UMLS:C0002395 - FACTA Search

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Query: UMLS:C0002395 (Alzheimer's disease)
110,584 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric oxide (NO) is an endogenous neuromodulator that may mediate neurotoxic effects of glutamate. NO-synthesizing neurons are, however, resistant to NO- and glutamate-induced neurotoxicity. We now show that NO synthase neurons are selectively spared in patients with Alzheimer's disease, even in a severely affected region of the brain such as the hippocampal formation.
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PMID:Relative sparing of nitric oxide synthase-containing neurons in the hippocampal formation in Alzheimer's disease. 128 71

Endogenous glutamate is thought to be a major neurotransmitter. After binding to a cell membrane receptor there can be a stimulation of what can be called the nitric oxide (NO)-mediated neurotransmission pathway (NO-MNP). The activity of the enzyme that produces NO from arginine, NO synthase, and the level of NO become elevated. NO has little activity within the cell in which it is produced, but it rapidly leaks out of that cell and produces effects in neighboring cells. The NO-MNP can be activated to release NO in endothelial cells which in turn acts on neighboring vascular smooth muscle cells to induce vasodilation. Therefore, we suggest that exogenous, ingested glutamate, like endogenous glutamate, can lead to the same stimulation of the NO-MNP in sensitive individuals which would then cause the symptoms of the Chinese restaurant syndrome and/or glutamate-induced asthma. Further, since ingested nitrite and related compounds can be metabolized to NO, NO may more directly cause the symptoms of 'hot dog headache'. In addition, it has been suggested that NO production can also be controlled in endothelial cells by fluid forces that stimulate pressure receptors. Therefore, elevations of NO and stimulation of the NO-MNP may occur due to sudden, local, alterations of blood pressure during pugilistic activities and play a role in the symptoms of pugilistic Alzheimer's disease. If these ideas are correct, then inhibitors of the NO-MNP and/or temporary reduction of the plasma level of arginine may be useful in preventing at least some of the symptoms of these disorders.
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PMID:A possible role for nitric oxide in glutamate (MSG)-induced Chinese restaurant syndrome, glutamate-induced asthma, 'hot-dog headache', pugilistic Alzheimer's disease, and other disorders. 138 Oct 38

Microglia (brain resident macrophages) have been found to be closely associated with beta amyloid containing plaques in brain tissue affected by Alzheimer disease (AD). To investigate whether beta amyloid peptide (beta AP) may activate microglia, the effects of synthetic beta AP (amino acids 1-40) and a subfragment (amino acids 25-35) on rat peritoneal macrophages were assessed using four different assays for activation. These peptides were compared with substance P, which has previously been shown to activate macrophages. Both beta amyloid peptides activated macrophages, as assessed by increased respiratory burst-associated oxygen consumption, by luminol-dependent chemiluminescence, and by aggregation. In addition, beta amyloid peptide (1-40) caused a significant increase in macrophage nitric oxide production, while subfragment (25-35) did not. Substance P caused significant activation as assessed by oxygen consumption and chemiluminescence, but not by aggregation or nitric oxide induction.
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PMID:Activation of macrophages by Alzheimer beta amyloid peptide. 751 Sep 64

In the absence of identification of either an endogenously or an exogenously derived dopaminergic neurotoxin, the most valid hypothesis currently envisaged for etiopathology of Parkinson's disease (PD) is selective oxidative stress (OS) in substantia nigra (SN). Although OS is not proven, a significant body of evidence from studies on animal and Parkinsonian brain neurochemistry supports it. This hypothesis is based on excessive formation of reactive oxygen species (O2 and OH.) and demise of systems involved with scavenging or preventing the formation of such radicals from H2O2, generated as a consequence of dopamine oxidation (autoxidation and deamination). Since MAO (monoamine oxidase A and B are the major H2O2 generating enzymes in the SN much attention has been paid to their selective inhibitors as symptomatic and neuroprotective agents in PD. Attention should also be given to radical scavengers (e.g. iron chelators, lipid peroxidative inhibitors and Vitamin E derivatives) as therapeutic neuroprotective agents in PD. This is considered valid since a significant elevation of iron is known to occur selectively in SN zone compacta and within the remaining melanized dopamine neurons of Parkinsonian brains. Although all the mechanism of iron induced oxygen free radical formation is not fully known there is no doubt that it participates with H2O2 (Fenton chemistry) to generate cytotoxic hydroxyl radical (OH.) and induce tissue OS and neurodegeneration in 6-hydroxydopamine model of PD. The dramatic proliferation of reactive amoeboid macrophages and microglia seen in SN of PD brains together with OS is highly compatible with an inflammatory process, similar to what has been observed in Alzheimer's disease and multiple sclerosis brains. This has led us to examine the ability of reactive macrophages to produce oxygen free radicals in response to nitric oxide (NO) production. The latter radical has been implicated in the excitotoxicity of glutaminergic neurons innervating the striatum and SN. Indeed we have now observed that in reactive macrophages NO acts as a signal transducer of O2 production which can synergize with dopamine oxidation.
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PMID:Selective MAO-A and B inhibitors, radical scavengers and nitric oxide synthase inhibitors in Parkinson's disease. 752 88

