Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.4.4 (adenosine deaminase)
 5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rates of purine synthesis de novo, as measured by the incorporation of [14C]formate into newly synthesized purines, have been determined in cultured human fibroblasts derived from normal individuals and from patients deficient in adenosine deaminase, purine nucleoside phosphorylase, or hypoxanthine phosphoribosyltransferase, three consecutive enzymes of the purine salvage pathway. All four types of cell lines are capable of incorporating [14C]formate into purines at approximately the same rate when the assays are conducted in purine-free medium. The purine overproduction that is characteristic of a deficiency in either the transferase or the phosphorylase and that results from a block in purine reutilization can be demonstrated by the resistance of [14C]formate incorporation into purines to inhibition by hypoxanthine in the case of hypoxanthine phosphoribosyltransferase-deficient fibroblasts and by resistance to inhibition by inosine in the case of purine nucleoside phosphorylase-deficient fibroblasts.
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PMID:Purine metabolism in cultured human fibroblasts derived from patients deficient in hypoxanthine phosphoribosyltransferase, purine nucleoside phosphorylase, or adenosine deaminase. 9 41

1. The maximal activities of 5'-nucleotidase, adenosine kinase and adenosine deaminase together with the Km values for their respective substrates were measured in muscle, nervous tissue and liver from a large range of animals to provide information on the mechanism of control of adenosine concentration in the tissues. 2. Detailed evidence that the methods used were optimal for the extraction and assay of these enzymes has been deposited as Supplementary Publication SUP 50088 (16pages) at the British Library Lending Division, Boston Spa, Wetherby, West Yorkshire LS23 7BQ, U.K.,from whom copies can be obtained on the terms indicated in Biochem. J. (1978), 169, 5. This evidence includes the effects of pH and temperature on the activities of the enzymes. 3. In many tissues, the activities of 5'-nucleotidase were considerably higher than the sum of the activities of adenosine kinase and deaminase, which suggests that the activity of the nucleotidase must be markedly inhibited in vivo so that adenosine does not accumulate. In the tissues in which comparison is possible, the Km of the nucleotidase is higher than the AMP content of the tissue, and since some of the latter may be bound within the cell, the low concentration of substrate may, in part, be responsible for a low activity in vivo. 4. In most tissues and animals investigated, the values of the Km of adenosine kinase for adenosine are between one and two orders of magnitude lower than those for the deaminase. It is suggested that 5'-nucleotidase and adenosine kinase are simultaneously active so that a substrate cycle between AMP and adenosine is produced: the difference in Km values between kinase and deaminase indicates that, via the cycle, small changes in activity of kinase or nucleotidase produce large changes in adenosine concentration. 5. The activities of adenosine kinase or deaminase from vertebrate muscles are inversely correlated with the activities of phosphorylase in these muscles. Since the magnitude of the latter activities are indicative of the anaerobic nature of muscles, this negative correlation supports the hypothesis that an important role of adenosine is the regulation of blood flow in the aerobic muscles.
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PMID:Activities and some properties of 5'-nucleotidase, adenosine kinase and adenosine deaminase in tissues from vertebrates and invertebrates in relation to the control of the concentration and the physiological role of adenosine. 21 26

Mutations of the resistance to 2,6-diaminopurine (apt), which affect adenine phosphoribosyltransferase, fail to permit the growth of Escherichia coli pur mutants (purine auxotrophs which cannot make inosine monophosphate de novo) on the medium with 2,6-diaminopurine (DAP) as the sole source of purines. Addition of a small amount of hypoxantine, but not guanine, stimulated the growth of mutants of pur apt and pur apt+ genotypes on the medium with DAP. The utilization of DAP as purine source in the presence of hypoxantine is blocked by mutations guaC (guanosine monophosphate reductase), add (adenosine deaminase) and pup (purine necleoside phosphorylase), suggesting that DAP are utilized via purine nucleoside phosphorylase and adenosine deaminase. The drm mutation (that increases the level of pentose-1-phosphate in the cell) does not activate the utilization of DAP. The results indicate that a step, that limits the utilization of DAP as the sole source of purines by pur mutants of E. coli, is the deamination of DAP nucleoside.
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PMID:[Genetic control of Escherichia coli K-12 strains' assimilation of 2,6-diaminopurine as a purine source]. 33 31

