UNIPROT:O95477 - FACTA Search

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Query: UNIPROT:O95477 (membrane-bound)
29,236 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The membrane-bound UDP-GalNAc:polypeptide N-acetylgalactosamine transferase from an ascites hepatoma, AH 66, has been purified 48,100-fold, mainly by affinity chromatography in aqueous Triton X-100 on apomucin (deglycosylated bovine submaxillary mucin) coupled to Sepharose. The purified preparation behaved homogeneously on gel filtration on Sephadex G-150 in aqueous Triton X-100 and on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, with an apparent molecular weight of about 55,000. The enzyme requires Mn2+, and only UDP-GalNAc served as a sugar donor. Apomucin, A1 protein, kappa-casein, apofetuin, and apoantifreeze glycoproteins served as acceptors, but the rate and amount of the transfer varied considerably from one acceptor to another. The transfer reaction terminated at the level of glycosylation of from only a few to at most about 40% of the serine plus threonine residues from which mucin-type oligosaccharides had been removed. This indicates that the transferase requires a certain conformation surrounding the acceptor site, but suggests also that a special mechanism may be functioning in vivo for frequent glycosylation of the abundant serine plus threonine residues of mucins. Lacto-N-fucopentaose I, ceramide di- and trihexosides, and globoside were not acceptors.
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PMID:Purification and characterization of UDP-GalNAc:polypeptide N-acetylgalactosamine transferase from an ascites hepatoma, AH 66. 680 38

In respiratory carcinogenesis studies using rodents, the tracheal epithelium is the target tissue for the induction of tumors after exposure of animals to chemical carcinogens. In the studies described below, tracheal epithelial cells were isolated to evaluate their biological and biochemical features. Epithelial cells derived from the tracheal mucosa of Syrian golden hamsters were established in culture. Three morphological types of polygonal cells were observed as mixed populations in four clonally derived lines. One type of cell is mucin secreting since membrane-bound vesicles that stain positively using the alcian blue:periodic acid-Schiff reaction are present in the cytoplasm and increased amounts of mucin constituents are demonstrable in the culture medium. Cells of a second type possess both intracytoplasmic and surface cilia, but they lack mucin vesicles. The third type exhibits no differentiating features. Four density-dependent inhibited cloned cell lines were established. After repeated passage, these cells: (a) grew in soft agar; (b) released proteases that were activators of plasminogen; (c) demonstrated measurable basal and inducible aryl hydrocarbon hydroxylase activity; and (d) produced anaplastic carcinomas in syngeneic hamsters. Factors affecting the transformation and differentiation of respiratory epithelial cells have not been elucidated. The availability of these cell lines will permit studies that focus on these questions.
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PMID:Isolation and spontaneous transformation of cloned lines of hamster tracheal epithelial cells. 719 76

Natural killer (NK) cells are CD3:TCR-, CD16+, CD56+ large granular lymphocytes capable of recognizing and eliminating a variety of virus-infected, malignant, and antibody-coated target cells. Two functionally distinct populations of peripheral blood NK cells can be differentiated by their surface expression of an isoform of the neural cell adhesion molecule (CD56). CD56bright NK cells have the attributes of an undifferentiated cell, in that they proliferate in response to exogenous cytokines, but exert poor cytolytic activity. CD56dim NK cells have the attributes of a more differentiated cell, in that they proliferate poorly in response to exogenous cytokines, but are potent cytolytic effector cells. Here we describe the molecular characterization of a NK cell restricted epitope (PEN5) that is selectively expressed on the functionally differentiated CD56dim NK cells. PEN5+ NK cells proliferate poorly in response to interleukin 2 (IL-2), but are potent cytolytic effectors, whereas PEN5- NK cells proliferate in response to IL-2, but are poor cytolytic effectors. Biochemical and immunochemical analyses reveal the PEN5 epitope to be an unusual sulfated poly-N-lactosamine carbohydrate related to keratan sulfate glycosaminoglycans. Immunoprecipitates prepared using a monoclonal antibody reactive with PEN5 include two polydisperse membrane-bound glycoproteins, PEN5 alpha (120-170 kD) and PEN5 beta (210-245 kD). Enzymatic deglycosylation reduces the apparent molecular weight of both PEN5 isoforms by 80-90%, and classifies PEN5 beta as a mucinlike glycoprotein. The surface expression of the PEN5 epitope is downmodulated by stimuli that induce NK cell proliferation, and it is absent from leukemic NK cells of patients with granular lymphocyte proliferative disorder. Taken together, these results indicate that PEN5 is a developmentally regulated poly-N-lactosamine epitope associated with a mucin-type glycoprotein, whose expression is restricted to the population of nonproliferative NK cells fully committed to cytolytic effector function.
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PMID:Developmental regulation of a mucinlike glycoprotein selectively expressed on natural killer cells. 750 54

