UMLS:C0036341 - FACTA Search

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Query: UMLS:C0036341 (schizophrenia)
60,220 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The glutamate-ergic hypothesis of schizophrenia pathogenesis has been substantially expanded due to recent data on changes in glutamate metabolizing enzymes (GME) in the brain of patients with schizophrenia. Significant changes in the amounts of glutamate synthetase (GS), glutamate synthetase-like protein (GSLP), and glutamate dehydrogenase (GDH) have been found. Alterations in the cerebral metabolism of glutamate (together with disturbances in glutamate receptors and transporters) apparently play an important role in the pathogenesis of schizophrenia. Glutamate dysmetabolism has been shown to be of systemic nature, i.e. the amounts of GME (GDH and GSLP) are elevated in platelets of patients with chronic schizophrenia, and these enzymes may be vital markers of glutamate system status. The amounts of GDH and GSLP were monitored in platelets of chronic patients during treatment with olanzapine, an atypical neuroleptic modulating glutamate concentration in the brain and blood of patients. GSLP amount can serve as a predictor of the duration of treatment to achieve a positive outcome. Further studies of GME in blood may result in elaboration of prognostically valuable biological tests not only for schizophrenia treatments, but also for other mental and nervous system diseases in which the glutamate system is substantially implicated.
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PMID:[Glutamate dysmetabolism in patients with schizophrenia]. 1750 Feb 10

Glutamate is a major excitatory neurotransmitter in central nervous system (CNS) acting through ionotropic and G-protein coupled metabotropic glutamate receptors. Metabotropic glutamate receptor 5 (mGluR5), a subtype in the group I mGluRs, presents in high density in many brain regions (hippocampus, cortex and olfactory system). Stimulation of mGluR5 leads to the release of calcium from intracellular supplies and protein kinase C activation. Excessive activation of mGluR5 has been associated with psychiatric, neurological and neurodegenerative diseases, including Parkinson's disease, anxiety, depression, schizophrenia, pain, epilepsy, focal and global ischemia diseases. 2-methyl-6-(phenylethynyl)pyridine (MPEP) and 2-methyl-4-(pyridin-3-ylethynyl)thiazole (MTEP) are the first generation of non-competitive mGluR5 antagonists with potent, selective and systemically active properties. They have therapeutic functions in varied diseases. Investigation of mGluR5 physiological functions under pathologic conditions in patients will be critically important in mGluR5 antagonist's therapy using noninvasive positron emission tomography (PET) imaging technique. There are eleven mGluR5 imaging PET tracers have been tested in animal studies. This article highlights efforts on the design and development of novel PET tracers for mGluR5 in vivo imaging.
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PMID:Recent developments of the PET imaging agents for metabotropic glutamate receptor subtype 5. 1797 88

Abnormal glutamate neurotransmission has been implicated in the pathophysiology of schizophrenia. In the present study we investigated two potential neuronal glutamatergic markers, the Excitatory Amino Acid Transporter 3 (EAAT3) and the Vesicular Glutamate Transporter 1 (VGluT1), in post-mortem striatal tissue from control subjects and from subjects with schizophrenia (n = 15 per group). We also investigated the possible influence of chronic antipsychotic administration (typical and atypical) on striatal VGluT1 expression in the rat brain. We found deficits in EAAT3 in all striatal regions examined in schizophrenia when compared to controls. Following correction for confounding factors (post-mortem interval), these deficits only remained significant in the caudate nucleus (p = 0.019). We also found significant deficits in VGluT1 in the caudate nucleus (p = 0.009) in schizophrenia. There were no significant differences in VGluT1 in the striatum of antipsychotic treated rats when compared to their vehicle treated controls. The data provides additional evidence for a glutamatergic synaptic pathology in the caudate nucleus in schizophrenia and may reflect a loss of glutamatergic cortico-striatal pathways. The absence of an effect of antipsychotic administration on VGluT1 indicates that the deficits in schizophrenia are unlikely to be a consequence of pharmacotherapy and thus likely to be a correlate of the disease process.
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PMID:Deficits of neuronal glutamatergic markers in the caudate nucleus in schizophrenia. 1798 4

