EC:3.1.4.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine whether neurodegeneration in Alzheimer disease brain is associated with degradation of structural cell membrane molecules, we measured tissue levels of the major membrane phospholipids and their metabolites in three cortical areas from postmortem brains of Alzheimer disease patients and matched controls. Among phospholipids, there was a significant (P less than 0.05) decrease in phosphatidylcholine and phosphatidylethanolamine. There were significant (P less than 0.05) decreases in the initial phospholipid precursors choline and ethanolamine and increases in the phospholipid deacylation product glycerophosphocholine. The ratios of glycerophosphocholine to choline and glycerophosphoethanolamine to ethanolamine were significantly increased in all examined Alzheimer disease brain regions. The activity of the glycerophosphocholine-degrading enzyme glycerophosphocholine choline-phosphodiesterase was normal in Alzheimer disease brain. There was a near stoichiometric relationship between the decrease in phospholipids and the increase of phospholipid catabolites. These data are consistent with increased membrane phospholipid degradation in Alzheimer disease brain. Similar phospholipid abnormalities were not detected in brains of patients with Huntington disease, Parkinson disease, or Down syndrome. We conclude that the phospholipid abnormalities described here are not an epiphenomenon of neurodegeneration and that they may be specific for the pathomechanism of Alzheimer disease.
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PMID:Evidence for a membrane defect in Alzheimer disease brain. 131 47

The effects of acute treatment with 1,2,3,4-tetrahydro-9-aminoacridine (THA), a 4-aminopyridine derivative clinically effective in Alzheimer's disease, on beta-adrenoceptor-linked cyclic AMP accumulation have been investigated in cortical and hippocampal structures of young and middle-aged rats. In a first series of experiments, pretreatment with 2.5 mg/kg THA decreased basal cyclic AMP accumulation. When a phosphodiesterase inhibitor was added to the preparation, THA again decreased cyclic AMP levels in young rats, but failed to significantly modify cyclic AMP accumulation in middle-aged animals. Finally, in isoprenaline-stimulated conditions, acute treatment with tacrine was able to diminish cyclic AMP accumulation in every group of rats. It is suggested that the neurochemical action of THA in mammalian brain is more complex than earlier has been anticipated and may involve an action on beta-adrenoceptors.
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PMID:Acute effects of tetrahydroaminoacridine on beta-adrenoceptor-linked cyclic AMP accumulation in brain of young and middle-aged rats. 172 70

Previous reports have suggested that the physical properties of cell membranes and calcium homeostasis in both the central and peripheral nervous system are changed in Alzheimer's disease (AD). This study has examined the biophysical properties of erythrocyte and platelet membranes by measuring the fluorescence anisotropy of 1,6-diphenyl-1,3,5-hexatriene (DPH) and possible related changes in lipid peroxidation. In addition, we have studied calcium homeostasis by measuring thrombin-stimulated changes in intraplatelet free calcium and Ca2(+)-ATPase activity in AD and healthy age and sex-matched controls. Our results show that there was no significant difference in the fluorescence anisotropy of DPH in erythrocyte membranes isolated from the three groups. There was also no significant difference in lipid peroxidation levels in erythrocytes and plasma of AD patients compared to controls. However, there was a significant reduction in the fluorescence anisotropy of DPH in platelet membranes from AD patients, compared with healthy controls. Recent evident suggests that the increase in platelet membrane fluidity results from alterations in internal membranes. We measured the specific activities of enzyme markers associated with intracellular and plasma membranes in platelets from AD patients and healthy controls. There was a significant reduction in the specific activity of antimycin A-insensitive NADH-cytochrome-c reductase (a specific marker for smooth endoplasmic reticulum (SER)), in AD patients compared to controls, but no change in the specific activity of bis(p-nitrophenyl)phosphate phosphodiesterase (a specific marker for plasma membrane). We have also shown that SER mediated [Ca2+] homeostasis is possibly impaired in AD platelets, i.e., the percentage of thrombin-stimulated increase in intraplatelet [Ca2+] above basal levels was significantly higher in AD compared to matched controls and there were significant reductions in the specific activities of Ca2+/Mg2(+)-ATPase and Ca2(+)-ATPase (but not Mg2(+)-ATPase) in AD platelets. Finally electron microscopic analysis of platelets showed that there was a significant increase in the incidence of abnormal membranes in AD patients compared to controls. The ultrastructural abnormalities seem to consist of proliferation of a system of trabeculated cisternae bounded by SER. These results suggest that both SER structure and function might be defected in AD platelets, which could explain the fluidity changes observed here.
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PMID:Platelet and erythrocyte membrane changes in Alzheimer's disease. 214

