Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.4 (deaminase)
 5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of adenosine (ADO) on the recovery of cellular adenine nucleotides (AN) was evaluated in the cultured cells deprived of oxygen and substrates (ischemia) and in nonischemic cells (control). The primary cultured cells were obtained from microdissected rabbit proximal straight tubules. Ten-day-old cultured cells were made ischemic for 6 hr, and allowed to recover for 24 hr. At the end of ischemia, cells were incubated with ADO, theophylline (T), dipyridamole (D), coformycin (C) or combined agents for 3 hr. Total AN (TAN) were determined after 3 and 24 hr of recovery. The results, after 3 hr of incubation, suggest that in both control and ischemic cells, ADO is taken up by cultured cells and is preferentially converted to nucleotides. This effect is blocked by D, which inhibits ADO uptake, uninfluenced by C, which inhibits ADO deaminase and potentiated by T, which inhibits 5'-nucleotidase. After 24 hr of recovery, the beneficial effects of ADO alone or combined D, C, or T, on TAN were not seen in control cells. In contrast, in the ischemic cells, after 24 hr of recovery, ADO + T normalized ATP, ADP and TAN to the preischemic levels. T alone significantly increased ATP after 24 hr of recovery. To demonstrate further that the beneficial effect of T is due to inhibition of 5'-nucleotidase, cells were treated with adenosine alpha, beta-methylene diphosphate in the same manner as T. Combined ADO + adenosine alpha, beta-methylene diphosphate normalized ATP, ADP and TAN after 24 hr of recovery. This finding suggests that inhibition of 5'-nucleotidase improves postischemic AN.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Roles of adenosine and theophylline on the recovery of adenine nucleotides in postischemic cultured renal tubular cells. 203 18

N-Acylethanolamine phospholipids accumulate in rat brain during post-decapitative ischemia. Small amounts of these phospholipids consisting primarily of diacyl and alkenylacyl species can be detected within 15 min of ischemia and they increase linearly for 60 min. This ischemia-induced synthesis is more pronounced in developing rat brain (approx. 5.0 nmol/h per mumol lipid P) than in adult brain (0.4 nmol). Pulse labeling experiments with subcellular preparations of 10-day-old rat brain indicate a precursor-product relationship between ethanolamine phospholipids and their N-acyl analogs. N-Acylation of endogenous substrates occurs with both microsomes and mitochondria, exhibits a pH optimum of 10 and requires 1 mM Ca2+ for maximal (0.2 mM Ca2+ for half maximal) activity. Cell-free preparations of both developing and adult rat brain contain a phosphodiesterase which hydrolyzes N-acylphosphatidylethanolamine to phosphatidic acid and N-acylethanolamine. The latter is further hydrolyzed to fatty acid and ethanolamine by an amidohydrolase. [1-3H]Ethanolamine, injected intracerebrally or intraperitoneally into 13- and 18-day-old rats, is incorporated into brain ethanolamine phospholipids. Since small amounts of radioactivity are also associated with N-acylethanolamine phospholipids 5 and 24 h after injection of the substrate, it appears that these phospholipids may occur at a very low level as a natural lipid constituent of rat brain.
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PMID:N-acylethanolamine phospholipid metabolism in normal and ischemic rat brain. 373 Apr 13