Glutamate disruption is thought to have a major role in schizophrenia brain processes, possibly involving NMDA hypofunction. The metabotropic glutamate receptors are distributed in brain regions related to schizophrenia and seem to affect glutamate release in a moderate way. Compounds modulating these receptors are being investigated in animal models of schizophrenia, in an attempt to discover new antipsychotics. This article reviews the current research data regarding the role of these receptors in schizophrenia animal models. It was found that more research was done on Group I and II metabotropic receptors while investigation of group III receptors is still trailing behind. Accumulating evidence shows that mGluR5 antagonists by themselves do not necessarily disrupt pre-pulse inhibition (PPI), but can exacerbate disruption of PPI caused by MK-801 and PCP, while positive modulation of this receptor has beneficial effects on these models of psychosis. Group II agonists are also showing beneficial effects in animal models. It seems that metabotropic glutamate receptor modulators could be developed into a novel treatment of schizophrenia by altering glutamate release, thus overcoming the putative NMDA hypofunction. Although the implications from these pre-clinical studies to human schizophrenia patients are premature, the data obtained with some compounds point to promising results for drug development. More studies, with agents active at other mGluRs in animal models and schizophrenia patients as well as with human subjects are needed in order to clarify the role of the metabotropic glutamate receptors in the pathophysiology and pharmacotherapy of schizophrenia.
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PMID:The possible involvement of metabotropic glutamate receptors in schizophrenia. 1806 47

Glutamate is the major excitatory neurotransmitter in the brain. Amongst ionotropic receptors responding to glutamate, the AMPA subtype has been considered as essential for the fast excitatory neurotransmission in the central nervous system and the expression and maintenance of long-term potentiation. As glutamate is known to be involved in many neurological and psychiatric disorders, AMPA receptors seem to represent interesting targets to develop therapeutic drugs. Hence, the enhancement of AMPA signals is an approach currently investigated for the management of Alzheimer's disease, schizophrenia or mood disorders. In particular, many efforts are being conducted in the development of AMPA positive allosteric modulators ("potentiators"), which alter the rate of receptor desensitization. The major chemical families developed as AMPA potentiators are aniracetam derivatives, cyclothiazide derivatives and biarylpropylsulfonamides derivatives.
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PMID:In search of novel AMPA potentiators. 1822 Dec 5

Glutamate, the major excitatory neurotransmitter, is critical for normal brain development and function. Both extremes of glutamate receptor activity are detrimental for the brain. Glutamate's role in excitotoxicity has driven the search for receptor antagonists as neuroprotective agents, most of which have failed to achieve clinical, i.e. efficacious and safe, neuroprotection. High selectivity and potency provide potential explanations for this failure. For example, targeting individual glutamate receptor subtypes leaves other pathways of glutamatergic excitotoxicity intact. Furthermore, potent depression of glutamate receptor activity causes clinical side effects, such as the symptoms of schizophrenia produced by NMDA receptor antagonists. To produce efficacious neuroprotection devoid of significant side effects, it may be necessary to normalize the function of all components of the glutamatergic system, instead of blocking a single type of glutamate receptors. Halogenated derivatives of aromatic amino acids modulate glutamatergic activity via multiple pre- and postsynaptic actions with moderate efficacy. In addition, these compounds may trap hydroxyl radicals and facilitate hydroxyl radical-impaired glutamate uptake. Their balanced polyvalent action may overcome the limitations of previously tested glutamatergic agents and provide a basis for their use in the treatment of neurological and neuropsychiatric disorders. The properties of this class of compounds and relevant patents are reviewed in this article.
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PMID:Halogenated derivatives of aromatic amino acids exhibit balanced antiglutamatergic actions: potential applications for the treatment of neurological and neuropsychiatric disorders. 1822 Dec 8

