Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: CAS:6893-26-1 (glutamate)
 73,096 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Abnormally high postabsorptive venous plasma glutamate levels have been reported for several diseases that are associated with a loss of body cell mass including cancer, human/simian immunodeficiency virus infection, and amyotrophic lateral sclerosis. Studies on exchange rates in well-nourished cancer patients now show that high venous plasma glutamate levels may serve as a bona fide indicator for a decreased uptake of glutamate by the peripheral muscle tissue in the postabsorptive period and may be indicative for a precachectic state. High glutamate levels are also moderately correlated with a decreased uptake of glucose and ketone bodies. Relatively high venous glutamate levels have also been found in non-insulin-dependent diabetes mellitus and to some extent also in the cubital vein of normal elderly subjects, i.e., in conditions commonly associated with a decreased glucose tolerance and progressive loss of body cell mass.
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PMID:Elevated venous glutamate levels in (pre)catabolic conditions result at least partly from a decreased glutamate transport activity. 886 15

Recent studies have suggested that neuronal populations that contain glutamate receptors are vulnerable to damage mediated by the human immunodeficiency virus 1 (HIV-1). Somatostatin-immunoreactive neurons contain, among other elements, glutamate receptors, and might therefore be susceptible to HIV-mediated damage. In order to test this hypothesis, we compared patterns of somatostatin immunoreactivity in the cortex and subcortex of autopsied AIDS cases with and without HIV encephalitis (HIVE). Somatostatin immunoreactivity in the frontal cortex interneurons, hippocampal pyramidal and nonpyramidal cells, and globus pallidus was significantly reduced in HIVE. Radioimmunoassay demonstrated a comparable decrease in somatostatin levels in the neocortex of HIVE cases. The decrease in somatostatin immunoreactivity in the neocortex was inversely correlated with the severity of HIVE and global cognitive performance, but not with the extent of the astroglial reaction. These findings indicate that somatostatin-immunoreactive neurons in the cortex are susceptible to damage mediated by HIV and that deficient functioning of this neuronal population might contribute to the cognitive dysfunction observed in AIDS patients.
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PMID:Neurodegeneration of somatostatin-immunoreactive neurons in HIV encephalitis. 910 Jun 66

Feline immunodeficiency virus, like human immunodeficiency virus type 1, is a retrolentivirus causing neurological disease and immune suppression. Primary neurological complications, including human immunodeficiency virus encephalopathy and peripheral neuropathy, and neuropathological changes, including gliosis, neuronal injury and multinucleated giant cells, have been described for human immunodeficiency virus type 1 infection. Excitatory amino acids have been implicated as a basis for human immunodeficiency virus encephalopathy and the accompanying neuronal injury. Here, we test our hypothesis that feline immunodeficiency virus infection results in glial activation accompanied by enhanced glutamatergic activity, causing neuronal loss. Neurological signs observed in naturally and experimentally infected animals included ataxia, aggressivity and reduced motor activity. Neuropathological changes included gliosis, perivascular cuffing and neuronal dropout in the brains of both experimentally and naturally infected animals, but not in uninfected animals. Feline immunodeficiency virus antigen and genome were detected in the brains of all experimentally and naturally infected animals. Proton nuclear magnetic resonance spectroscopy revealed significantly increased glutamate levels in the feline immunodeficiency virus-infected animals. In contrast, glutamate decarboxylase levels in GABAergic neurons were reduced in feline immunodeficiency virus-infected animals. These findings provide direct in vivo evidence for enhanced glutamate levels in conjunction with neuronal loss, supporting the hypothesis of glutamate-mediated neurotoxicity as a major mechanism in the neuropathogenesis of retrolentiviral infections.
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PMID:Feline immunodeficiency virus causes increased glutamate levels and neuronal loss in brain. 913 Jul 96

NF-kappaB and activator protein 1 (AP-1) are dimeric transcription factors involved in transcriptional regulation in many cells, including neurons. We have examined their activity during mouse cerebellum development, a postnatal process starting just after birth and completed by the fourth postnatal (PN) week. The activity of these factors was analyzed by binding of nuclear extracts to a synthetic oligonucleotide representing the kappaB site of human immunodeficiency virus or the AP-1 site of the urokinase promoter. NF-kappaB activity was observed from 7 PN, was restricted to the developing cerebellum, and was not observed in the early postnatal neocortex and hippocampus. On the other hand, AP-1 activity was not found in cerebellum but was present in both neocortex and hippocampus. Moreover, a kappaB-driven transgene was found to be increasingly expressed in the cerebellum from 5 PN to 10 PN but not in the adult. The regulation of NF-kappaB activation in mouse cerebellum was analyzed by intraperitoneal injection of glutamate receptor antagonists to 9 PN mice, which abolished NF-kappaB-binding activity, suggesting an endogenous loop of glutamate receptor activation. Glutamate receptor agonists, on the other hand, induced NF-kappaB nuclear translocation in the cerebellum of 5 PN mice, which is a stage in which NF-kappaB is not yet endogenously activated. This effect was specific for NF-kappaB and not observed for AP-1. In adult mice, NF-kappaB activity was absent in the cerebellum and was not induced by intraperitoneal injection of glutamate receptor agonists. These data show that NF-kappaB is specifically activated during cerebellum development and indicate an important role of glutamate receptors in this process.
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PMID:Glutamate-dependent activation of NF-kappaB during mouse cerebellum development. 923 17

