To date, 10 members of the UDP-N-acetyl-␣-D-galactosamine:polypeptide N-acetylgalactosaminyltransferase (pp-GalNAc-T) family have been cloned and analyzed in human. In this study, we cloned and analyzed a novel human pp-GalNAc-T from an NT2 cell cDNA library, and we named it pp-GalNAc-T13. In amino acid sequences, pp-GalNAc-T13 was highly homologous, showing 84.3% identity, to pp-GalNAc-T1. Real time PCR analysis revealed pp-GalNAc-T13 to be highly and restrictively expressed in the brain and present at very low or undetectable levels in other tissues, in contrast to the ubiquitous expression of pp-GalNAc-T1. pp-GalNAc-T13 was abundantly expressed in all neuroblastoma cells examined and primary cultured neurons but not in glioblastoma cells and primary cultured astrocytes. pp-GalNAc-T13 exhibited much stronger activity to transfer GalNAc to mucin peptides, such as Muc5Ac and MUC7, than did pp-GalNAc-T1. In addition, pp-GalNAc-T13 differed in substrate specificity to pp-GalNAc-T1. pp-GalNAc-T13 was able to form a triplet Tn epitope, three consecutive GalNAc-Ser/Thr structures, on peptides encoded in syndecan-3, a proteoglycan expressed in neurons. pp-GalNAc-T13-deficient mice have been established in a previous work. Immunohistochemical study showed a remarkable decrease in Tn antigen expression in the cerebellum of the pp-GalNAc-T13 knockout mouse. pp-GalNAc-T13 would be a major enzyme responsible for the synthesis of O-glycan and specifically the Tn antigen epitope in neurons.O-Linked glycosylation of mucin is initiated by the transfer of N-acetylgalactosamine with an ␣-linkage to a serine or threonine residue in protein. The GalNAc residue attached to the peptide is usually extended to form more complex O-glycan structures by the action of multiple glycosyltransferases. The addition of GalNAc is controlled by multiple members of the pp-GalNAc-T 1 (EC 2.4.1.41) family. To date, 10 distinct members have been identified in human (pp-GalNAc-T1, -T2, -T3, -T4, -T6 to -T9, -T11, and -T12) (1-10) and 7 in rodent (ppGaN- Tase-T1, -T2, -T3, -T4, -T5, -T7, -T10 2 ) (11-17). All share a highly homologous primary sequence, 40 -60% homology at the amino acid level, to each other particularly in the predicted catalytic domain. Each member exhibits different substrate specificity toward peptide sequences. Thus, the positions of O-glycan in proteins are determined by the substrate specificity of each pp-GalNAc-T. The genes encoding these enzymes are distributed at different genomic localizations on chromosomes and have distinct genomic structures (4).pp-GalNAc-T1, which was the first pp-GalNAc-T to be cloned from bovine tissue (1), is the best characterized of the members. It shows activity toward Muc1, Muc2, Muc5Ac, and Muc7 peptides (4, 18). Peptide sequences derived from these mucins were used to determine the site of the O-glycosylation of the Muc2 and Muc5Ac mucin tandem repeat region by pp-GalNAc-T1 (19 -22).Many pp-GalNAc-Ts, including pp-GalNAc-T1, were found to * This work was performed as a part of the R&D Project o...
A multistep selection for ouabain resistance was used to isolate a clone of HeLa S3 cells that overproduces the plasma membrane sodium, potassium activated adenosinetriphosphatase (Na+,K+-ATPase). Measurements of specific [3H]ouabain-binding to the resistant clone, C+, and parental HeLa cells indicated that C+ cells contain 8-10 X 10(6) ouabain binding sites per cell compared with 8 X 10(5) per HeLa cell. Plasma membranes isolated from C+ cells by a vesiculation procedure and analyzed for ouabain-dependent incorporation of [32P]phosphate into a 100,000-mol-wt peptide demonstrated a ten- to twelvefold increase in Na+,K+-ATPase catalytic subunit. The affinity of the enzyme for ouabain on the C+ cells was reduced and the time for half maximal ouabain binding was increased compared with the values for the parental cells. The population doubling time for cultures of C+ cells grown in dishes was increased and C+ cells were unable to grow in suspension. Growth of C+ cells in ouabain-free medium resulted in revertant cells, C-, with biochemical and growth properties identical with HeLa. Karyotype analysis revealed that the ouabain-resistant phenotype of the C+ cells was associated with the presence of minute chromosomes which are absent in HeLa and C- cells. This suggests that a gene amplification event is responsible for the Na+,K+-ATPase increase in C+ cells.
Cell lines stably resistant to ouabain were isolated from an unstably resistant HeLa line after growth in nonselective medium. Stable resistant lines bound ouabain at levels 10-fold higher than did HeLa cells and at similar levels to those bound by the unstable C+ line previously described (J. F. Ash, R. M. Fineman, T. Kalka, M. Morgan, and B. Wire, J. Cell Biol. 99: 971-983). Expression and synthesis of the Na+, K+ -ATPase alpha chain showed a similar amplification over that for HeLa cells by Western blots and [35S]methionine pulse-labeling. In addition, a glycoprotein labeled with [3H]fucose and comigrating with the Na+, K+ -ATPase beta chain was eight- to ninefold amplified in stably resistant lines. Dot blots with a cDNA clone specific for Na+, K+ -ATPase alpha chain gene sequences confirmed the amplification of this gene. Karyotyping suggested that the amplification is associated with an expanded, abnormal banded region on the long (q) arm of one chromosome 17.
Cell lines stably resistant to ouabain were isolated from an unstably resistant HeLa line after growth in nonselective medium. Stable resistant lines bound ouabain at levels 10-fold higher than did HeLa cells and at similar levels to those bound by the unstable C+ line previously described (J. F. Ash, R. M. Fineman, T. Kalka, M. Morgan, and B. Wire, J. Cell Biol. 99: 971-983). Expression and synthesis of the Na+, K+ -ATPase alpha chain showed a similar amplification over that for HeLa cells by Western blots and [35S]methionine pulse-labeling. In addition, a glycoprotein labeled with [3H]fucose and comigrating with the Na+, K+ -ATPase beta chain was eight- to ninefold amplified in stably resistant lines. Dot blots with a cDNA clone specific for Na+, K+ -ATPase alpha chain gene sequences confirmed the amplification of this gene. Karyotyping suggested that the amplification is associated with an expanded, abnormal banded region on the long (q) arm of one chromosome 17.
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