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

Antisera against rat-liver S-adenosylhomocysteine hydrolase (SAH-hydrolase) and calf intestinal mucosal adenosine deaminase (ADA) were raised in rabbits and subsequently used to determine the distribution of the corresponding enzymes in rat-brain using the peroxidase-antiperoxidase immunohistochemical procedure. SAH-hydrolase antigenicity was prominent in the neocortex, hippocampal formation, cerebellum and olfactory tubercle. In the cerebellum, only those cells associated with the Purkinje layer possessed pronounced reactivity with anti-SAH hydrolase. The intense staining present could be correlated mainly with nuclei, the cytosol being stained less intensely. Weak ADA antigenicity was found throughout the brain, but strong antigenic reactivity was associated with neurones in the basal hypothalamus, superior colliculus and in nerve fibres in many regions. Many ADA antigenic neurones and fibres were seen in close proximity to blood vessels. The distribution of ADA antigenicity was also studied in cat and rabbit brain. In cat brain only general staining of tissue occurred with anti-ADA and no intensely stained regions comparable to those seen in rat brain were observed. Rabbit brain showed weak specifically stained neurones only in the superior colliculus. Enzyme assays were also performed to confirm immunohistochemical findings. There appears to be little in common between regions which stained intensely with anti-SAH hydrolase and anti-ADA respectively. The possible implications of these findings are discussed.
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PMID:Localization of S-adenosylhomocysteine hydrolase and adenosine deaminase immunoreactivities in rat brain. 351 60

Adenosine deaminase and adenosine deaminase complexing protein have been localized in rabbit brain. Brains fixed in paraformaldehyde or in Clarke's solution were blocked coronally. Blocks from brains fixed in paraformaldehyde were either frozen in liquid nitrogen or embedded in paraffin. Tissue fixed in Clarke's solution was embedded in paraffin. Sections from each block were stained by the peroxidase-antiperoxidase method for adenosine deaminase or complexing protein using affinity-purified goat antibodies. Adenosine deaminase and complexing protein did not co-localize. Adenosine deaminase was detected in oligodendroglia and in endothelial cells lining blood vessels, whereas complexing protein was concentrated in neurons. The subcellular location and appearance of the peroxidase reaction product associated with individual cells was also quite distinctive. The cell bodies of adenosine deaminase-positive oligodendroglia were filled with intense deposits of peroxidase reaction product. In contrast to oligodendroglia, the reaction product associated with most neurons stained for complexing protein was concentrated in granular-appearing cytoplasmic deposits. In some instances, these deposits were clustered about the nuclear membrane. Staining of neurons in the granular layer of cerebellum was an exception. Granule cells were lightly outlined by peroxidase reaction product. Cerebellar islands, also referred to as glomeruli, were stained an intense uniform brown. These results raise the possibility that oligodendroglia and blood vessel endothelia, through the action of adenosine deaminase, might play a role in controlling the concentration of extracellular adenosine in brain. They do not, however, support the suggestion that complexing protein aids in adenosine metabolism by positioning adenosine deaminase on the plasma membrane.
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PMID:Localization of adenosine deaminase and adenosine deaminase complexing protein in rabbit brain. 354 89

A 6-year-old boy with T-cell acute lymphoblastic leukaemia (ALL) in relapse was treated with the adenosine deaminase inhibitor, 2'-deoxycoformycin (DCF). Remarkably, his residual leukaemia underwent an abrupt phenotypic shift, coincident with a massive anti-leukaemic effect of DCF. Both at diagnosis and prior to therapy with DCF, blast cells had typical lymphoblastic morphology and T-cell characteristics (terminal transferase +, T-antigen +, Ia -, cALLa -, myeloperoxidase -, and high in adenosine deaminase content). After four courses of DCF by constant infusion, the blast cells were myeloid in appearance and reactivity to a variety of tests (terminal transferase -, myeloperoxidase +, Sudan black B +, esterase +, My-1 +). We hypothesize that DCF therapy created a selection pressure, blocking pathways of T-cell differentiation and proliferation, permitting the emergence of a newly dominant myeloid subclone of a multipotential leukaemic cell progenitor with the innate capacity for both T-lymphocytic and myeloid differentiation.
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PMID:Phenotypic conversion of acute leukaemia from T-lymphoblastic to myeloblastic induced by therapy with 2'-deoxycoformycin. 660 43