The activity of 2',3'-cyclic nucleotide-3'-phosphodiesterase (CNPase) was determined as an index of myelin in the post-mortem brain samples of 16 patients with Alzheimer's disease (AD) and of 14 controls. The CNPase activity was mildly increased in the temporal, hippocampal and parietal cortex in AD subjects pointing to a relative sparing of myelin as compared to the neuron loss within cortex in AD. In the hippocampus the CNPase activity was decreased in AD patients indicating loss of myelin and thus myelinated axons in this area in AD.
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PMID:2',3'-cyclic nucleotide-3'-phosphodiesterase activity as an index of myelin in the post-mortem brains of patients with Alzheimer's disease. 255 48

Previous studies have demonstrated elevated brain levels of phosphomonoesters in early stages of Alzheimer's disease and elevations of phosphodiesters later in the disease. In addition, preliminary quantitative analyses of the phospholipids of Alzheimer's brain reveals either decreases in some phospholipids or elevations followed by decreases in others. This study quantitated the activities of selected enzymes involved in phospholipid and choline metabolism and demonstrated elevated glycerol-3-phosphorylcholine phosphodiesterase and decreased choline kinase activities in Alzheimer's disease brain. The former could provide an enzymatic mechanism for the increased phosphorylcholine found in Alzheimer's disease brain.
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PMID:Alterations of selected enzymes of phospholipid metabolism in Alzheimer's disease brain tissue as compared to non-Alzheimer's demented controls. 838 14

Cascading glial cell activation is believed to play an essential pathogenic role in the development of dementia. Reactive microglia may contribute to neuronal damage by the generation of free oxygen radicals and nitric oxide (NO), which forms the particularly aggressive peroxynitrites, and by the release of potentially neurotoxic cytokines such as tumor necrosis factor-alpha (TNF-alpha). The pathologically stimulated release of interleukin-1beta (IL-1beta) from microglial cells triggers secondary activation of astrocytes, which are forced to proliferate and to give up their differentiated state. As a consequence, physiologically required astrocyte functions may be impaired, such as uptake of glutamate and K+ from the extracellular space and release of neurotrophic factors. At the same time, production of inflammatory proteins which, for example, promote the formation of toxic beta-amyloids, is reported to be stimulated in reactive astrocytes. Because the complex molecular signaling that controls glial cell activation is only beginning to be elaborated, we attempted to elucidate the role that has been adopted during evolution by the endogenous cell modulator adenosine. This nucleoside exerts a homeostatic effect on reactive glial cell functions by a sophisticated control of the second messenger interplay, counteracting a pathologically induced dysbalance of the Ca2+- and cAMP-dependent signaling. A strengthening of the cAMP-dependent signaling chains was found to counteract the proliferation rate, the formation of free oxygen radicals, and the stimulated release of TNF-alpha and IL-1beta in cultivated microglia. It also helped proliferative astrocytes to regain their differentiated state and a mature ion channel pattern. The cAMP-linked homeostatic adenosine effects could be reinforced or mimicked by propentofylline, a pharmacon that raises the effective extracellular concentration of adenosine by inhibiting its cellular reuptake and increases the cellular cyclic nucleotide content by selective phosphodiesterase inhibition. We conclude that a pharmacologically reinforced homeostatic control of the pathologically altered Ca2+/cAMP crosstalk may prevent glia-related neuronal damage, providing a potential option for the treatment of dementia.
Alzheimer Dis Assoc Disord 1998
PMID:Interfering with the pathologic activation of microglial cells and astrocytes in dementia. 976 26