Extravasation of leukocytes into organized lymphoid tissues and into sites of inflammation is critical to immune surveillance. Leukocyte migration to peripheral lymph nodes (PLN), mesenteric lymph nodes (MLN) and Peyer's patches (PP) depends on L-selectin, which recognizes carbohydrate-bearing, sialomucin-like endothelial cell surface glycoproteins. Two of these ligands have been identified at the molecular level. One is the potentially soluble mucin, GlyCAM 1, which is almost exclusively produced by high endothelial venules (HEV) of PLN and MLN. The second HEV ligand for L-selectin is the membrane-bound sialomucin CD34. Historically, this molecule has been successfully used to purify human pluripotent bone marrow stem cells, and limited data suggest that human CD34 is present on the vascular endothelium of several organs. Here we describe a comprehensive analysis of the vascular expression of CD34 in murine tissues using a highly specific antimurine CD34 polyclonal antibody. CD34 was detected on vessels in all organs examined and was expressed during pancreatic and skin inflammatory episodes. A subset of HEV-like vessels in the inflamed pancreas of nonobese diabetic (NOD) mice are positive for both CD34 and GlyCAM 1, and bind to an L-selectin/immunoglobulin G (IgG) chimeric probe. Finally, we found that CD34 is present on vessels of deafferentiated PLN, despite the fact that these vessels are no longer able to interact with L-selectin or support lymphocyte binding in vitro or trafficking in vivo. Our data suggest that the regulation of posttranslational carbohydrate modifications of CD34 is critical in determining its capability to act as an L-selectin ligand. Based on its ubiquitous expression, we propose that an appropriately glycosylated form of vascular CD34 may act as a ligand for L-selectin-mediated leukocyte trafficking to both lymphoid and nonlymphoid sites.
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PMID:Global vascular expression of murine CD34, a sialomucin-like endothelial ligand for L-selectin. 752 33

To determine the relative expression of distinct mucin genes in normal and neoplastic tissue, antibodies and cDNA probes that recognize the core tandem repeat sequences of membrane-bound (MUC1) and secreted (MUC2 and MUC3) mucins were used for immunohistochemical and RNA Northern and slot-blot analysis. MUC1 mRNA was detected in all epithelial tissues tested. MUC1 core peptide, recognized by monoclonal antibodies 139H2 and DF3, was highly expressed on apical membranes of bronchus, breast, salivary gland, pancreas, prostate, and uterus, and was sparsely expressed in gastric surface cells, gallbladder, small intestine, and colonic epithelium. In contrast, MUC2 and MUC3 gene expression was primarily restricted to the intestinal tract. MUC2 mRNA was highly expressed in normal jejunum, ileum, and colon, compared with very low levels in normal bronchus and gallbladder. MUC3 mRNA was highly expressed in normal jejunum, ileum, colon, and gallbladder. Immunohistochemical studies using antibodies against synthetic MUC2 (anti-MRP) and MUC3 (anti-M3P) peptides indicate that MUC2- and MUC3-producing cells in the gastrointestinal tract are distinct. Goblet cells of the small intestine and colon reacted strongly with anti-MRP, whereas M3P reactivity was restricted to columnar cells of small intestinal villi, surface colonic epithelium, and gallbladder. Mucin protein epitopes and mRNA levels were frequently altered in adenocarcinomas compared to corresponding normal tissues. Alterations included increased expression, aberrant expression, and, less frequently, loss of expression. Increased MUC1 immunoreactivity was observed in most adenocarcinomas of the breast, lung, stomach, pancreas, prostate, and ovary. In addition, with the exception of prostate cancer, focal aberrant expression of MUC2 and MUC3 epitopes was frequently observed. Increased MUC1, MUC2, and MUC3 epitopes were present in colon adenocarcinomas of all histological subtypes, with the greatest increase of MUC2 epitopes observed in colloid (mucinous) colon cancers. MUC2 or MUC3 mRNA levels were increased in colloid colon cancer compared with normal colon, however in well- and moderately well-differentiated colon cancers MUC1, 2 and 3 mRNA levels were decreased. Compared with corresponding normal tissue, MUC1 mRNA levels were increased in breast cancer and well-differentiated lung cancers, and MUC3 mRNA was increased in gastric adenocarcinomas. Normal stomach lacked both MUC2 and MUC3 immunoreactivity and mRNA, however, MUC2 and MUC3 proteins and mRNA were highly expressed in gastric intestinal metaplasia. In conclusion, mucin genes are independently regulated and their expression is organ- and cell type-specific. Furthermore, neoplastic transformation is associated with dys-regulated expression of both membrane-bound and secreted mucin core protein epitopes and may be due to altered mucin mRNA levels and/or altered mucin glycosylation.
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PMID:Heterogeneity of mucin gene expression in normal and neoplastic tissues. 767 77