The cerebral microcirculation undergoes specific biochemical changes in Alzheimer's disease. In this study, we have compared the nitric oxide synthase (NOS) activity of brain microvessels isolated from Alzheimer and control brains. L-[3H]-citrulline, the stable co-product generated with nitric oxide (NO) from L-[3H]-arginine, was measured as an indicator of NOS activity. The results indicated a significant increase in NOS activity in microvessels isolated from Alzheimer brains. In addition, using antibodies to both the endothelial and inducible NOS isoforms, we demonstrated a significant increase in enzyme level in Alzheimer-derived vessels. Elevated vascular production of NO, a potentially neurotoxic mediator in the CNS, may contribute to the susceptibility of neurons to injury and cell death in Alzheimer's disease.
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PMID:Nitric oxide synthase activity is elevated in brain microvessels in Alzheimer's disease. 752 15

The direct neurotoxic action of the beta-amyloid protein, the major constituent of senile plaques, may represent the underlying cause of neuronal degeneration observed in Alzheimer's disease. The apoptotic-mediated neuronal death induced by beta-amyloid appears to reside in its ability to form Ca(2+)-permeable pores in neuronal membranes resulting in an excessive influx of Ca2+ and the induction of neurotoxic cascades. It is possible that during beta-amyloid exposure a Ca(2+)-mediated increase in free radical generation may exceed the defensive capacity of cells and thus lead to cell death. Consequently, in the present study we have investigated the effect of a panoply of antioxidants and inhibitors of free radical formation on the development of beta-amyloid neurotoxicity. Acute exposure of rat hippocampal neurons to "aged" beta-amyloid25-35 peptide (5-50 microM) induced a slow, concentration-dependent apoptotic neurotoxicity (25-85%) during a 6 day exposure. Co-incubation of cultures with beta-amyloid25-35 peptide (25 microM) and inhibitors of nitric oxide synthase and/or xanthine oxidase (NG-monomethyl-L-arginine [1 mM), N omega-nitro-L-arginine [1 mM], oxypurinol [100 microM], allopurinol [100 microM]), important mediators of nitric oxide, superoxide, and hydroxyl radical formation, did not attenuate beta-amyloid neurotoxicity. Similarly, a reduction in free radical generation by selective inhibition of phospholipase-A2 cyclooxygenase, and lipoxygenase activities with quinacrine (0.5 microM), indomethacin (50 microM), and nor-dihydroguaiaretic acid (0.5 microM), respectively, did not reduce the proclivity of beta-amyloid to induce cell death. Exposure of cultures to catalase (25 U/ml) and/or superoxide dismutase (10 U/ml) as well as the free radical scavengers vitamin E (100 microM), vitamin C (100 microM), glutathione (100 microM), L-cysteine (100 microM), N-acetyl-cysteine (100 microM), deferoxamine (5 microM), or haemoglobin (35 micrograms/ml) failed to attenuate the neurotoxic action of beta-amyloid. On the other hand, pre-treatment of cultures with subtoxic concentrations of beta-amyloid peptide significantly increased the vulnerability of neurons to H2O2 exposure and suggest that beta-amyloid peptide renders neurons more sensitive to free radical attack. However, a potential beta-amyloid-mediated increase in free radical formation is not a proximate cause of the neurotoxic mechanism of beta-amyloid in vitro.
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PMID:Inhibitors of free radical formation fail to attenuate direct beta-amyloid25-35 peptide-mediated neurotoxicity in rat hippocampal cultures. 753 47

