen (CEA), a well characterized colonic tumor marker, and nonspecific cross-reacting antigen (NCA), a related antigen, were expressed in Chinese hamster ovary (CHO) cells and L-cells (mouse fibroblasts). A genomic clone coding for CEA was also expressed in CHO cells. Positive clones were identified by fluorescence flow cytometry and enzyme-linked immunosorbent assay. Membrane location of the recombinant CEA and NCA was confirmed by indirect immunofluorescence labeling of the transfectants, followed by visualization under a fluorescence microscope. The apparent molecular weight of the expressed CEA and NCA were 180,000 and 96,000, respectively, for both cell lines, as determined by immunoblot analysis. The CEA and NCA expressed on CHO cells were sensitive to treatment with phosphatidylinositol-specific phospholipase C (PI-PLC), whereas the CEA and NCA proteins on L-cells were resistant to removal by PI-PLC. Unlike NCA, which contains three methionine residues, the only methionine in CEA is in the C-terminal hydrophobic domain. This domain in CEA was shown to be removed and replaced by a phosphatidylinositol glycan (PI-G) anchor (Hefta et al., Proc. Natl. Acad. Sci. USA, 85: 4648-4652, 1988). The recombinant CEA from both CHO cells and L-cells could be labeled with [3H]-ethanolamine (a component of the PI-G anchor) but not with [35S] methionine, whereas the recombinant NCA could be labeled with both [3H]ethanolamine and [35S]methionine. The labeling studies and PI-PLC treatment results are consistent with the CEA and NCA expressed on CHO cells possessing a PI-G anchor. The CEA expressed on the L-cell transfectants may contain a PI-G anchor which is resistant to cleavage by PI-PLC. In addition, the membrane-bound and secreted levels of CEA from the CHO and L-cell transfectants were determined.
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PMID:Expression of complementary DNA and genomic clones for carcinoembryonic antigen and nonspecific cross-reacting antigen in Chinese hamster ovary and mouse fibroblast cells and characterization of the membrane-expressed products. 231 24

The levels and character of carcinoembryonic antigen (CEA) in feces were investigated by sandwich radioimmunometric assay using anti-CEA monoclonal antibodies NCC-CO-411 and NCC-CO-432. Mean CEA concentration was significantly higher (P less than 0.001) in the feces from patients with colorectal carcinoma and other gastrointestinal disorders as compared to normal adults. More than 90% of the fecal CEA was trapped by a 0.22 micron membrane filter and solubilized by treatment with 1% Triton X-100 or phosphatidyl-inositol specific phospholipase C. In hydrophobic chromatography, most of the fecal CEA was eluted at the lowest (NH4)2SO4 concentration while serum CEA appeared in the more hydrophilic fractions. These results suggest that the majority of CEA exists in feces as an amphiphilic molecule or a membrane-bound form. The increase of fecal CEA may reflect the destruction and abrasion of epithelial cells in various gastrointestinal disorders.
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PMID:Detection of increased fecal carcinoembryonic antigen and its characterization as a membrane-bound form in colorectal carcinoma and other gastrointestinal disorders. 251 43

We have investigated the post-translational modification of carcinoembryonic antigen (CEA) for membrane-anchoring in QGP-1 cells derived from a human pancreatic carcinoma. Pulse-chase experiments with [3H]leucine demonstrated that CEA was initially synthesized as a precursor form with Mr 150,000 having N-linked high-mannose-type oligosaccharides, which was then converted to a mature form with Mr 200,000 containing the complex type sugar chains. The mature protein thus labeled was found to be released from the cell surface by treatment with phosphatidylinositol-specific phospholipase C, suggesting that CEA is a phosphatidylinositol-linked membrane protein. This was confirmed by metabolic incorporation into CEA of 3H-labeled compounds such as ethanolamine, myo-inositol, palmitic acid, and stearic acid. The 3H-labeled fatty acids incorporated were specifically removed from the protein by nitrous acid deamination as well as by phosphatidylinositol-specific phospholipase C treatment. Since the available cDNA sequence predicts that CEA contains a single methionine residue only in its carboxyl-terminal hydrophobic domain, processing of the carboxyl terminus was examined by pulse-chase experiments with [35S]methionine. It was found that CEA with Mr 150,000 was initially labeled with [35S]methionine but its radioactivity was immediately lost with chase. Taken together, these results suggest that CEA is anchored to the membrane by simultaneously occurring proteolysis of the carboxyl terminus and replacement by the glycophospholipid immediately after the synthesis.
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PMID:Evidence for carboxyl-terminal processing and glycolipid-anchoring of human carcinoembryonic antigen. 284 40

Carcinoembryonic antigen is present in the cell membrane of most tumors of colorectal origin and in the plasma of patients with colorectal cancer and other malignancies. In this paper we demonstrate that carcinoembryonic antigen can be released from HT-29 cells by phosphatidylinositol specific phospholipase C. Triton X-114 phase separation shows that phospholipase C converts the antigen into a water soluble protein. In addition, plasma carcinoembryonic antigen behaves as the cleaved antigen in phase separation experiments. This strongly suggests that carcinoembryonic antigen is attached to cell membranes by a glycosyl-phosphatidylinositol anchor and that it can be released in vivo by enzymatic cleavage of the hydrophobic tail.
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PMID:Cell membrane, but not circulating, carcinoembryonic antigen is linked to a phosphatidylinositol-containing hydrophobic domain. 304 62

The COOH-terminal amino acid of carcinoembryonic antigen (CEA) is shown to covalently link with ethanolamine, evidence consistent with the anchorage of CEA to the plasma membrane through a phosphatidylinositol-glycan tail. Purified CEA was digested with trypsin, and the resulting peptides were isolated by reverse-phase HPLC. Tryptic hexapeptide T12, terminating atypically with alanine, corresponded in sequence (Ser-Ile-Thr-Val-Ser-Ala) with the last six residues (637-642) of the third repeating domain in the mature CEA protein. Mass determination of the hexapeptide by fast atom bombardment mass spectrometry suggested the presence of an additional ethanolamine moiety. This finding and the absence of the subsequent 26 hydrophobic residues predicted by cDNA sequence is evidence that hexapeptide T12 is the COOH-terminal peptide of mature CEA. A synthetic peptide identical to hexapeptide T12 was prepared, and ethanolamine was coupled to its COOH-terminal alanine; chromatographic properties of this synthetic ethanolamine-coupled peptide and peptide T12 were the same. B/E-linked-scan mass spectral analysis of the ethanolamine-coupled synthetic peptide and peptide T12 revealed a fragment ion series consistent with the presence of a COOH-terminal ethanolamine. Release of membrane-bound CEA from the CEA-expressing cell line LS 174T was shown by indirect immunofluorescence and flow cytometry after treatment with phosphatidylinositol-specific phospholipase C. We conclude that CEA is processed posttranslationally to remove the hydrophobic COOH-terminal residues (643-668) with subsequent addition of an ethanolamine-glycosylphosphatidylinositol moiety and that treatment of a colonic cell line with phosphatidylinositol-specific phospholipase C releases membrane-bound CEA.
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PMID:Carcinoembryonic antigen is anchored to membranes by covalent attachment to a glycosylphosphatidylinositol moiety: identification of the ethanolamine linkage site. 338 31


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