Access the full text.
Sign up today, get DeepDyve free for 14 days.
M. Kozak (1989)
The scanning model for translation: an updateThe Journal of Cell Biology, 108
W. Young, H. Johnson, Y. Tamura, K. Karlsson, G. Larson, J. Parker, D. Khare, U. Spohr, D. Baker, O. Hindsgaul, R. Lemieux (1983)
Characterization of monoclonal antibodies specific for the Lewis a human blood group determinant.The Journal of biological chemistry, 258 8
S. Hakomori (1992)
Lex and related structures as adhesion molecules, 24
C. Ye, K. Kiriyama, C. Mitsuoka, R. Kannagi, K. Ito, T. Watanabe, K. Kondo, S. Akiyama, H. Takagi (1995)
Expression of E‐selectin on endothelial cells of small veins and proliferating vessels in human colorectal carcinoma, 61
W. Kemmner, D. Krueck, P. Schlag (1994)
Different sialyltransferase activities in human colorectal carcinoma cells from surgical specimens detected by specific glycoprotein and glycolipid acceptors, 12
R. Kannagi, A. Kitahara, S. Itai, K. Zenita, K. Shigeta, T. Tachikawa, Atsunari Noda, H. Hirano, Midori Abe, Sadahito Shin, Y. Fukushi, S. Hakomori, Hiroo Imura (1988)
Quantitative and qualitative characterization of human cancer-associated serum glycoprotein antigens expressing epitopes consisting of sialyl or sialyl-fucosyl type 1 chain.Cancer research, 48 13
J. Kukowska-Latallo, R. Larsen, R. Nair, J. Lowe (1990)
A cloned human cDNA determines expression of a mouse stage-specific embryonic antigen and the Lewis blood group alpha(1,3/1,4)fucosyltransferase.Genes & development, 4 8
X. Filella, R. Molina, J. Grau, J. Piqué, J. García-Valdecasas, E. Astudillo, A. Biete, J. Bordas, A. Novell, E. Campo, A. Ballesta (1992)
Prognostic value of CA 19.9 levels in colorectal cancer.Annals of surgery, 216 1
Kari Koszdin, Benjamin Bowen (1992)
The cloning and expression of a human alpha-1,3 fucosyltransferase capable of forming the E-selectin ligand.Biochemical and biophysical research communications, 187 1
V. A. Astler, F. A. Coller (1954)
The prognostic significance of direct extension of the colon and rectum, 139
K. Kiriyama, T. Watanabe, J. Sakamoto, K. Ito, S. Akiyama, M. Yamauchi, H. Takagi (1991)
[Expression and clinical significance of type-1 blood group antigens (Lea, Leb, CA19-9) in colorectal cancer--comparison with CEA].Nihon Geka Gakkai zasshi, 92 3
S. Itai, J. Nishikata, T. Yoneda, K. Ohmori, H. Yamabe, S. Arii, T. Tobe, R. Kannagi (1991)
Tissue distribution of 2‐3 and 2‐6 sialyl lewis A antigens and significance of the ratio of two antigens for the differential diagnosis of malignant and benign disorders of the digestive tractCancer, 67
S. Natsuka, K. Gersten, K. Zenita, R. Kannagi, J. Lowe (1994)
Molecular cloning of a cDNA encoding a novel human leukocyte alpha-1,3-fucosyltransferase capable of synthesizing the sialyl Lewis x determinant.The Journal of biological chemistry, 269 24
R. Shimono, M. Mori, K. Akazawa, Y. Adachi, K. Sugimachi (1994)
Immunohistochemical expression of carbohydrate antigen 19‐9 in colorectal carcinoma, 89
A. Takada, K. Ohmori, T. Yoneda, K. Tsuyuoka, A. Hasegawa, M. Kiso, R. Kannagi (1993)
Contribution of carbohydrate antigens sialyl Lewis A and sialyl Lewis X to adhesion of human cancer cells to vascular endothelium.Cancer research, 53 2
R. Sánchez-López, Richard Nicholson, M. Gesnel, Lynn MatrisianQ, Richard Breathnachll (1988)
Structure-function relationships in the collagenase family member transin.The Journal of biological chemistry, 263 24