Phosphoinositide-specific phospholipase C (PLC) is a key enzyme in signal transduction. It was previously demonstrated that an antibody to an isozyme of PLC, PLC-delta, produces intense staining of neurofibrillary tangles (NFT), the neurites surrounding senile plaque (SP) cores and neuropil threads in the brains of patients with Alzheimer's disease (AD). Although the etiology of neuronal degeneration in AD is still to be defined, excitotoxic glutamate might be a candidate. In the present study, an anti-PLC-delta antibody was used to examine the influence of glutamate on PLC-delta immunoreactivity in cultured rat cortical neurons. Exposure to glutamate caused the death of cultured cortical neurons and exhibited increased immunostaining with the anti-PLC-delta antibody. Subtoxic doses of glutamate also increased PLC-delta immunoreactivity in a dose-dependent manner. Both glutamate-induced neuronal degeneration and the increases in PLC-delta immunoreactivity were prevented by removal of extracellular Ca2+ or the application of an N-methyl-D-aspartate (NMDA) receptor antagonist, MK-801. The glutamate-induced increase in PLC-delta immunoreactivity was also prevented by N omega-nitro-L-arginine, a nitric oxide (NO) synthase inhibitor. These results suggest that NO formation secondary to Ca2+ influx by NMDA receptor activation leads to similar modifications of PLC-delta to those seen in AD.
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PMID:Glutamate-induced antigenic changes of phospholipase C-delta in cultured cortical neurons. 756 35

We previously demonstrated that secreted forms of the Alzheimer's beta-amyloid precursor protein (sAPP) elevate cyclic GMP (cGMP) in primary neuronal cultures and that this effect is responsible for the modulation of neuronal calcium homoeostasis by sAPP. We have investigated further the mechanism by which sAPP elevates cGMP. Inhibition of the formation of nitric oxide or carbon monoxide did not affect the ability of sAPP to lower rapidly intraneuronal calcium levels or elevate cGMP, suggesting that sAPP does not activate a soluble (cytosolic) guanylate cyclase. A dose-dependent stimulation of cGMP formation by sAPP was observed in brain membrane preparations. The stimulation was also dependent on the presence of ATP. These data suggest that sAPP activates a membrane-associated guanylate cyclase, perhaps similar to those present in the receptors for the natriuretic peptides and sperm motility factors.
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PMID:The secreted form of the Alzheimer's beta-amyloid precursor protein stimulates a membrane-associated guanylate cyclase. 757 79

N-methyl-D-aspartate receptors, found throughout the mammalian brain, are a component of the major excitatory transmitter system. Strong evidence exists that N-methyl-D-aspartate receptors, by promoting excessive entry of Ca2+ into neurons, play a role in neuronal damage that follows head injury, strokes, and epileptic seizures, and is associated with degenerative diseases such as Alzheimer's disease. Huntington's disease, Parkinson's disease, and amyotrophic lateral sclerosis. We have investigated whether N-methyl-D-aspartate receptors exist in peripheral neurons, and, if so, whether their activation may result in tissue injury. We report that N-methyl-D-aspartate receptors exist in the lung, that their activation triggers acute injury, and that, as in toxicity to central neurons, this injury is associated with stimulation of nitric oxide synthesis, and can be attenuated by inhibition of this synthesis. Finally, vasoactive intestinal peptide, which protects the lung and heart against oxidant injury and promotes neuronal survival and differentiation also prevented N-methyl-D-aspartate lung injury, apparently by inhibiting a key neurotoxic action of nitric oxide, but not its production. The findings suggest that N-methyl-D-aspartate receptors exist in the peripheral nervous system and that activation of these receptors, resulting in damage to peripheral neurons, may be a novel mechanism of lung and other organ injury.
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PMID:N-methyl-D-aspartate receptors outside the central nervous system: activation causes acute lung injury that is mediated by nitric oxide synthesis and prevented by vasoactive intestinal peptide. 761 71

Particulate and soluble guanylyl cyclase activities were studied in postmortem temporal cortex from a series of Alzheimer's disease patients and matched control subjects. Particulate guanylyl cyclase activity was not significantly different between groups. In contrast, the Vmax values for basal and sodium nitroprusside-stimulated soluble guanylyl cyclase activities were approximately 50% lower in the Alzheimer's disease cases, compared to controls. This difference between groups was statistically significant for sodium nitroprusside-stimulated, but not for the basal, enzyme activities. These results provide the first evidence for a loss of nitric oxide responsive guanylyl cyclase activity in Alzheimer's disease brain.
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PMID:Reduced nitric oxide responsive soluble guanylyl cyclase activity in the superior temporal cortex of patients with Alzheimer's disease. 761 1

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