Peripheral blood or bone marrow of 24 patients with chronic myeloid leukemia (CML) were characterized for their surface membrane marker profiles using flow cytometry and fluorescence microscopy. Purine metabolism enzyme activities were compared with membrane immunophenotype and cytochemical stains. CML subtypes were correlated with the expression of surface membrane antigens detected by the monoclonal antibodies. On the basis of immunophenotyping we found the following characteristic marker profiles: In stable phase of CML (CML-SP)-CD15, CD11b, CDw65, CD13, in accelerated phase of CML (CML-AP)-CD15, CDw65, CD11b, CD13 and CD33, in myeloid blastic phase of CML(CML-BP-M)-CD13, CD33, HLA-DR, CD11b, CD15, CDw65, in myeloid and lymphoid (mixed) blastic phase of CML (CML-BP-M+L)-CD13, CD33, CD34, HLA-DR, CD11b, CD10 and in chronic myelomonocytic leukemia (CMML)-CD14, CDw65, CD11b, CD33 and HLA-DR. Analysis of purine metabolism enzyme activities showed that there was a correlation between the values of adenosine deaminase (ADA) and purine nucleoside phosphorylase (PNP) and various types of CML. ADA levels in CML-SP, CML-AP and CMML were comparable with those in normal cells. In CML-BP-M, which represents proliferation of less mature myeloid cells (similar to less mature AML subtypes), ADA activity increased and PNP activity decreased. ADA activity was significantly different between control group and CML-BP-M (p < 0.01), between CML-SP and CML-BP-M (p < 0.05). The values of PNP activity were the highest in stable phase of CML (125 pkat. 10(-6) cells) and the lowest (23 pkat.10(-6) cells) in CML-BP-M+L. PNP activity in the other groups corresponded to control values. High ADA/PNP ratio was found in CML-BP-M and CML-BP-M+L (0.7 and 2.0, respectively) in comparison to CML-SP (0.2). It follows from our results that ADA/PNP ratio enables to discriminate between stable and blast phases of CML (p < 0.01). The level of the cytochemical enzymes (CHAE, MPO, SBB, ANAE and 5' NT) varied and reflected the degree of cell differentiation and maturation. CHAE and MPO were characteristic enzymes for CML, ANBE for CMML and 5' NT for CML-BP-lymphoid.
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PMID:Chronic myeloid leukemia: correlation between purine metabolism enzyme activities and membrane immunophenotype. 761 76

We evaluated the age-related distribution of adenosine deaminase (ADA) and adenosine deaminase-complexing protein (CP) in rabbit kidney by immunohistochemical staining procedures. Paraffin- or resin-embedded tissue from rabbits < 1 week-4 years of age were stained by the peroxidase-anti-peroxidase (PAP) method for ADA and CP. With the exception of neonates, the qualitative staining pattern of each protein remained generally constant with age. In the cortex, distal tubules, blood vessels, histiocytes, and epithelial cells lining Bowman's capsule stained for ADA. Proximal tubules and glomeruli were positive for CP. In contrast to the segregated pattern in the cortex, staining for ADA and CP overlapped in the corticomedullary junction. ADA and CP co-localized on the brush border of tubule cells of the S3 segment. In the cytoplasm of these cells, staining for ADA was characterized by scattered punctuate deposits of peroxidase reaction product. In some instances these punctuate deposits also appeared to be positive for CP. In medulla, epithelial cells of the thin limb were positive for both ADA and CP, whereas papillary collecting ducts stained only for CP. These results document the age-related, tissue-specific expression and localization of ADA in renal tissue, features that probably reflect the crucial role played by the enzyme in adenosine/deoxyadenosine catabolism. In addition, colocalization of ADA and CP on the brush border of cells in the S3 segment of proximal tubules provides support for the hypothesis that one function of CP may be to position ADA on the plasma membrane of specific cell populations, further expanding the enzyme's utility in nucleoside metabolism.
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PMID:Subcellular distribution of adenosine deaminase and adenosine deaminase-complexing protein in rabbit kidney: implications for adenosine metabolism. 818 39

