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)

We have previously characterized mutant adenosine deaminase (ADA; adenosine aminohydrolase, EC 3.5.4.4) enzymes in seven children with partial ADA deficiency. Six children shared common origins, suggesting a common progenitor. However, we found evidence for multiple phenotypically different mutant enzymes. We hypothesized that many of the mutations would be at CpG dinucleotides, hot spots at which spontaneous deamination of 5-methylcytosine results in C to T or G to A transitions. Digestion of DNA from these children with Msp I and Taq I, enzymes recognizing CpG dinucleotides, identified three different mutations, each correlating with expression of a different mutant enzyme. Sequencing of cDNA clones and genomic DNA amplified by polymerase chain reaction confirmed the presence of C to T or G to A transitions at CpG dinucleotides (C226 to T, G446 to A, and C821 to T, resulting in Arg76 to Trp, Arg149 to Gln, and Pro274 to Leu). A "null" mutation, also found in two ADA-deficient severe combined immunodeficient children, was serendipitously detected as gain of a site for Msp I. Simultaneous loss of a site for Bal I defined the precise base substitution (T320 to C, Leu107 to Pro), confirmed by sequence analysis. To determine the true frequency of hot spot mutation in these children, consecutively ascertained through a newborn screening program, we sequenced cDNA from the remaining alleles. Two others were hot spot mutations (C631 to T and G643 to A, resulting in Arg211 to Cys and Ala215 to Thr), each again resulting in expression of a phenotypically different mutant enzyme. Only one additional mutation (previously identified by us) is not in a hot spot. These seven mutations account for all 14 chromosomes in these children. There is thus a very high frequency of hot spot mutations in partial ADA deficiency. Most of these children carry two different mutant alleles. We were able to correlate genotype and phenotype and to dissect the activity of individual mutant alleles.
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PMID:Hot spot mutations in adenosine deaminase deficiency. 216 47

8-Cl-cAMP and 8-NH2-cAMP induced MCF-7 cell death. The type(s) of cell death were studied in more detail and compared with the cell death type (apoptosis) induced by okadaic acid, an inhibitor of serine/threonine phosphatases. By morphological criteria dying cells showed loss of cell-cell interactions and microvilli, condensation of nuclear chromatin and segregation of cytoplasmic organelles. By in situ nick end-labelling, using digoxigenin-conjugated dUTP as probe, a large fraction of 8-Cl-cAMP, 8-NH2-cAMP and 8-Cl-adenosine-exposed cells stained positively in the advanced stages of death. In the early phase of chromatin condensation the cells stained negatively. Specific (internucleosomal) DNA fragmentation was not observed. The MCF-7 cell death induced by 8-Cl-cAMP and 8-NH2-cAMP was not mediated by activation of the cAMP kinase since more stable cAMP analogues (8-CPT-cAMP and N6-benzoyl-cAMP) or forskolin failed to induce death. Furthermore, 8-Cl-cAMP action was counteracted by adenosine deaminase and 3-isobutyl-1-methylxanthine, and mimicked by 8-Cl-adenosine, a major metabolite of 8-Cl-cAMP. It is concluded that 8-Cl- and 8-NH2-cAMP can induce morphological and biochemical effects resembling apoptotic cell death in MCF-7 cells through their conversion into potent cytotoxic metabolite(s).
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PMID:8-Chloro-cAMP induces apoptotic cell death in a human mammary carcinoma cell (MCF-7) line. 757 61

The leukocyte differentiation antigen CD26 identified as dipeptidyl peptidase IV.(EC 3.4.14.5), cleaves off N-terminal dipeptides from peptides when a proline or alanine is located at the penultimate position. Seminal plasma and especially prostasomes, prostate-derived organelles which occur freely in seminal plasma, contain high amounts of CD26/dipeptidyl peptidase IV and therefore are suitable sources for the purification of the protein. The use of adenosine deaminase (EC 3.5.4.4) affinity chromatography for its purification is described. CD26/dipeptidyl peptidase IV was purified from human seminal plasma and prostasomes by a two step procedure. Ion exchange chromatography on DEAE-Sepharose, followed by affinity chromatography on adenosine deaminase-Sepharose resulted in the pure, native protein with an overall yield ranging from 35 to 55%. The N-terminal sequence of the amphiphilic enzyme purified from human prostasomes was determined to be Met-Lys-Thr-Pro-Trp-Lys-Val-Leu. The preparation obtained was free of contaminating aminopeptidase activity and proved to be very stable (up to 1 month at 37 degrees C). The calf intestinal adenosine deaminase we used is commercially available and can be employed for the purification of human, bovine and rabbit CD26/dipeptidyl peptidase IV. High affinity binding of porcine dipeptidyl peptidase IV was not observed. The availability of a source with high specific activity and the introduction of adenosine deaminase affinity chromatography permits the rapid purification of milligram quantities of natural mammalian CD26/dipeptidyl peptidase IV.
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PMID:Use of immobilized adenosine deaminase (EC 3.5.4.4) for the rapid purification of native human CD26/dipeptidyl peptidase IV (EC 3.4.14.5). 857 85