The colon adenocarcinoma cell line COLO 205 secretes L-CanAg, a mucin-like glycoprotein carrying the carcinoma-associated sialyl-Lewis a carbohydrate epitope. In an attempt to identify its apoprotein, an NH2-terminal peptide sequence was obtained from purified L-CanAg. In all interpretable positions, this sequence showed 100% identity to the NH2-terminal of human CD43 (leukosialin, sialophorin), a plasma membrane-bound sialoglycoprotein hitherto only identified in leukocytes and other hematopoietic cells. An antiserum against deglycosylated L-CanAg and an anti-CD43 antiserum both immunoprecipitated a 61-kDa band, interpreted as the CD43 precursor, from COLO 205 cells as well as from the known CD43-expressing cell line HL-60. Results from immunoprecipitations following pulse-chase experiments and tunicamycin treatments were in agreement with earlier studies on the CD43 precursor. RNA blot analysis confirmed the expression of CD43 by the COLO 205 cell line, whereas three other colon carcinoma cell lines were negative. The glycosylation-dependent monoclonal antibody Leu-22, which recognizes leukocyte CD43, failed to bind L-CanAg, probably due to its much more extensive glycosylation. We conclude that L-CanAg is the secreted extracellular domain of a novel glycoform of CD43 and that CD43, if expressed in other carcinoma cells, may have escaped notice in studies relying on glycosylation-dependent monoclonal antibodies against leukocyte CD43.
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PMID:Expression of the leukocyte-associated sialoglycoprotein CD43 by a colon carcinoma cell line. 777 21

Platelet-activating factor (PAF), a proinflammatory lipid mediator, is a potent airway mucin secretagogue. This study assessed the role of protein kinase C (PKC) in PAF-induced mucin release from primary cultures of feline tracheal epithelial cells (FTEC). Mucin secretion was quantitated by enzyme-linked immunosorbent assay using a monoclonal antibody raised against airway mucin-type glycoproteins. Coincubation of FTEC with PAF (5 microM) and pharmacologic PKC inhibitors, sphingosine, H7, or calphostin C, inhibited PAF-induced mucin secretion at 30 min. The PKC inhibitors produced a concentration-dependent, noncytotoxic inhibition. Exposure of FTEC with the PKC activator phorbol 12-myristate 13-acetate (PMA), failed to increase the release of mucin. Stimulation of FTEC with PAF caused a transient increase of membrane-bound PKC activity after 5 min of stimulation. PMA also induced the translocation of PKC activity from the cytosol to the membrane fraction, which was still present after 15 min of exposure. Determination of the specific PKC isozyme(s) involved in PAF-induced mucin release was performed by immunoblot analysis of the subcellular fractions using a battery of antibodies against various PKC isozymes (anti-PKC alpha, beta, delta, gamma, epsilon, and zeta). We found that PKC zeta (mol wt approximately 70 kD) was a major identifiable PKC isozyme present in the cytosolic fraction of FTEC. Furthermore, PKC zeta isozyme was also found to translocate to the membrane fraction following PAF exposure. Thus, these results demonstrate the crucial role of PKC in the intracellular events that culminate in mucin release following PAF stimulation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Platelet-activating factor induces airway mucin release via activation of protein kinase C: evidence for translocation of protein kinase C to membranes. 804 80

