glycoconjugates in pancreatic cancer
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Publication
Journal: Gastroenterology
May/29/1991
Abstract
Carbohydrate antigens representing some of the initial steps in mucin O-linked glycosylation were examined in specimens of normal pancreas, chronic pancreatitis, and pancreatic adenocarcinoma. Tn antigen, recognized by Vicia villosa lectin, was expressed by all specimens of normal pancreas (acinar cells) and pancreatic cancers and all but one case of chronic pancreatitis. Sialosyl Tn antigen, recognized by monoclonal antibody TKH2, was expressed in a cancer-associated fashion, being completely absent in normal pancreas but expressed by 56% of chronic pancreatitis and 97% of pancreatic cancers. T antigen, recognized by monoclonal antibody AH9-16, was expressed in 68% of normal pancreas (acinar cells), 67% of chronic pancreatitis, and 48% of pancreatic cancer tissues. These results indicate that normal acinar cells of the pancreas are capable of expressing selected carbohydrate structures associated with the initial steps of mucin glycosylation. The marked expression of sialosyl Tn compared with T antigen in pancreatic cancers suggests that with malignant transformation there is selective usage of glycosyltransferase enzymes involved in mucin oligosaccharide synthesis.
Publication
Journal: Cancer
December/6/1990
Abstract
The normal pancreas consists of three major cell types or lineages that share a common embryologic origin from pluripotent endodermal precursors. The type of cell that undergoes neoplastic transformation to form a pancreatic carcinoma is controversial and may influence the phenotype and biologic behavior of the tumor. In this study, immunohistologic techniques were used to determine the cell lineage differentiation expressed in 29 primary exocrine pancreatic adenocarcinomas, five metastatic exocrine pancreatic adenocarcinomas, and five islet cell neoplasma. Specimens of normal pancreas and chronic pancreatitis were used for comparison. The cell lineage markers consisted of monoclonal and polyclonal antibodies against trypsin and lipase (acinar cells); secretory component, carbonic anhydrase II, and pancreatic cancer mucin SPan-1 (ductal cells); and chromogranin-A and somatostatin (islet cells). The expression of carcinoembryonic antigen (CEA) and lysozyme were also determined. This collection of markers allowed the differentiation between acinar, ductal, and islet cells of normal pancreas and chronic pancreatitis specimens. The expression of cell lineage markers in islet cell tumors was homogeneous and restricted to chromogranin-A. In contrast, the expression of these markers in primary and metastatic exocrine pancreatic adenocarcinomas was variable. Reactivity with monoclonal anti-CEA was absent in normal pancreas, and was present in 83% of chronic pancreatitis specimens as well as 90% of exocrine pancreatic adenocarcinomas. In addition, lysozyme reactivity was absent in normal pancreas; however, lysozyme was expressed in one case of chronic pancreatitis, 17 cases of primary carcinoma, and three cases of metastatic carcinoma. These findings support the concept that the original transformed cell type in many pancreatic exocrine carcinomas resemble endodermal "stem cells" that retain the capability of differentiation along more than one cell lineage pathway.
Publication
Journal: European journal of cancer & clinical oncology
May/17/1984
Abstract
The effects of 1 mM sodium butyrate or 2% dimethylsulfoxide (DMSO) on three human pancreatic tumor cell lines were examined. The cell lines tested were MIA PaCa-2, PANC-1 and CAPAN-1. Both butyrate and DMSO inhibited the ability of all three lines to form colonies in soft agar. These results suggest that the use of these agents provides a model system for the study of the molecular changes involved in human pancreatic cancer. In butyrate all the cell lines showed a marked increase in cellular levels of alkaline phosphatase, while growth in DMSO led to a reduction in most cases. DMSO caused a rapid reduction in the attachment of all three cell lines to collagen substrates, while butyrate had no effect. These results illustrate the fact that although both butyrate and DMSO appear to greatly reduce the parameters correlated with tumorigenicity of human pancreatic cancer cells, the mechanisms involved may be very different.
Publication
Journal: International Journal of Cancer
July/8/1993
Abstract
Exposure of core carbohydrate structures such as NeuAc alpha2-6GalNAc-Ser/Thr (sialosyl-Tn) in mucus glycoproteins is often associated with malignant transformation in a number of different tissues. Reagents that specifically identify such structures would be useful in the diagnosis of cancer. Monoclonal antibody JT10e has been produced against mucins from xenografts of LS174T colon cancer cells but also reacts with mucins of pancreatic cancer xenografts. The following data suggest that JT10e reacts with sialosyl-Tn: (I) reactivity with bovine and ovine submaxillary mucins; (2) reactivity sensitive to neuraminidase or mild acid; (3) inhibition of reactivity by NeuAc and NeuAc alpha2-6 lactose; and (4) lack of reactivity with other glycoproteins with related carbohydrate structures but no sialosyl-Tn. JT10e is distinguishable from 2 other antibodies which react with sialosyl-Tn, B72.3 and TKH2 because JT10e: (a) did not react with normal gastric tissue while B72.3 and TKH2 did; (b) was only partially inhibited by TKH2 and not at all by B72.3; (c) did not react with Tn antigen while B72.3 did; and (d) bound more strongly to pancreatic cancer mucins than did either B72.3 or TKH2. JT10e reacted with a high percentage of malignant colonic, pancreatic, gastric and mammary tissues but not with the corresponding normal tissues. A high percentage of patients with colonic, pancreatic, gastric, mammary and lung cancers had elevated blood levels of JT10e antigen. A number of colonic cancer patients had elevated JT10e antigen levels without corresponding elevations in CA19-9 levels. These results suggest that JT10e antibody could be used in conjunction with other mucin markers to improve the identification of malignancy in colon, and to study the structure of oligosaccharides in cancer mucins.