Expression of blood group Lewis b determinant from Lewis a: association of this novel alpha (1,2)-L-fucosylating activity with the Lewis type alpha (1,3/4)-L-fucosyltransferase.

Blood group H type 1 [Fuc alpha (1,2)Gal beta (1,3)GlcNAc beta-->] is known as the precursor structure of the blood group determinant, Lewis b [Fuc alpha (1,2)Gal beta (1,3)(Fuc alpha (1,4))GlcNAc beta-->]. Recently, a new biosynthetic route for Lewis b from Lewis a [Gal beta (1,3)(Fuc alpha (1,4))GlcNAc-->] was identified in human gastric carcinoma cells, colon carcinoma Colo 205, and ovarian tumor. The present study demonstrates the association of this new type of alpha (1,2)-L-fucosyltransferase (FT) activity with the Lewis-type alpha (1,3/4)-L-FT as follows: (i) the alpha (1,4)- and novel alpha (1,2)-FT activities of Colo 205 were much less inhibited than the alpha (1,3)-FT activity by N-ethylmaleimide [Ki(microM) = 714.0, 119.0, and 6.5 respectively]. (ii) The alpha (1,4)- and novel alpha (1,2)-FT activities emerged from a Sephacryl S-200 column in identical positions. (iii) A specific inhibitor (copolymer from 3-sulfo-Galbeta(1,3)GlcNAcbeta-O-allyl and acrylamide) of alpha(1,4)-FT activity inhibited both alpha(1,4)- and alpha(1,2)-FT activities in Sephacryl S-200 column effluent to almost the same extent (approximately 80%); (iv) separation of the Lewis-type alpha(1,3/4)-FT from the plasma-type alpha(1,3)-FT by specific elution of the affinity column (bovine IgG glycopep-Sepharose) with lactose and further purification on a Sephacryl S-100 HR column showed that (a) the alpha(1,3)-FT activity was the inherent capacity of the Lewis-type FT (Colo 205 fraction L) since approximately 90% of both the alpha(1,4)- and alpha(1,3)-FT activities is inhibited by the copolymer, (b) the unique ability of catalyzing the alpha(1,2)-L-fucosylation of Gal in Lewis a structure and also the alpha(1,3)-L-fucosylation of Glc in lactose-based structure belonged to the Lewis type enzyme (Colo 205 fraction L), (c) a measurement of the [14C]fucosyl products arising from the two acceptors Galbeta(1,3)(4,6-di-O-Me)GlcNAcbeta-O-Bn and 3-sulfo-Galbeta(1,3)GlcNAcbeta-O-A1 (specific for alpha(1,2) and alpha(1,4), respectively) taken in the same incubation mixture showed mutual inhibition by the acceptors ([Km for the alpha(1,4)-specific acceptor, 3-sulfo-Galbeta(1,3)GlcNAcbeta-O-A], increased from 32 to 50 microM in the presence of 7.5 mM Galbeta(1,3)(4,6-di-O-Me)GlcNAcbeta-O-Bn, whereas Ki for the mutual inhibition of alpha(1,2)-FT activity by the former was 102 microM], and (d) the Lewis-type FT, in contrast to the plasma type FT, was highly effective in fucosylating complex glycopeptides. (iv) A cloned FT (FT III:Lewis type) and the Colo 205 Lewis-type FT (fraction L) showed similar activities toward various acceptors; the enzymatic product resulting from the action of cloned FT on Galbeta(1,3)(Fucalpha(1,4))GlcNAc-beta-O-Bn was identified by FAB mass spectrometry as the difucosyl compound. (v) An examination of six human cell lines indicated that the novel alpha(1,2)-FT activity associates with the alpha(1,4)-FT activity.

[1]  R. Jain,et al.  A Biosynthetic Control on Structures Serving as Ligands for Selectins: The Precursor Structures, 3-Sialyl/Sulfo Galβ1,3/4GlcNAcβ-0-R, Which Are High Affinity Substrates for α1,3/4-L-Fucosyltransferases, Exhibit the Phenomenon of Substrate Inhibition , 1994 .