Akiko Takada, Katsuyuki Ohmori, Naofumi Takahashi, K. Tsuyuoka, Akihiro Yago, K. Zenita, A. Hasegawa, Reiji Kannagi (1991)
Adhesion of human cancer cells to vascular endothelium mediated by a carbohydrate antigen, sialyl Lewis A.Biochemical and biophysical research communications, 179 2
K. Yago, K. Zenita, H. Ginya, M. Sawada, K. Ohmori, M. Okuma, R. Kannagi, J. Lowe (1993)
Expression of alpha-(1,3)-fucosyltransferases which synthesize sialyl Le(x) and sialyl Le(a), the carbohydrate ligands for E- and P-selectins,in human malignant cell lines.Cancer research, 53 22
R. Mollicone, J. Candelier, B. Mennesson, P. Couillin, A. Venot, R. Oriol (1992)
Five specificity patterns of (1----3)-alpha-L-fucosyltransferase activity defined by use of synthetic oligosaccharide acceptors. Differential expression of the enzymes during human embryonic development and in adult tissues.Carbohydrate research, 228 1
V. Astler, F. Coller (1954)
THE PROGNOSTIC SIGNIFICANCE OF DIRECT EXTENSION OF CARCINOMA OF THE COLON AND RECTUMAnnals of Surgery, 139
F. Dallolio, M. Chiricolo, P. Lollini, J. Lau (1995)
Human Colon Cancer Cell Lines Permanently Expressing α2,6-Sialylated Sugar Chains by Transfection with Rat β-Galactoside α2,6 Sialyltransferase cDNABiochemical and Biophysical Research Communications, 211
E. Holmes, G. Ostrander, S. Hakomori (1985)
Enzymatic basis for the accumulation of glycolipids with X and dimeric X determinants in human lung cancer cells (NCI-H69).The Journal of biological chemistry, 260 12
C. Ye, K. Kiriyama, Chikako Mistuoka, R. Kannagi, Katsuki Ito, Tadashi Watanabe, K. Kondo, S. Akiyama, H. Takagi (1995)
Expression of E‐selectin on endothelial cells of small veins in human colorectal cancerInternational Journal of Cancer, 61
Y. Ikeda, Masaki Mori, A. Kido, R. Shimono, T. Matsushima, K. Sugimachi, M. Saku (1991)
Immunohistochemical expression of carbohydrate antigen 19-9 in gastric carcinoma.The American journal of gastroenterology, 86 9
Brent Weston, R. Nair, R Larsen, J. Lowe, J. Lowe (1992)
Isolation of a novel human alpha (1,3)fucosyltransferase gene and molecular comparison to the human Lewis blood group alpha (1,3/1,4)fucosyltransferase gene. Syntenic, homologous, nonallelic genes encoding enzymes with distinct acceptor substrate specificities.The Journal of biological chemistry, 267 6
H. Kitagawa, J. Paulson (1993)
Cloning and Expression of Human Galβ1,3(4)GlcNAc α2,3-SialyltransferaseBiochemical and Biophysical Research Communications, 194
T. Dohi, M. Hashiguchi, S. Yamamoto, H. Morita, M. Oshima (1994)
Fucosyltransferase‐producing sialyl Lea and sialyl Lex carbohydrate antigen in benign and malignant gastrointestinal mucosaCancer, 73
Hiroshi Kitagawa, J. Paulson (1994)
Cloning of a novel alpha 2,3-sialyltransferase that sialylates glycoprotein and glycolipid carbohydrate groups.The Journal of biological chemistry, 269 2
S. Goelz, C. Hession, D. Goff, B. Griffiths, R. Tizard, B. Newman, G. Chi‐Rosso, R. Lobb (1990)
ELFT: A gene that directs the expression of an ELAM-1 ligandCell, 63
W. Gillespie, S. Kelm, J. C. Paulson (1992)
Cloning and expression of the Gal‐β‐1,3GalNAcα‐2,3‐sialyltransferase, 267
G. William, Soerge Kelm, J. Paulson (1992)
Cloning and expression of the Gal beta 1, 3GalNAc alpha 2,3-sialyltransferase.The Journal of biological chemistry, 267 29
