Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:O95477 (
membrane-bound
)
29,236
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ecto-nucleoside-triphosphate diphosphohydrolase-6 (eNTPDase6(1), also known as
CD39L2
) cDNA was expressed in mammalian COS-1 cells and characterized using nucleotidase assays as well as size exclusion, anion exchange, and cation exchange chromatography. The deduced amino acid sequence of eNTPDase6 is more homologous with the soluble E-type ATPase, eNTPDase5, than other E-type ATPases, suggesting it may also be soluble. To test this possibility, both the cell membranes and the growth media from eNTPDase6-transfected COS-1 cells were assayed for nucleotidase activities. Activity was found in both the membranes and the media. Soluble eNTPDase6 preferentially exhibits nucleoside diphosphatase activity, which is dependent on the presence of divalent cations. Western blot analysis of eNTPDase6 treated with PNGase-F indicated both soluble and
membrane-bound
forms are glycosylated. However, unlike some
membrane-bound
ecto-nucleotidases, the eNTPDase6 activity was not specifically inhibited by deglycosylation with peptide N-glycosidase F. Soluble eNTPDase6 hydrolyzed nucleoside triphosphates poorly and nucleoside monophosphates not at all. Analysis of the relative rates of hydrolysis of nucleoside diphosphates (GDP = IDP > UDP > CDP >> ADP) suggests that soluble eNTPDase6 is a diphosphatase most likely not involved in regulation of ADP levels important for circulatory hemostasis.
...
PMID:Expression and characterization of soluble and membrane-bound human nucleoside triphosphate diphosphohydrolase 6 (CD39L2). 1094 93
E-NTPDases are extracellular enzymes that hydrolyze nucleotides. The human E-NTPDase gene family currently consists of five reported members (CD39, CD39L1,
CD39L2
, CD39L3, and CD39L4). Both
membrane-bound
and secreted family members have been predicted by encoded transmembrane and leader peptide motifs. In this report, we demonstrate that the human
CD39L2
gene is expressed predominantly in the heart. In situ hybridization results from heart indicate that the
CD39L2
message is expressed in muscle and capillary endothelial cells. We also show that the
CD39L2
gene encodes an extracellular E-NTPDase. Flow cytometric experiments show that transiently expressed
CD39L2
is present on the surface of COS-7 cells. Transfected cells also produce recombinant glycosylated protein in the medium, and this process can be blocked by brefeldin A, an inhibitor of the mammalian secretory pathway. The enzymology of
CD39L2
shows characteristic features of a typical E-NTPDase, but with a much higher degree of specificity for NDPs over NTPs as enzymatic substrates. The kinetics of the ADPase activity exhibit positive cooperativity. The predominance of
CD39L2
expression in the heart supports a functional role in regulating platelet activation and recruitment in this organ.
...
PMID:CD39L2, a gene encoding a human nucleoside diphosphatase, predominantly expressed in the heart. 1104 56
The ectonucleoside triphosphate diphosphohydrolases (NTPDases) control extracellular nucleotide concentrations, thereby modulating many important biological responses, including blood clotting and pain perception. NTPDases1-4 are oligomeric integral membrane proteins, whereas NTPDase5 (CD39L4) and NTPDase6 (
CD39L2
) are soluble monomeric enzymes, making them more amenable to thorough structural and functional analyses than the
membrane-bound
forms. Therefore, we report here the bacterial expression, refolding, purification, and biochemical characterization of the soluble portion of human NTPDase6. Consistent with the enzyme expressed in mammalian cells, this recombinant NTPDase6 efficiently hydrolyzes GDP, IDP, and UDP (specific activity of approximately 50000 micromol mg(-1) h(-1)), with slower hydrolysis of CDP, ITP, GTP, CTP, ADP, and UTP and virtually no hydrolysis of ATP. The K(m) for GDP (130 +/- 30 microM) is similar to that determined for the soluble rat NTPDase6 expressed in mammalian cells. The secondary structure of the refolded enzyme was determined by circular dichroism to be 33% alpha-helix, 18% beta-sheet, and 49% random coil, consistent with the secondary structure predicted from the amino acid sequence of soluble NTPDase6. Four of the five cysteine residues in the soluble NTPDase6 are highly conserved among all the NTPDases, while the fifth residue is not. Mutation of this nonconserved cysteine resulted in an enzyme very similar to wild type in its enzymology and secondary structure, indicating that this cysteine exists as a free sulfhydryl and is not essential for structure or function. The disulfide pairing of the other four cysteine residues was determined as Cys(249)-Cys(280) and Cys(340)-Cys(354) by HPLC and mass spectral analysis of tryptic peptides. Due to conservation of these cysteine residues, these two disulfide bonds are likely to exist in all NTPDases. A structural model for NTPDase6, incorporating these and other findings obtained with other NTPDases, is proposed.
...
PMID:Bacterial expression, characterization, and disulfide bond determination of soluble human NTPDase6 (CD39L2) nucleotidase: implications for structure and function. 1452 83