[2]  H. Kimura,et al.  Quantitative Analysis of Lea and Leb Antigens in Human Saliva , 1994, Vox sanguinis.

[3]  R. Jain,et al.  Synthesis of Galβ1→3 (Fucα1→4) GlcNAcβ-OR as potential acceptors for a new member of the α-1,2-L-fucosyltransferase family , 1993 .

[4]  E. Holmes Human Lewis α1→3/4fucosyltransferase: specificity of fucose transfer to GlcNAcβ1→3Galβ1→4Glcβ1→1Cer (LcOse3Cer) , 1993 .

[5]  J. Lowe,et al.  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. , 1992, The Journal of biological chemistry.

[6]  R. Jain,et al.  Ovarian cancer alpha 1,3-L-fucosyltransferase. Differentiation of distinct catalytic species with the unique substrate, 3'-sulfo-N-acetyllactosamine in conjunction with other synthetic acceptors. , 1992, The Journal of biological chemistry.

[7]  R. Jain,et al.  Mucin biosynthesis revisited. The enzymatic transfer of Gal in beta 1,3 linkage to the GalNAc moiety of the core structure R1-GlcNAc beta 1,6GalNAc alpha-O-R2. , 1992, The Journal of biological chemistry.

[8]  M. Blaszczyk-Thurin,et al.  Purification of the secretor-type beta-galactoside alpha 1----2-fucosyltransferase from human serum. , 1992, The Journal of biological chemistry.

[9]  J. Lowe,et al.  A cloned human cDNA determines expression of a mouse stage-specific embryonic antigen and the Lewis blood group alpha(1,3/1,4)fucosyltransferase. , 1990, Genes & development.

[10]  M. Blaszczyk-Thurin,et al.  Biosynthetic pathways for the Leb and Y glycolipids in the gastric carcinoma cell line KATO III as analyzed by a novel assay. , 1988, Biochemical and biophysical research communications.

[11]  M. Blaszczyk-Thurin,et al.  Y and blood group B type 2 glycolipid antigens accumulate in a human gastric carcinoma cell line as detected by monoclonal antibody. Isolation and characterization by mass spectrometry and NMR spectroscopy. , 1987, The Journal of biological chemistry.

[12]  S. Hakomori,et al.  Differential expression of difucosyl type 2 chain (LeY) defined by monoclonal antibody AH6 in different locations of colonic epithelia, various histological types of colonic polyps, and adenocarcinomas. , 1986, Cancer research.

[13]  S. Yazawa,et al.  α-L-fucosidase from aspergillus niger: Demonstration of a novel α-L-(1 → 6)-fucosidase acting on glycopeptides , 1986 .

[14]  C. Cordon-Cardo,et al.  Expression of Lewisa, Lewisb, X, and Y blood group antigens in human colonic tumors and normal tissue and in human tumor-derived cell lines. , 1986, Cancer research.

[15]  M. Herlyn,et al.  Characterization of Lewis antigens in normal colon and gastrointestinal adenocarcinomas. , 1985, Proceedings of the National Academy of Sciences of the United States of America.

[16]  R. W. Baldwin,et al.  Immunohistochemical localization of Y hapten and the structurally related H type‐2 blood‐group antigen on large‐bowel tumours and normal adult tissues , 1984, International journal of cancer.

[17]  M. Herlyn,et al.  Monoclonal antibody localization of Lewis antigens in fixed tissue. , 1984, Laboratory investigation; a journal of technical methods and pathology.

[18]  J. Le Pendu,et al.  Distribution of H type 1 and H type 2 antigenic determinants in human sera and saliva. , 1982, American journal of human genetics.

[19]  V. Hořejší,et al.  Studies on lectins. XXXV. Water-soluble O-glycosyl polyacrylamide derivatives for specific precipitation of lectins. , 1978, Biochimica et biophysica acta.