Metabolic studies in HEp-2/MP,MIR cells (an adenosine kinase, hypoxanthine phosphoribosyltransferase negative mutant) indicated the presence of adenosine phosphorylase activity. This activity, unknown in established mammalian cell lines, resulted in the glycosidic cleavage of both adenosine and the antiviral drug arabinosyladenine. The activity was observed readily in the presence or absence of the adenosine deaminase inhibitor conformycin. Isopycnic separation of [3H] thymidine-labeled DNA species in CsCl density gradients resulted in the appearance of two distinct peaks. The heavier peak coincided with [14C]thymidine-labeled marker DNA of human origin, whereas the lighter peak was within the range associated with mycoplasmal DNA. Testing by commercial laboratories confirmed the presence of mycoplasma in HEp-2/MP,MIR cells. The contaminant was identified as Mycoplasma hyorhinis, a porcine mycoplasma. Following gamma-irradiation (3000 rads) to block cellular mitosis, the mucoplasma-contaminated HEp-2/MP,MIR cells were cocultivated with mycoplasma-free wild-type HEp-2 cells which did not exhibit adenosine phosphorylase activity. Following serial cocultivation in a medium designed to favor the survival of the wild-type cells, adenosine phosphorylase activity was found in the previously uninfected cells. Studies of this nature emphasize the need for investigators to carefully monitor their cell lines for mycoplasma.
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PMID:Adenosine phosphorylase activity in a mutant HEp-2 cell line contaminated with Mycoplasm hyorhinis. 40 62

Changes in hepatic purine enzyme activities of chicks fed diets containing 11%, 20%, 43% and 80% protein were correlated with protein intake and uric acid production in order to identify those enzymes with activities that parallel closely and may regulate uric acid production. Nucleoside phosphorylase, xanthine dehydrogenase, adenylosuccinate synthetase and adenosine kinase correlated positively with protein intake and uric acid production. Adenosine deaminase, 5'-nucleotidase (AMP), adenylate deaminase and adenine phosphoribosyltransferase correlated negatively with protein intake and uric acid production. Hypoxanthine phosphoribosyltransferase and 5'-nucleotidase (IMP) were unaffected by protein intake and did not correlate with uric acid production. The ratio of adenosine kinase to adenosine deaminase correlated positively with protein intake and uric acid production. The increased activities of adenylosuccinate synthetase and adenosine kinase, along with the reduced activities of 5'-nucleotidase and adenylate deaminase, in liver from chickens fed the 80% compared with the 11% protein diet demonstrate enhanced synthesis of adenine nucleotides. Since adenine nucleotides are essential cofactors for de novo purine synthesis, it is proposed that adenylosuccinate synthetase, adenosine kinase, 5'-nucleotidase and adenylate deaminase are key enzymes involved in the regulation of purine biosynthesis.
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PMID:Protein intake, hepatic purine enzyme levels and uric acid production in growing chicks. 61 42

1. Erythrocyte adenosine deaminase (EC 3.5.4.4) and purine nucleoside (inosine) phosphorylase (EC 2.4.1.1) were measured in 33 healthy controls and 43 primary gouty subjects. Adenosine deaminase activity in controls and gouty subjects was 0.373 plus or minus 0.108 and 0.457 plus or minus 0.140 A unit per 5-10-3 ml packed red cells per h, respectively. The difference was statistically significant (P less than 0.01). Mean adenosine deaminase: inosine phosphorylase (X10) in primary gout was also significantly higher than in controls (P less than 0.05). Inosine phosphorylase activities in the two groups were not significantly different. 2. When gouty patients were divided into two groups according to weight, normal weight gouty subjects had a higher adenosine deaminase activity and an increased ration of adenosine deaminase to inosine phosphorylase when compared with overweight patients (P less than 0.10). In two control groups divided according to the percentage overweight, such differences were not found. In the case of two gouty groups divided according to the existence of gouty heredity, tophi or renal impairment, adenosine deaminase and inosine phosphorylase activity in the two groups were not significantly different. The possible biochemical role of adenosine deaminase activity in primary gout is discussed.
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PMID:Erythrocyte adenosine deaminase and purine nucleoside phosphorylase activity in gout. 111 66