We hypothesized that adenosine, known to be release from inflammatory sites, could lessen the potentially damaging activity of neutrophils (PMN) primed by tumor necrosis factor-alpha (TNF alpha) at sites of infection. We investigated the effect of adenosine on PMN primed with cell-free medium from mononuclear leukocytes (MNL) that had been treated with lipopolysaccharide (LPS) yielding a conditioned medium rich in TNF alpha and on PMN primed with recombinant human TNF alpha (rhTNF alpha). LPS (10 ng/mL) minimally primed PMN, but LPS-MNL-conditioned medium increased PMN chemiluminescence in response to f-Met-Leu-Phe (fMLP) 1242% compared with unprimed PMN. LPS-MNL-conditioned medium contained adenosine (approximately 30 nM). Converting the adenosine in the LPS-MNL-conditioned medium to inosine with adenosine deaminase (ADA) or blocking adenosine binding to PMN with the adenosine receptor antagonist 1,3-dipropyl-8-(phenyl-p-acrylate)-xanthine (BW A1433U) resulted in a near doubling of chemiluminescence. The LPS-MNL-conditioned medium contained TNF alpha (836 pg/mL; approximately 1 U/mL). Recombinant human TNF alpha (1 U/mL) primed PMN for a 1033% increase in chemiluminescence. Added adenosine decreased rhTNF alpha-primed PMN chemiluminescence (IC50 approximately 100 nM), and adenosine (100 nM) decreased both superoxide and myeloperoxidase release from rhTNF alpha-primed fMLP-stimulated PMN. The activity of adenosine was counteracted by ADA and BW A1433U, and the modulating effect of adenosine was on the primed response rather than on priming per se. Thus, physiological concentrations of adenosine reduce the effects of recombinant human TNF alpha and native human TNF alpha (released from LPS-treated MNL) on PMN activity. Endogenous adenosine may preclude or minimize damage to infected tissue by damping the TNF alpha-primed PMN oxidative response.
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PMID:Adenosine modulation of tumor necrosis factor-alpha-induced neutrophil activation. 861 64

The role of AMP and adenosine was investigated in the radiosensitization of normal brain tissues by chlorpromazine. Their metabolism was evaluated by estimating the levels of 5'-nucleotidase and adenosine deaminase activity in the brains of rats treated with chlorpromazine alone or chlorpromazine and irradiation. The extent of lipid peroxidation, measured in terms of the lipid peroxidase enzyme formed, increased with chlorpromazine treatment and irradiation. Chlorpromazine treatment was found to decrease AMP and adenosine metabolism, as shown by a marked reduction in the level of 5'-nucleotidase and ADA activity which was accompanied by a marked curtailment in the DNA, RNA and protein contents of the brain. Chlorpromazine was also found to increase the radiation-induced activity of acid phosphatase, indicating its action on the lysosomal activity of the brain cells. In the present study a low dose of chlorpromazine, i.e. 17 mg/kg body weight, was found to be more effective than a high dose of 34 mg/kg. The results of this study suggest that chlorpromazine probably sensitizes normal brain tissues to radiation by inhibiting AMP and adenosine metabolism via a hydroxy-radical induced decrease in DNA, RNA and protein metabolism with a concomitant increase in lysosomal activity.
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PMID:Effect of chlorpromazine as a sensitizer of rat brain on radiation-induced AMP and adenosine metabolism. 862 92

Methylxanthines are best known as phosphodiesterase inhibitors that cause a rise in intracellular cAMP. One would expect the two methylxanthines, caffeine and pentoxifylline, to have similar actions on neutrophils (PMN). However, caffeine stimulated and pentoxifylline inhibited PMN oxidative activity. Micromolar concentrations of pentoxifylline decreased native and recombinant tumor necrosis factor-alpha (TNF alpha)-primed formyl met-leu-phe (fMLP)-stimulated PMN chemiluminescence, superoxide production and myeloperoxidase (MPO) release. In contrast, equal concentrations of caffeine increased chemiluminescence and MPO release with no effect on superoxide production. These activities of the methylxanthines were only observed in the presence of physiological concentrations of adenosine, and were abolished by the treatment of the PMN with adenosine deaminase. The activities of adenosine, pentoxifylline and caffeine on PMN activity could not be readily explained by changes in PMN [cAMP]. Thus for TNF alpha-primed PMN, pentoxifylline decreases PMN activity by enhancing the effect of adenosine on degranulation and superoxide production; whereas caffeine increases PMN activity by counteracting the effect of adenosine on degranulation.
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PMID:Methylxanthines with adenosine alter TNF alpha-primed PMN activation. 865 88