Cocaine can cause a variety of neuropsychiatric and neurobehavioral complications; however, it is uncertain whether cocaine causes persistent cerebral structural and neurochemical abnormalities in asymptomatic users. We studied 52 African-American men (26 human immunodeficiency virus-negative asymptomatic heavy cocaine users and 26 normal subjects). Ventricle-to-brain ratio (VBR) and white matter lesions (WML) were quantified on magnetic resonance imaging. N-acetyl-containing compounds (NA), total creatine, choline-containing compounds, myo-inositol, and glutamate + glutamine were measured with in vivo proton magnetic resonance spectroscopy, VBR and WML were not significantly different in the cocaine users compared to the normal controls. Elevated creatine (+7%; p = .05) and myo-inositol (+18%; p = .01) in the white matter were associated with cocaine use. NA, primarily a measure of N-acetyl aspartate and neuronal content, was normal. Normal NA suggest no neuronal loss or damage in the brain regions examined in these cocaine users. Therefore, we conclude that neurochemical abnormalities observed might result from alterations in nonneuronal brain tissue.
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PMID:Neurochemical alterations in asymptomatic abstinent cocaine users: a proton magnetic resonance spectroscopy study. 942 80

Feline immunodeficiency virus (FIV) is a lentivirus of domestic cats that causes a spectrum of diseases remarkably similar to AIDS in HIV-infected humans. As part of this spectrum, both HIV-1 and FIV induce neurologic disorders. Because astrocytes are essential in maintaining the homeostasis of the central nervous system, we analyzed FIV for the ability to infect feline astrocytes. Through immunocytochemistry and reverse transcriptase activity, it was demonstrated that two molecular clones of FIV (FIV-34TF10 and FIV-PPR) produce a chronic low level productive infection of feline astrocyte cultures. To investigate the consequences of this infection, selected astrocyte functions were examined. Infection with FIV-34TF10 significantly decreased the ability of astrocytes to scavenge extracellular glutamate (with a peak inhibition of 74%). The effects of the infection did not appear to be a result of toxicity but rather were more selective in nature because the glucose uptake function of the infected astrocyte cultures was not altered. Our data demonstrate that FIV productively infected, at a low level, feline astrocyte cultures, and as a consequence of this infection, an important astroglial function was altered. These findings suggest that a chronic low grade infection of astrocytes may impair the ability of these cells to maintain homeostasis of the central nervous system that, in turn, may contribute to a neurodegenerative disease process that is often associated with lentivirus infections.
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PMID:Effects of feline immunodeficiency virus on astrocyte glutamate uptake: implications for lentivirus-induced central nervous system diseases. 948 37

The human immunodeficiency virus type-1 envelope glycoprotein gp120 is shed from the virus and from infected cells and thus can diffuse and interact with a variety of central nervous system cells. Transgenic mice constitutively expressing glial fibrillary acidic protein-driven gp120 from brain astrocytes display neuronal and glial changes resembling abnormalities in human immunodeficiency virus type-1-infected human brains. To assess the neurophysiology of these transgenic mice and determine whether gp120 expression impairs synaptic plasticity, we examined CA1 population excitatory postsynaptic potentials in hippocampal slices from transgenic mice and from non-transgenic controls, using a double-blind protocol. Compared with slices from non-transgenic littermate controls, slices from gp120 transgenic mice showed four significant alterations: (i) increased mean slopes of normalized population excitatory postsynaptic potentials; (ii) larger paired-pulse facilitation after induction of long-term potentiation at 50 ms interpulse intervals; (iii) markedly elevated short-term potentiation after 10 and 20 shocks at 100 Hz; and (iv) a significant reduction in the magnitude of CA1 long-term potentiation. In slices from transgenic mice expressing Escherichia coli beta-galactosidase from the same promoter, paired-pulse facilitation and long-term potentiation were normal. These results indicate that brain slice preparations from gp120 transgenic mice can be used to assess pathophysiological effects of gp120 on neuronal networks. Because short-term potentiation involves presynaptic mechanisms, our results suggest that gp120 expression in these mice enhances either presynaptic glutamate release or postsynaptic glutamate receptor function, or both. These changes could lead to increased Ca2+ influx, thereby contributing to neuronal dysfunction and injury. As long-term potentiation is a cellular model of learning and memory, our results may be relevant to memory (cognitive) impairments seen in patients with AIDS.
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PMID:Transgenic mice with cerebral expression of human immunodeficiency virus type-1 coat protein gp120 show divergent changes in short- and long-term potentiation in CA1 hippocampus. 948 53