Propentofylline (Karsivan, Hoechst Roussel Vet) is a selective inhibitor of adenosine transport and phosphodiesterase. For several years it has been well established in the geriatric therapy of the dog improving hemodynamics in cerebral and peripheral compartments. In human medicine clinical development of this pharmaceutical has already entered an advanced stage for the long-term therapy of patients with Alzheimer's disease and vascular dementia. In the brains of senile dogs and in human patients suffering from Alzheimer's disease comparable neuropathological findings can be made. In senile dogs a distinctive correlation exists between the quantity of beta-amyloid accumulation and the degree of dementia. The extension of knowledge by clinical studies in humans and by experimental studies in animals may contribute to a deeper understanding of therapeutical approaches of cognitive dysfunction in the old dog. The xanthine derivative propentofylline [1-(5'-oxohexyl)-3-methyl-7-propylxanthine] directly interfers with the neurodegenerative process and reduces the extent of damage to brain structures. In experimental models of vascular dementia and/or Alzheimer's disease it improves cognitive functions, inhibits inflammatory processes as well as excessive activation of microglia, formation of free radicals, cytocines and abnormal amyloid precursor proteins (APP). It stimulates synthesis and liberation of nerve growth factor (NGF) and reduces ischemic damage to the brain. In clinical studies in humans it improved cognitive functions as well as global functions and the ability to cope with tasks of routine daily life in patients suffering from Alzheimer's disease and vascular dementia.
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PMID:[New pharmacologic aspects in the neurologic profile of propentofylline (Karsivan ad us. vet.)]. 993 90

The biological roles of nitric oxide (NO) and cGMP as inter- and intracellular messengers have been intensively investigated during the last decade. NO and cGMP both mediate physiological effects in the cardiovascular, endocrinological, and immunological systems as well as in central nervous system (CNS). In the CNS, activation of the N-methyl-D-aspartic acid (NMDA) type of glutamatergic receptor induces Ca(2+)-dependent NOS and NO release, which then activates soluble guanylate cyclase for the synthesis of cGMP. Both compounds appear to be important mediators in long-term potentiation and long-term depression, and thus may play important roles in the mechanisms of learning and memory. Aging and the accumulation of amyloid beta (A beta) peptides are important risk factors for the impairment of memory and development of dementia. In these studies, the mechanism of basal- and NMDA receptor-mediated cGMP formation in different parts of adult and aged brains was evaluated. The relative activity of the NO cascade was determined by assay of NOS and guanylate cyclase activities. In addition, the effect of the neurotoxic fragment 25-35 of A beta (A beta) peptide on basal and NMDA receptor-mediated NOS activity was investigated. The studies were carried out using slices of hippocampus, brain cortex, and cerebellum from 3- and 28-mo-old rats. Aging coincided with a decrease in the basal level of cGMP as a consequence of a more active degradation of cGMP by a phosphodiesterase in the aged brain as compared to the adult brain. Moreover, a loss of the NMDA receptor-stimulated enhancement of the cGMP level determined in the presence of cGMP-phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX) was observed in hippocampus and cerebellum of aged rats. However, this NMDA receptor response was preserved in aged brain cerebral cortex. A significant enhancement of the basal activity of NOS by about 175 and 160% in hippocampus and cerebellum, respectively, of aged brain may be involved in the alteration of the NMDA receptor response. The neurotoxic fragment of A beta, peptide 25-35, decreased significantly the NMDA receptor-mediated calcium, and calmodulim-dependent NO synthesis that may then be responsible for disturbances of the NO and cGMP signaling pathway. We concluded that cGMP-dependent signal transduction in hippocampus and cerebellum may become insufficient in senescent brain and may have functional consequences in disturbances of learning and memory processes. A beta peptide accumulated during brain aging and in Alzheimer disease may be an important factor in decreasing the NO-dependent signal transduction mediated by NMDA receptors.
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PMID:Aging modulates nitric oxide synthesis and cGMP levels in hippocampus and cerebellum. Effects of amyloid beta peptide. 1034 72