Because adenine nucleotide catabolites may be important during postischemic lung reperfusion, we examined the pathway of adenosine monophosphate (AMP) degradation in ischemic lung tissue. Once the pattern of degradation is known, pharmacological interventions can be considered, offering new methods of reducing lung reperfusion injury. For this purpose we used the isolated rabbit lung. Rabbit lungs were flushed in situ with a modified Krebs Henseleit solution (60 ml/kg). The lungs were removed and stored deflated, immersed in saline solution at 37 degrees C. At regular times, biopsies were taken, and adenine nucleotides, nucleosides, and bases were measured in these biopsies using high performance liquid chromatography (HPLC). During lung ischemia, a very significant increase of inosine monophosphate (IMP) was found. Adenosine levels on the other hand did not increase. Hypoxanthine was the major end catabolite of ischemic lung tissue (constituting 92% of the nucleoside and purine base fraction at 4 hours ischemia). To further determine the pathway of AMP degradation, 400 mM of the adenosine deaminase inhibitor erythro-9-[2-hydroxy-3-nonyl]adenine (EHNA) was added to the lung flush solution. During ischemia, adenosine triphosphate (ATP) breakdown was unaltered but adenosine became the major catabolite (2.8 times the concentration of hypoxanthine at 4 hours ischemia). These data suggest that: 1) in rabbit lung tissue, dephosphorylation of AMP to adenosine is more important than deamination to IMP; 2) hypoxanthine is the major end catabolite of ischemic lung tissue. By inhibiting the enzyme deaminase, reduced hypoxanthine levels and increased adenosine levels were obtained. Pharmacological interventions are now available to interfere with the formation of adenine nucleosides and bases in ischemic lung tissue. The importance of adenine nucleotide catabolites to postischemic lung reperfusion injury is discussed.
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PMID:Pattern of AMP degradation in ischemic rabbit lung tissue. 773 34

N-Acetyl-aspartate (NAA) is almost exclusively localized in neurons in the mature brain and might be used as a neuronal marker. It has been reported that the NAA content in human brain is decreased in neurodegenerative diseases and in stroke. Since the NAA content can be determined by nuclear magnetic resonance techniques, it has potential as a diagnostic and prognostic marker. The objective of this study was to examine the change of NAA content and related substances following cerebral ischemia and compare the results to the damage of the tissue. We used rats to study the changes of NAA, N-acetyl-aspartyl-glutamate (NAAG), glutamate, and aspartate contents over a time course of 24 h in brain regions affected by either permanent middle cerebral artery occlusion (focal ischemia) or decapitation (global ischemia). The decreases of NAA and NAAG contents following global brain ischemia were linear over time but significant only after 4 and 2 h, respectively. After 24 h, the levels of NAA and NAAG were 24 and 44% of control values, respectively. The concentration of glutamate did not change, whereas the aspartate content increased at a rate comparable with the rate of decrease of NAA content. This is consistent with NAA being preferentially degraded by the enzyme amidohydrolase II in global ischemia. In focal ischemia, there was a rapid decline of NAA within the first 8 h of ischemia followed by a slower rate of reduction. The reductions of NAA and NAAG contents in focal ischemia were significant after 4 and 24 h, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in N-acetyl-aspartate content during focal and global brain ischemia of the rat. 779 Apr 13

Adenosine is now widely accepted as the major inhibitory neuromodulator in the central nervous system besides GABA. It has been suggested to be an endogenous neuroprotective metabolite. In situations of metabolic stress, e.g. ischemia adenosine decreases energy demand and increases energy supply. Of particular relevance in this context is its modulation of glutamate release. A shift of this adenosine-glutamate balance in favor of adenosine helps to restore function at the cellular, organ and organism level. Adenosine A1 receptor agonists and metabolic inhibitors, e.g. of transport, deaminase and xanthine oxidase have been demonstrated to be effective in different animal models of ischemia. Nimodipine, a L-type channel calcium antagonist currently in clinical trials for stroke and dementia syndromes, has now been shown to be a potent adenosine transport inhibitor in clinically relevant concentrations. Increase of adenosinergic neuromodulation may well be one of several future therapeutic strategies in neuroprotection.
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PMID:Adenosine--an endogenous neuroprotective metabolite and neuromodulator. 788 4