The interaction of platelets with neutrophil granulocytes is considered to play an important role in the inflammatory process, and the present study was focused on platelet-induced modulation of Fcgamma receptor-mediated functions in neutrophils. We found that phagocytosis and the respiratory burst (measured as luminol-enhanced chemiluminescence), triggered in neutrophils by immunoglobulin G (IgG)-opsonized yeast particles, were potentiated by platelets and that maximal enhancement was achieved at a physiological neutrophil/platelet ratio of about 1:50 to 1:100. Platelets both increased the intra- and extracellular generation of oxygen radicals as well as the release of myeloperoxidase from stimulated neutrophils. The presence of platelets also induced a cortical actin polymerization in neutrophils, which might explain the increased phagocytic capacity. Platelets appear to affect neutrophil function in a contact-independent manner that most likely involves ATP, indicated by the following: (1) platelet supernatants, but not fixed platelets, affected neutrophil function in the same way as viable platelets; (2) platelets raised the extracellular ATP level four- to fivefold; (3) exogenous ATP mimicked the effects of platelets on actin polymerization, phagocytosis, and the respiratory burst in neutrophils; (4) hydrolysis of extracellular ATP with apyrase or blocking of ATP receptors with suramin reversed the platelet-induced enhancement of neutrophil function. An increased accumulation of extracellular adenosine, induced by inhibiting endogenous adenosine deaminase or adding exogenous adenosine, reversed the effects of platelets. The platelet-induced potentiation of the respiratory burst was inhibited by the tyrosine kinase inhibitor genistein, suggesting that tyrosine phosphorylation is involved. However, platelets did not significantly affect the Fcgamma receptor-triggered calcium response in neutrophils. In conclusion, we show that platelets, through an ATP-dependent mechanism, potentiate IgG-mediated ingestion and production of oxygen metabolites in neutrophils.
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PMID:Platelets enhance Fc(gamma) receptor-mediated phagocytosis and respiratory burst in neutrophils: the role of purinergic modulation and actin polymerization. 869 24

Monophosphoryl lipid A (MLA), a derivative of the minimal substructure of lipopolysaccharide (lipid A) possesses immunomodulatory activity of the parent lipid A yet enjoys reduced toxicity. It has previously been reported that pretreatment with MLA reduces myocardial infarct size and stunning in dogs following ischemia and reperfusion. The aim of this study was to evaluate the ability of monophosphoryl lipid A (MLA) to preserve global cardiac function and peripheral hemodynamics in a rabbit model of prolonged regional ischemia (90 min), and reperfusion (6 h). An evaluation of potential mechanisms by which MLA may preserve cardiac function was also undertaken. Single dose pretreatment with MLA (35 micrograms/kg i.v.) 24 h prior to ischemia resulted in significant improvement in left ventricular developed pressure, dP/dt, rate-pressure product and mean arterial pressure during reperfusion (P < 0.05 v control). Although in this model of prolonged ischemia MLA pretreatment did not reduce infarct size (54.5 +/- 11.4% in control v 63.3 +/- 8.3% in MLA, P = N.S.), evaluation of myocardial adenylate and adenosine catabolite pools at the end of ischemia indicated a preservation of ATP and ADP and a decreased production of downstream adenosine catabolites including inosine, xanthine and uric acid. Adenosine kinase, but not 5'-nucleotidase (5'-NTase) or adenosine deaminase activity determined following reperfusion was 76% and 60% higher (P < 0.05) in non-risk and post-ischemic myocardium of MLA pretreated rabbits compared with controls. Although there was a trend toward lower tissue myeloperoxidase activity in post-ischemic myocardium from treated rabbits, the results were not significantly different from control animals. These results suggest that a 24-h pretreatment with MLA, without further treatment during ischemia or reperfusion was associated with: (1) preservation of global myocardial function during reperfusion; (2) preservation of myocardial high energy adenylates and reduced formation of adenosine catabolites during ischemia; (3) elevated myocardial adenosine kinase activity. Increased recycling of adenosine to phosphorylated nucleotides may result from MLA's affect on adenosine kinase, which could explain the drugs effect on adenylate and adenosine metabolite pools.
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PMID:Preservation of global cardiac function in the rabbit following protracted ischemia/reperfusion using monophosphoryl lipid A (MLA). 874 27


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