T cells are important effector cells in natural antiviral and anticancer immunity. It is important to reveal the cellular and molecular requirements for T cell differentiation and effector functions. We explored the idea that the final outcome of antigen receptor-driven immune processes is at least partially determined by physiologically abundant small signaling molecules in extracellular environment of lymphocytes in different tissues. Extracellular purines (ATP and adenosine) and their (purinergic) receptors were studied as an example of such molecules. Studies of functional effects of extracellular ATP and adenosine in immunoregulation have evolved in studies of individual molecules of purinergic receptors and of phosphorylation of extracellular domains of functionally important proteins. ATP-gated membrane pore, p2x 7(formerly p2z receptor) and A2a adenosine receptors are found to be predominantly expressed in T cells. The Gs-protein coupled A2a receptors activate cAMP-dependent protein kinase which was shown to have dual role in regulation of T cells functions. The results of our recent studies of adenosine receptors indicate that A2a receptors on T cell surface may play immunosuppressive role in conditions which lead to accumulation of extracellular adenosine. These conditions include pharmacological intervention with widely used anti-inflammatory drugs (methotrexate and sulfasalazine) and extracellular environment near large solid tumors. Hypoxic conditions in such tumors are known to cause accumulation of extracellular adenosine, which, in turn, as we have shown, could inhibit incoming antitumor cytotoxic T-lymphocytes from destroying the tumor. Normal development and functions of immune cells require adenosine deaminase (ADA) activity. Absence or low levels of ADA in humans result in severe combined immunodeficiency (SCID), which is characterized by hypoplastic thymus, T lymphocyte depletion, and autoimmunity. ADA SCID is currently explained only by intracellular lymphotoxicity of accumulated adenosine. We propose that T cell depletion, immunodeficiency, and autoimmunity could also be due to extracellular adenosine-induced signaling, which inhibits the antigen receptor (TCR) signaling and therefore affects the TCR-driven positive and negative selection of thymocytes. This, in turn, may lead to changes in antigen receptor repertoires and to immunodeficiency, Such properties of adenosine receptors suggest an expanded understanding of pathogenesis of ADA SCID as being due to two independent (intracellular and extracellular) mechanisms of adenosine action. It was conclusively demonstrated that functionally important T cell surface proteins including T cell receptor- are constitutively Ser/Thr phosphorylated on their ectodomains. We identified the major ecto-protein kinase activity in T-lymphocytes as casein kinase II-like (CKII-like) protein kinase. Consensus phosphorylation sites for serine and threonine protein kinases were found to be strongly evolutionary conserved in both alfa and beta TCR chains constant region. We have shown that ecto- or releasable by T-cells protein phosphatase has properties of PP1 and PP2a class protein phosphatase. Such covalent modifications of ectodomains may change T cells cognate interactions by e.g. affecting TCR-multimolecular complex formation and antigen binding affinity. It is suggested that TCR ectodomain phosphorylation could serve as a potential mechanism for regulation of TCR-mediated T-lymphocytes response.
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PMID:Extracellular purines and their receptors in immunoregulation. Review of recent advances. 980 87