We recently demonstrated that conditioned medium (CM) from peritoneal macrophages or activated microglia triggers a predominantly apoptotic death in hippocampal neurons in culture. We tested the effects of propentofylline (ppf), an agent that is neuroprotective in focal ischemia and is also associated with reduced microglial antigen expression after insult. Ppf had no impact on the secretion of neurotoxin from microglia. However, ppf significantly attenuated the effects of macrophage and microglial conditioned medium on neurons. Ppf did not attenuate neuronal hypoxic injury but did reverse the exaggeration of hypoxic injury exerted by subsequent addition of macrophage CM. A1 and A2 adenosine receptor inhibitors and an inhibitor of adenosine uptake each mimicked the effect of ppf. Neither ATP nor a deaminase inhibitor blocked the effect of microglial CM. These findings may be relevant to the neuroprotective effects of ppf in ischemia and dementia.
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PMID:Propentofylline protects neurons in culture from death triggered by macrophage or microglial secretory products. 1021 75

We assessed a kallikrein-like amidase activity probably related to the kallikrein-kinin system, as well as the participation of leukocyte infiltration in renal ischemia and reperfusion. Male C57BL/KSJmdb mice were subjected to 20 or 60 min of ischemia and to different periods of reperfusion. A control group consisted of sham-operated mice, under similar conditions, except for ischemia induction. Kallikrein-like amidase activity, Evans blue extravasation and myeloperoxidase activity were measured in kidney homogenates, previously perfused with 0.9% NaCl. Plasma creatinine concentration increased only in the 60-min ischemic group. After 20 min of ischemia and 1 or 24 h of reperfusion, no change in kallikrein-like amidase activity or Evans blue extravasation was observed. In the mice subjected to 20 min of ischemia, edema was evident at 1 h of reperfusion, but kidney water content returned to basal levels after 24 h of reperfusion. In the 60-min ischemic group, kallikrein-like amidase activity and Evans blue extravasation showed a similar significant increase along reperfusion time. Kallikrein-like amidase activity increased from 4 nmol PNA mg protein-1 min-1 in the basal condition to 15 nmol PNA mg protein-1 min-1 at 10 h of reperfusion. For dye extravasation the concentration measured was near 200 microg of Evans blue/g dry tissue in the basal condition and 1750 microg of Evans blue/g dry tissue at 10 h of reperfusion. No variation could be detected in the control group. A significant increase from 5 to 40 units of DeltaAbs 655 nm g wet tissue-1 min-1 in the activity of the enzyme myeloperoxidase was observed in the 60-min ischemic group, when it was evaluated after 24 h of reperfusion. Histological analysis of the kidneys showed migration of polymorphonuclear leukocytes from the vascular bed to the interstitial tissue in the 60-min ischemic group after 24 h of reperfusion. We conclude that the duration of ischemia is critical for the development of damage during reperfusion and that the increase in renal cortex kallikrein-like amidase activity probably released from both the kidney and leukocytes may be responsible, at least in part, for the observed effects, probably through direct induction of increased vascular permeability.
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PMID:Kallikrein-like amidase activity in renal ischemia and reperfusion. 1077 92

Fructose-1,6-biphosphate (F16BP) attenuates ischemia/reperfusion (I/R) injury by inhibiting microvascular leukocyte adhesion or reducing neutrophil-derived oxygen free-radical production, but the causes of this action, the mechanisms in vivo, and the possible implication of nucleoside pool modifications are still controversial issues. We explored whether F16BP's inhibition of free-radical production and neutrophil recruitment is a result of its effect on adenosine (Ado) accumulation during intestinal I/R injury. The effects of F16BP administration were tested on the nucleotide/nucleoside metabolism at the end of the ischemic period and on microvascular neutrophil recruitment and free-radical production after reperfusion in vivo, in the presence or absence of Ado deaminase (ADA). Infusion of F16BP markedly increased endogenous Ado, decreased xanthine accumulation during the ischemic period, and inhibited neutrophil recruitment and subsequent neutrophil free-radical generation during reperfusion. Administration of ADA reversed these processes. The results provide strong evidence that F16BP prevents neutrophil accumulation and neutrophil free-radical generation during intestinal I/R by a key mechanism that modifies the nucleoside pool, leading to an endogenous accumulation of Ado and to a reduction of xanthine during ischemia.
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PMID:Fructose-1,6-biphosphate and nucleoside pool modifications prevent neutrophil accumulation in the reperfused intestine. 1252 64