R. Mollicone, A. Gibaud, A. Francois, M. Ratcliffe, R. Oriol (1990)
Acceptor specificity and tissue distribution of three human α‐3‐fucosyltransferasesFEBS Journal, 191
A. Waldock, Med Scl, Mrcpath Ellis, M. ARMITAGE, P. TURNER, M. HARDCASTLE, Phd EMBLETON (1989)
Differential expression of the lewis Y antigen defined by monoclonal antibody C14/1/46/10 in colonic polypsCancer, 64
Colin Funk, G. FitzGerald (1991)
Eicosanoid forming enzyme mRNA in human tissues. Analysis by quantitative polymerase chain reaction.The Journal of biological chemistry, 266 19
K. Sasaki, E. Watanabe, K. Kawashima, S. Sekine, T. Dohi, M. Oshima, N. Hanai, T. Nishi, M. Hasegawa (1993)
Expression cloning of a novel Gal beta (1-3/1-4) GlcNAc alpha 2,3-sialyltransferase using lectin resistance selection.The Journal of biological chemistry, 268 30
F. Mi (1979)
Mucins in the human gastrointestinal epithelium: a review., 2
N. Habib, R. BRADFIELD, Mr Habib, JEAN-GUY Fournier, Pierre Lebon, Michel Bouteille, Franqoise Goutieres (1986)
Sialomucins at resection margin and likelihood of recurrence in colorectal carcinoma.British Medical Journal (Clinical research ed.), 293
S. Itai, J. Nishikata, T. Yoneda, K. Ohmori, S. Tsunekawa, N. Hiraiwa, H. Yamabe, S. Arii, T. Tobe, R. Kannagi (1991)
Tissue distribution of sialyl 2–3 and 2–6 Lewis a antigens and the significance of serum 2–3/2–6 sialyl Lewis A antigen ratio for the differential diagnosis of malignant and benign disorders of the digestive tract, 67
J. Bara, R. Mollicone, E. Herrero-Zabaleta, R. Gautier, Nagib Daher, R. Oriol (1988)
Ectopic expression of the Y (Ley) antigen defined by monoclonal antibody 12‐4LE in distal colonic adenocarcinomasInternational Journal of Cancer, 41
G. Hansson, D. Zopf (1985)
Biosynthesis of the cancer-associated sialyl-Lea antigen.The Journal of biological chemistry, 260 16
J. Lowe, J. Kukowska-Latallo, R. Nair, R Larsen, Rory Marks, B. Macher, R. Kelly, L. Ernst (1991)
Molecular cloning of a human fucosyltransferase gene that determines expression of the Lewis x and VIM-2 epitopes but not ELAM-1-dependent cell adhesion.The Journal of biological chemistry, 266 26
J. Chirgwin, A. Przybyla, Raymond MacDonald, W. Rutter (1979)
Isolation of biologically active ribonucleic acid from sources enriched in ribonuclease.Biochemistry, 18 24
S. Hakomori, R. Kannagi (1983)
Glycosphingolipids as tumor-associated and differentiation markers.Journal of the National Cancer Institute, 71 2
D. Wen, B. Livingston, K. Medzihradszky, Soerge Kelm, A. Burlingame, J. Paulson (1992)
Primary structure of Gal beta 1,3(4)GlcNAc alpha 2,3-sialyltransferase determined by mass spectrometry sequence analysis and molecular cloning. Evidence for a protein motif in the sialyltransferase gene family.The Journal of biological chemistry, 267 29
John MagnaniS, Bo Nilssong, Manfred BrockhausSV, David Zopfl, Zenon SteplewskiJI, Hilary Koprowskill, V. Ginsburg (1982)
A monoclonal antibody-defined antigen associated with gastrointestinal cancer is a ganglioside containing sialylated lacto-N-fucopentaose II.The Journal of biological chemistry, 257 23
T. Nakayama, M. Watanabe, T. Katsumata, T. Teramoto, M. Kitajima (1995)
Expression of Sialyl Lewisa as a new prognostic factor for patients with advanced colorectal carcinomaCancer, 75
Elisabetta Dejana, I. Martìn‐padura, D. Lauri, S. Bernasconi, M. Bani, A. Garofalo, R. Giavazzi, J. Magnani, A. Mantovani, Sylvie Ménard (1992)