A human melanoma cell line called MeWo-LC1 exhibits a reduced ability to synthesize DNA when cultured in serum-supplemented medium containing 5'-deoxy-5'-methylthioadenosine (MeSAdo) in place of methionine. However, DNA replication in these cells occurs normally if the cells are cultured in serum-free medium containing transferrin, and MeSAdo in place of methionine. Although the presence of serum alters the cells' ability to respond to MeSAdo, it is not likely a consequence of any increased extracellular metabolism by MeSAdo-phosphorylase or adenosine deaminase activity, or due to the diminished uptake of the nucleoside. In the presence of methionine, MeSAdo appears to have a stronger cytostatic effect in medium containing serum than in serum-free medium supplemented with transferrin. MeWo-LC1 cells contain MeSAdo-phosphorylase activity as measured both in vivo and in vitro. The diminished replication of DNA in medium containing serum and MeSAdo is likely not due to the inhibition of polyamine synthesis by the nucleoside. These results indicate that serum (factors) can have an important influence upon the ability of MeSAdo to act as a methio-source for cells cultured in the absence of methionine.
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PMID:Serum has a differential effect on DNA replication in a human melanoma cell line cultured in methionine or 5'-deoxy-5'-methylthioadenosine. 201 99

Procedures are described for the isolation and identification of 1-methyladenine from the urine of an adult female with adenosine deaminase deficiency but no immunodeficiency. Evidence is provided indicating that much of the usual urinary excretion product, 1-methyladenosine, is converted to 1-methyladenine in this subject prior to excretion. Since the nucleoside phosphorylases present in normal individuals do not act on 1-methyladenosine, this suggests that a phosphorylase with unusual properties is present in this adenosine deaminase-deficient subject. A possible role for this phosphorylase in removal of deoxyadenosine in this subject is discussed.
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PMID:1-Methyladenine in urine of an adenosine deaminase-deficient adult without immunodeficiency. 259 38

We refer to the diagnostic possibilities in T-phenotype acute lymphoblastic leukemia. Immunophenotyping based on the proof of T-differentiation antigens by means of specific monoclonal antibodies and assessment of the E receptor, as well as examination of enzymatic activities of adenosine deaminase and purinenucleoside phosphorylase, were performed. Thirty patients with acute lymphoblastic leukemia of T-phenotype were examined. The monoclonal antibodies used demonstrated a heterogeneity in this type of leukemia reflecting the stage of thymocyte differentiation. The cells of some patients with T-phenotype acute lymphoblastic leukemia expressed simultaneously the common acute lymphoblastic leukemia antigen and Ia molecules. Examination of enzyme activities demonstrated a characteristic pattern with a significantly increased adenosine deaminase activity and simultaneously decreased purinenucleoside phosphorylase activity in T-phenotype acute lymphoblastic leukemia. The unfavorable course of disease in patients with T-phenotype acute lymphoblastic leukemia was demonstrated analyzing a group of 50 children with acute lymphoblastic leukemia. By means of statistical methods the cumulative rate of children surviving with acute lymphoblastic leukemia of common and T-phenotypes have been expressed. The results showed the need for a more effective treatment aimed at the T-phenotype of acute lymphoblastic leukemia.
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PMID:Diagnosis and analysis of the clinical course of T-phenotype acute lymphoblastic leukemia. 297 65

The effects of adenosine on glycogen metabolism have been studied in isolated fat-pads from epididymal adipose tissue. Adenosine caused a sustained short-term increase in the incorporation of [U-14C]glucose into glycogen, as well as a stimulation of both basal and insulin-induced [1-14C]glucose oxidation. Adenosine produced changes also in the activity of glycogen synthase and phosphorylase, these effects being apparent only when glucose was present in the incubation medium. The addition of adenosine prevented the depressed synthesis of glycogen observed in the presence of dibutyryl cyclic AMP. In the presence of adenosine deaminase, the stimulation by insulin of glycogen synthesis was markedly decreased. The results suggest that adenosine may have a regulatory role on glycogen synthesis by facilitating the glucose transport.
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PMID:Short-term stimulation by adenosine of basal and insulin-induced glycogen synthesis in rat adipose tissue. 300 88


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