Adenosine modulates the proliferation, survival and apoptosis of many different cell types, ranging from epithelial, endothelial and smooth muscle cells, to cells of the immune and neural lineages. In this review, we critically discuss the available in vitro and in vivo data which support a role for adenosine in both development-associated apoptosis, and in diseases characterized by either pathologically increased cell death (e.g., ischemia, trauma and aging-associated neurodegeneration) or abnormally reduced spontaneous apoptosis (e.g., cancer). Particular emphasis is given to the possible role of extracellular adenosine receptors, since these may represent novel and attractive molecular targets for the pharmacological modulation of apoptosis. In some instances, adenosine-induced cell death has been demonstrated to require entry of the nucleoside inside cells; however, in many other cases, activation of specific adenosine extracellular receptors has been demonstrated. Of the four G protein-coupled adenosine receptors so far identified, the A2A and the A3 receptors have been specifically implicated in modulation of cell death. For the A3 receptor, results obtained by exposing both cardiomyocytes and brain astrocytes to graded concentrations of selective agonists suggest induction of both cell protection and cell death. Such opposite effects, which likely depend on the degree of receptor activation, may have important therapeutic implications in the pharmacological modulation of cardiac and brain ischemia. For the A2A receptor, recent intriguing data suggest a specific role in immune cell death and immunosuppression, which may be relevant to both adenosine-deaminase-immunodeficiency syndrome (a pathology characterized by accumulation of adenosine to toxic levels) and in tumors where induction of apoptosis via activation of specific extracellular receptors may be desirable. Finally, preliminary data suggest that, in a similar way to the adenosine-deaminase-immunodeficiency syndrome, the abnormal accumulation of adenosine in degenerative muscular diseases may contribute to muscle cell death. Although the role of adenosine receptors in this effect still remains to be determined, these data suggest that adenosine-induced apoptosis may also represent a novel pathogenic pathway in muscular dystrophies.
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PMID:Adenosine-induced cell death: evidence for receptor-mediated signalling. 1463 82

We have purified and investigated the role of adenosine ecto-deaminase (ecto-ADA) in porcine brain synaptic membranes and found a low activity of ecto-ADA in synaptic preparations from the cerebral cortex, hippocampus, striatum and medulla oblongata in the presence of purine transport inhibitors (NBTI, dipyridamole and papaverine). The purification procedure with affinity chromatography on epoxy-Toyopearl gel/purine riboside column as a crucial step of purification allowed a 214-fold purification of synaptic ecto-ADA with a yield of 30%. Gel filtration chromatography revealed a molecular mass estimated at 42.4+/-3.9 kDa. The enzyme had a broad optimum pH and was not affected by mono- and divalent cations. Ecto-ADA revealed a low affinity to adenosine (Ado) and 2'-deoxyadenosine (2'-dAdo) (K(M)=286.30+/-40.38 microM and 287.14+/-46.50 microM, respectively). We compared the affinity of ecto-ADA to the substrates with the physiological and pathological concentrations of the extracellular Ado in brains that do not exceed a low micromolar range even during ischemia and hypoxia, and with the affinity of adenosine receptors to Ado not exceeding a low nanomolar (A(1) and A(2A) receptors) or low micromolar (A(2B) and A(3)) range. Taken together, our data suggest that the role of synaptic ecto-ADA in the regulation of the ecto-Ado level in the brain and in the termination of adenosine receptor signaling is questionable. The porcine brain synapses must have other mechanisms for the ecto-Ado removal from the synaptic cleft and synaptic ecto-ADA may also play an extra-enzymatic role in cell adhesion and non-enzymatic regulation of adenosine receptor activity.
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PMID:Adenosine ecto-deaminase (ecto-ADA) from porcine cerebral cortex synaptic membrane. 1749 24


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