A pathological glia activation, stimulated by inflammatory proteins, beta-amyloid, or brain ischemia, is discussed as a common pathogenic factor for progressive nerve cell damage in vascular and Alzheimer dementia. A critical point seems to be reached, if the cytokine-controlled microglial upregulation causes a secondary activation of astrocytes which loose the negative feedback control, are forced to give up their physiological buffering function, and may add to neuronal damage by the release of nitric oxide (NO) and by promoting toxic beta-amyloid formation. A strengthening of the cyclic adenosine-5',3'-monophosphate (cAMP) signaling exerted a differential inhibition of the stimulatory cytokines tumor necrosis factor-alpha (TNF-alpha) and interleukin-1 beta (IL-1 beta) released from cultured rat microglia, but maintained the negative feedback signal IL-6; cAMP inhibited also the release of free oxygen radicals (OR) but not of NO. Reinforcement of the NO-induced cyclic guanosine monophosphate (cGMP) increase by blockade of the phosphodiesterase (PDE) subtype-5 with propentofylline counterbalanced the toxic NO action that causes with OR neuronal damage by peroxynitrate formation. In rat cultured astrocytes, a prolonged cAMP elevation favored cell differentiation, the expression of a mature ion channel patter, and an improvement of the extracellular glutamate uptake. Cyclic AMP signaling could be strengthened by PDE blockade and by raising extracellular adenosine, which stimulates A2 receptor-mediated cAMP synthesis. Via an A1 receptor-mediated effect, elevated adenosine was found to overcome a deficient intracellular calcium mobilization resulting from an impaired muscarinic signaling at pathologically decreased acetylcholine concentrations. We suggest that pharmaca, which elevate extracellular adenosine and/or block the degradation of cyclic nucleotides, may be used to counteract glia-related neuronal damage in dementing processes.
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PMID:Cascading glia reactions: a common pathomechanism and its differentiated control by cyclic nucleotide signaling. 1081 85

Apoptotic cell death has been implicated in Alzheimer's disease pathology and amyloid peptide induced neurotoxicity. We investigated the survival promoting effects of Propentofylline in two models of apoptotic cell death, nerve growth factor withdrawal and beta-amyloid mediated cell death in nerve growth factor differentiated rat pheochromocytoma cell lines. The increase in cell death as measured by lactate dehydrogenase release in response to nerve growth factor withdrawal was suppressed by nitric oxide donor S-nitroso-N-acetylpenicillamine (12.5 to 200 microM) and by 8-bromoguanosine-3',5'-cyclic monophosphate (1.25 to 10mM). Both agents decreased cell death mediated by 25 microM beta-amyloid, suggesting that the protective mechanism involves guanosine -3', 5'-cyclic monophosphate. In support of this hypothesis we can show that S-nitroso-N-acetylpenicillamine increases intracellular levels of guanosine -3',5'-cyclic monophosphate in pheochromocytoma cell lines 3 to 8 fold.Propentofylline, a phosphodiesterase inhibitor, has previously demonstrated neuroprotective activity in stroke models and is a potential candidate for therapeutic treatment in neurodegenerative diseases. The present findings support this claim by providing evidence that Propentofylline has protective effects in both nerve growth factor withdrawal and beta-amyloid mediated cell death. Lactate dehydrogenase release was significantly reduced and caspase-3-like activity was attenuated after cotreatment with Propentofylline. Furthermore Propentofylline dose responsively increases intracellular guanosine-3',5'-cyclic monophosphate levels over the same dose range that provided protection. We hypothesized that guanosine-3',5'-cyclic monophosphate is a key mediator of neuroprotection under these conditions.
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PMID:Guanosine 3',5'-cyclic monophosphate mediated inhibition of cell death induced by nerve growth factor withdrawal and beta-amyloid: protective effects of propentofylline. 1097 37

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