Previous reports from our laboratories showed that type IV collagen from anterior lens capsule (ALC) inhibited stimulated neutrophil function. This property was shown to reside in the region comprising residues 185-203 of the non-collagenous domain (NC1) of the alpha 3(IV) chain. We also reported that ALC-type IV collagen or the synthetic alpha 3(IV) 185-203 peptide, induced a rise in intracellular cAMP which persisted for up to 60 minutes. In the present work we extend our previous studies on signal transduction by alpha 3(IV) 185-203 and we provide new data showing the involvement of cAMP-dependent PKA and protein phosphatases. The data also show that the alpha 3(IV) peptide triggered a rise in intracellular calcium that was dependent on phospholipase C activation. Inhibitors of the Ca(2+)/calmodulin system suppressed both the alpha 3(IV) 185-203 peptide-induced cAMP increase and the inhibitory activity of the peptide on f-Met-Leu-Phe triggered O(2)(-) generation. When alpha 3(IV) 185-203 peptide-induced calcium mobilization was blocked by U-73122, an inhibitor of phospholipase C activation, or by BAPTA/AM, a chelator of intracellular calcium, the inhibitory effect of the peptide on PMA-triggered O(2)(-) production was also abolished. These findings provide evidence that signal transduction by the alpha 3(IV) peptide occurs via pathways which involve calcium. Indeed, the cAMP increase was shown to be mediated by adenosine and adenosine A2 receptors and required calcium elevation, since adenosine deaminase, theophilline, dimethylpropargylxanthine, trifluoperazine or autocamtide-2 related inhibitory peptide, suppressed the activity of the alpha 3(IV) peptide. The inhibitory effect of the peptide on f-Met-Leu-Phe-induced O(2)(-) generation was slightly affected by 1 microM KT5720 or H89, two inhibitors of cAMP-dependent PKA, but was completely suppressed by 10 nM calyculin A or 10 microM okadaic acid, two inhibitors of ser/thr phosphatases. These results suggest that Ser/Thr protein phosphatases and/or cAMP-dependent PKA are involved in signal transduction by the alpha 3(IV) 185-203 peptide and is consistent with the concept that adenosine receptor occupancy modulates neutrophil function.
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PMID:A peptide of the alpha 3(IV) chain of type IV collagen modulates stimulated neutrophil function via activation of cAMP-dependent protein kinase and Ser/Thr protein phosphatase. 1082 74

The multifunctional cell-surface protein dipeptidyl peptidase IV (DPPIV/CD26) is aberrantly expressed in many cancers and plays a key role in tumorigenesis and metastasis. Its diverse cellular roles include modulation of chemokine activity by cleaving dipeptides from the chemokine NH(2)-terminus, perturbation of extracellular nucleoside metabolism by binding the ecto-enzyme adenosine deaminase, and interaction with the extracellular matrix by binding proteins such as collagen and fibronectin. We have recently shown that DPPIV can be downregulated from the cell surface of HT-29 colorectal carcinoma cells by adenosine, which is a metabolite that becomes concentrated in the extracellular fluid of hypoxic solid tumors. Most of the known responses to adenosine are mediated through four different subtypes of G protein-coupled adenosine receptors: A(1), A(2A), A(2B), and A(3). We report here that adenosine downregulation of DPPIV from the surface of HT-29 cells occurs independently of these classic receptor subtypes, and is mediated by a novel cell-surface mechanism that induces an increase in protein tyrosine phosphatase activity. The increase in protein tyrosine phosphatase activity leads to a decrease in the tyrosine phosphorylation of ERK1/2 MAP kinase that in turn links to the decline in DPPIV mRNA and protein. The downregulation of DPPIV occurs independently of changes in the activities of protein kinases A or C, phosphatidylinositol 3-kinase, other serine/threonine phosphatases, or the p38 or JNK MAP kinases. This novel action of adenosine has implications for our ability to manipulate adenosine-dependent events within the solid tumor microenvironment.
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PMID:Adenosine downregulates DPPIV on HT-29 colon cancer cells by stimulating protein tyrosine phosphatase(s) and reducing ERK1/2 activity via a novel pathway. 1670 53

RNA editing is a process by which nascent RNA transcripts are covalently modified, thus enhancing the complexity of the transcriptome. The most common modifications are deaminations of adenosine to inosine at sites of complex RNA secondary structure, a process that is carried out by the adenosine deaminase acting on double-strand RNA (ADAR) family of RNA editases. Although much has been learned about the ADAR family members since their discovery, very little information on their post-transcriptional regulation has been reported. Similar to most proteins, the ADAR family members are post-translationally modified at multiple sites. We recently reported that members of the AKT kinase family directly phosphorylate ADAR1p110 and ADAR2 on a conserved threonine within the catalytic domain of the protein. Phosphorylation was observed to differentially inhibit the enzymatic activity of the ADAR proteins toward known RNA substrates. The direct downstream involvement of the AKT kinases in multiple major signaling pathways associated with cell survival, growth, glucose metabolism (insulin signaling), and differentiation is well established; thus, the AKT kinases represent a link between ADAR-dependent A-to-I editing and major signal transduction pathways that are necessary for cell maintenance and development.
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PMID:AKT-Dependent Phosphorylation of ADAR1p110 and ADAR2 Represents a New and Important Link Between Cell Signaling and RNA Editing. 3199 81