Abnormalities of mucin-type glycoproteins have been described in lung cancers, but their molecular basis is unknown. In this study, mucin-core-peptide-specific antibodies and cDNA probes were used to determine the relative expression of mucin genes corresponding to one membrane-bound mucin (MUC1), two intestinal mucins (MUC2 and MUC3), and one tracheobronchial mucin (MUC4) in normal (nonneoplastic) lung, and in lung neoplasms. Normal lung tissues exhibited a distinct pattern of mucin gene expression, with high levels of MUC1 and MUC4 mRNA and low to absent levels of MUC2 and MUC3 mucin immunoreactivity and mRNA. In contrast, lung adenocarcinomas, especially well-differentiated cancers, exhibited increased MUC1, MUC3, and MUC4 mRNA levels. Lung squamous-cell, adenosquamous, and large-cell carcinomas were characterized by increased levels of MUC4 mucin only. We conclude that the expression of one membrane-bound and several secretory-type mucins is independently regulated and markedly altered in lung neoplasms. The frequent occurrence of increased MUC4 transcripts in a variety of non-small-cell lung cancers indicates the potential importance of this type of mucin in lung cancer biology.
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PMID:Membrane-bound (MUC1) and secretory (MUC2, MUC3, and MUC4) mucin gene expression in human lung cancer. 863 91

Pseudohyphal differentiation in Saccharomyces cerevisiae was first described as a response of diploid cells to nitrogen limitation. Here we report that haploid and diploid starch-degrading S. cerevisiae strains were able to switch from a yeast form to a filamentous pseudohyphal form in response to carbon limitation in the presence of an ample supply of nitrogen. Two genes, MSS10 and MUC1, were cloned and shown to be involved in pseudohyphal differentiation and invasive growth. The deletion of MSS10 resulted in extremely reduced amounts of pseudohyphal differentiation and invasive growth, whereas the deletion of MUC1 abolished pseudohyphal differentiation and invasive growth completely. Mss10 appears to be a transcriptional activator that responds to nutrient limitation and coregulates the expression of MUC1 and the STA1-3 glucoamylase genes, which are involved in starch degradation. MUC1 encodes a 1367-amino acid protein, containing several serine/threonine-rich repeats. Muc1 is a putative integral membrane-bound protein, similar to mammalian mucin-like membrane proteins that have been implicated to play a role in the ability of cancer cells to invade other tissues.
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PMID:Muc1, a mucin-like protein that is regulated by Mss10, is critical for pseudohyphal differentiation in yeast. 871 Aug 86

Tumour development is usually associated with changes in cell surface carbohydrates. These are often divided into changes related to terminal carbohydrate structures, which include incomplete synthesis and modification of normally existing carbohydrates, and changes in the carbohydrate core structure. The latter includes chain elongation of both glycolipids and proteins, increased branching of carbohydrates in N-linked glycoproteins, and blocked synthesis of carbohydrates in O-linked mucin-like glycoproteins. In mature organisms, expression of distinct carbohydrates is restricted to specific cell types; within a given tissue, variation in expression may be related to cell maturation. Tumour-associated carbohydrate structures often reflect a certain stage of cellular development; most of these moieties are structures normally found in other adult or embryonic tissues. There is no unique tumour carbohydrate structure, since certain structures which are tumour-related in one organ may be normal constituents of other tissues. Tumour-associated carbohydrate changes have been used in the diagnosis of human cancers. Recently, however, it has been demonstrated that the expression of some carbohydrate structures is associated with prognosis. Tn, sialyl-Tn, and T are cell membrane-bound mucin-like carbohydrate structures that may be expressed in tumours due to blocked synthesis of the core carbohydrate chain of mucin-like structures. Their expression is strongly associated with prognosis in certain tumours, but the biological relationship between their expression and tumour progression is at present unknown. The blood group-related carbohydrate structures Le(x), sialyl-Le(x), ABH, and Le(y) are examples of terminal carbohydrate structures which are related to tumour prognosis. These structures are of increasing interest since they may function as adhesion molecules; adhesion of tumour cells to endothelial cells of blood vessels may be mediated by an interaction between sialosyl-Le(x) and E-selectin and studies indicate that Le(y) is related to cell motility. These findings are now the basis for tumour therapeutic experiments.
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PMID:Cell surface carbohydrates as prognostic markers in human carcinomas. 886 81

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