Endothelial leukocyte adhesion molecule-1-dependent adhesion of colon carcinoma cells to vascular endothelium is inhibited by an antibody to Lewis fucosylated type I carbohydrate chain.Laboratory investigation; a journal of technical methods and pathology, 66 3
S. Itzkowitz (1992)
Carbohyrate changes in colon carcinoma, 27
K. Sasaki, Kazumi Kurata, Kikuko Funayama, Miho Nagata, E. Watanabe, Ohta, N. Hanai, Tatsunari NishiS (1994)
Expression cloning of a novel alpha 1,3-fucosyltransferase that is involved in biosynthesis of the sialyl Lewis x carbohydrate determinants in leukocytes.The Journal of biological chemistry, 269 20
M. Majuri, R. Niemelä, S. Tiisala, O. Renkonen, R. Renkonen (1995)
Expression and function of α2,3‐sialyl‐ and α,3/l,4‐fucosyltransferases in colon adenocarcinoma cell lines: Role in synthesis of E‐selectin counter‐receptorsInternational Journal of Cancer, 63
Brent Weston, Peter Smith, R. Kelly, J. Lowe, J. Lowe (1992)
Molecular cloning of a fourth member of a human alpha (1,3)fucosyltransferase gene family. Multiple homologous sequences that determine expression of the Lewis x, sialyl Lewis x, and difucosyl sialyl Lewis x epitopes.The Journal of biological chemistry, 267 34
Human colorectal cancers express various cancer‐associated carbohydrate determinants such as Lewis Y or sialyl Lewis A, suggesting a considerable alteration in glycosyltransferase activities occurring upon malignant transformation. We investigated the mRNA amounts of fucosyltransferase (Fuc‐T) and sialyltransferase (ST) isoenzymes, including Fuc‐T III, IV, V, VI and VII and ST‐3N, ST‐30 and ST‐4, in human colorectal cancer tissues by Northern blotting and RT‐PCR. Regarding fucosyltransferases, mRNA of Fuc‐T III and VI was not significantly altered, and only Fuc‐T IV mRNA showed a moderate increase in cancer tissues when compared with adjacent non‐malignant colonic epithelia taken from the same patient (273 ± 96%; p < 0.001). The moderate increase of Fuc‐T IV message may be related to an enhanced expression of Lewis Y in colon cancer tissues. In the ST isoenzymes, mRNA for ST‐3N remained unchanged, whereas that for ST‐4 decreased significantly in cancer tissues, to 32 ± 29%, (p < 0.005). The most remarkable finding was that the message of ST‐30 was prominently increased in cancer tissues compared with non‐malignant colorectal mucosa. When further investigated by quantitative RT‐PCR assays on a larger series of patients with colorectal cancers, the average increase in mRNA for ST‐30 was 459 ± 200% compared with that in adjacent non‐malignant epithelium (significant at p < 0.0001). The increase of ST‐30 message was more prominent in the cancer tissues strongly expressing sialyl Lewis A than in the cancer tissues expressing sialyl Lewis A only weakly or moderately (significant at p < 0.05). The marked increase in the message of ST‐30 is suggested to be related to an enhanced expression of sialylated carbohydrate determinants in colon cancer tissues including sialyl Lewis A, since the enzyme exhibited a significant activity against the type I chain carbohydrate substrate and produced the precursors for sialyl Lewis A synthesis, when its cDNA was expressed in Cos‐7 cells. Int. J. Cancer 71:556‐564, 1997 © 1997 Wiley‐Liss, Inc.
International Journal of Cancer – Wiley
Published: Jan 16, 1997
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.