Human immunodeficiency virus (HIV)-1 neuropathogenesis can be divided into three important components: (i) virus entry into the nervous system; (ii) the role of viral proteins and/or cellular products in neural tissue damage; (iii) the mechanisms of neuronal injury/death. Both blood derived macrophages or trafficking HIV-1 infected T-lymphocytes have been implicated in viral entry to the central nervous system (CNS). The major cell type harboring productive HIV-1 infection in the nervous system is the perivascular macrophage/microglia. The HIV-1 infection of brain astrocytes, restricted to the expression of regulatory gene products, may cause astrocyte dysfunction and contribute to neuronal injury or to disruption of the blood-brain barrier (BBB). Studies of cerebrospinal fluid and postmortem tissues reveal chronic inflammation/immune activation in the nervous system during the later stages of HIV-1 infection associated with disruption of BBB integrity. Blood-brain barrier damage may underlie the white matter pallor described in HIV-1 infection and could result in further entry into the CNS of toxic viral or cellular products, or additional HIV-1 infected cells. The HIV infected and activated macrophages/microglia produce excessive amounts of pro-inflammatory cytokines, including tumor necrosis factor alpha, and platelet activating factor. These products are directly toxic to human neurons in vitro. The HIV-1 envelope glycoprotein, gp 120 may stimulate the release of toxic factors from brain macrophages. Blocking N-methyl-D-aspartate (NMDA; or AMPA) glutamate receptors can antagonize candidate toxins of both viral and cellular origin. It has been postulated that (weak) excitotoxicity leads to oxidative stress in neurons and ultimately to apoptosis. Neuronal apoptosis occurs in the brains of both children and adults with HIV-1 infection. This understanding of HIV neuropathogenesis implies that therapeutic strategies should include: (i) anti-retroviral medications to decrease systemic and CNS virus load, and possibly to prevent perinatal transmission of HIV; (ii) anti-inflammatory compounds to decrease the chronic immune activation in microglia and allow the restoration of BBB integrity; and (iii) neuroprotective compounds to reduce neuronal injury and apoptotic death.
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PMID:HIV neuropathogenesis and therapeutic strategies. 958 Dec 98

To determine the role of the Tat protein of the human immunodeficiency virus type 1 (HIV-1) in the pathogenesis of HIV-1 associated dementia, recombinant Tat was injected intraventricularly as a single or repeated dose into male Sprague-Dawley rats. Histopathological evaluation showed an initial infiltration of neutrophils one day after Tat injection, followed by macrophages and lymphocytes by 7 days. Tat-injected brains also exhibited astrocytosis, apoptotic cells, and ventricular enlargement 7 days following the last injection. Nuclear magnetic resonance spectroscopic analysis of tissue extracts of hippocampi from Tat-injected rats showed a decrease in the glutamate/g aminobutyric acid ratio. We conclude that the transient extracellular exposure of the central nervous system to Tat protein of HIV can cause a cascade of events leading to the influx of inflammatory cells, glial cell activation, and neurotoxicity.
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PMID:Intraventricular injection of human immunodeficiency virus type 1 (HIV-1) tat protein causes inflammation, gliosis, apoptosis, and ventricular enlargement. 963 Feb 36

Mice infected with the LP-BM5 leukemia retrovirus mixture develop a progressive immunodeficiency with associated behavioral, histological, and neurochemical alterations consistent with glutamatergic hyperactivation. To gain insight into the contribution of excitatory amino acids to the neurodegeneration observed in these mice, their concentrations were measured in the CSF and striatal microdialysates. Glutamate concentrations were significantly elevated in CSF but not plasma as early as 4 weeks postinoculation. Steady-state glutamate levels in striatal microdialysates were increased threefold and could be reduced 40% by application of L-alpha-aminoadipate, an inhibitor of microglial glutamate transport. Stimulation of infected mice with KCl/L-trans-2,4-pyrrolidine dicarboxylate further increased glutamate levels 170-270% above those evoked in control mice. Tetrodotoxin suppressed the depolarization-evoked increase in glutamate by 88% in control mice, but it had only negligible effects in 40% of infected mice. Analysis of glutamate transport and catabolism suggests that abnormal astrocytic function does not contribute to the increase in basal extracellular glutamate levels. These findings are the first direct evidence that infection with an immunodeficiency-inducing retrovirus leads to a chronic elevation of extracellular free glutamate levels in the brain, which contributes to the neurodegenerative and cognitive deficits observed in these mice.
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PMID:Extracellular glutamate levels are chronically elevated in the brains of LP-BM5-infected mice: a mechanism of retrovirus-induced encephalopathy. 979 33


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