Glutamate was quantified by proton magnetic resonance spectroscopy ((1)H-MRS) in the medial frontal lobes of 15 adult siblings of individuals with schizophrenia (HR) and 14 healthy volunteers (HV), all of whom also completed a Continuous Performance Test (CPT). Subjects were free of psychopathology but the HR group showed greater variability in glutamate levels. After median stratification, the high glutamate group contained a larger proportion of HR than HV subjects and scored lower on the CPT. Elevated glutamate may relate to poor sustained attention and elevated risk of schizophrenia, suggesting a potential role for glutamate in an endophenotype for schizophrenia.
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PMID:Elevated 3T proton MRS glutamate levels associated with poor Continuous Performance Test (CPT-0X) scores and genetic risk for schizophrenia. 1824 60

Glutamate is a major neurotransmitter in the central nervous system, and abnormal glutamate neurotransmission has been implicated in many neurological disorders, including schizophrenia, Alzheimer's disease, Parkinson's disease, addiction, anxiety, depression, epilepsy, and pain. Metabotropic glutamate receptors (mGluRs) activate intracellular signaling cascades in a G protein-dependent manner, which offer the opportunity for developing drugs that regulate glutamate neurotransmission in a functionally selective manner. In the present study, we further characterize the human mGluR2 (hmGluR2) potentiator binding site by showing that the substitution of the three amino acids found to be required for hmGluR2 potentiation, specifically Ser(688), Gly(689), and Asn(735), with the homologous hmGluR3 amino acids, inactivates the positive allosteric modulator activity of several structurally unique mGluR2 potentiators. Based on the characterization of the hmGluR2 potentiator binding site, we developed a novel scintillation proximity assay that was able to discriminate between compounds that were hmGluR2-specific potentiators, and those that were active on both hmGluR2 and hmGluR3. In addition, we substituted Ser(688), Gly(689), and Asn(735) into hmGluR3 and created an active hmGluR2 allosteric modulation site on the hmGluR3 receptor.
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PMID:Transposition of three amino acids transforms the human metabotropic glutamate receptor (mGluR)-3-positive allosteric modulation site to mGluR2, and additional characterization of the mGluR2-positive allosteric modulation site. 1843 Aug 63

Glutamate antagonists such as topiramate have been proposed based on the glutamate hypothesis of schizophrenia because its properties encourage its exploration and possible development as a medication for the treatment of schizophrenia. A randomised, double-blind, placebo-controlled clinical trial was performed on 18- to 45-year-old patients with schizophrenia. Baseline information including vital signs, height, weight, smoking status, demographic characteristics, (past) psychiatric history, medication history and medication-related adverse effects were collected. Patients were randomly assigned to a topiramate or placebo group. Efficacy of medication was measured by administering Positive and Negative Syndrome Scale (PANSS), and tolerability of treatment was recorded on day 0 (baseline), day 28 and day 56. PANSS values (95% confidence interval) at baseline, day 28 and day 56 in the topiramate group were 96.87 (85.37-108.37), 85.68 (74.67-96.70) and 76.87 (66.06-87.69), respectively; compared with 101.87 (90.37-113.37), 100.31 (89.29-111.32) and 100.56 (89.74-111.37) in the placebo group. General linear model for repeated measures analysis showed that topiramate has lowered PANSS values significantly compared with the placebo group. Similar significant decline patterns were found in all three subscales (negative, positive and psychopathology sign). Clinical response (more than 20% reduction in PANSS) was significantly higher in topiramate-treated subjects than controls (50% vs 12.5%). Topiramate can be an effective medication in controlling schizophrenic symptoms, considering its effect on negative symptoms and controlling antipsychotic-associated weight gain.
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PMID:Topiramate add-on treatment in schizophrenia: a randomised, double-blind, placebo-controlled clinical trial. 1851 65

Glutamate exerts its effects through binding and activation of two classes of specific receptors: ionotropic (iGluRs) and metabotropic (mGluRs). Group I mGluR includes mGluR1 and mGluR5 subtypes, group II includes mGluR2 and mGluR3 subtypes and group III includes the subtypes mGluR 4, 6, 7 and 8. Glutamate and its receptors are found in all key hypothalamic areas critically involved in reproduction and neuroendocrine function. To date, considerable data support an important role for iGluRs in the control of neuroendocrine function; however, the role of mGluRs as regulators of hypothalamic-pituitary function has not been clearly elucidated. mGluRs could be exerting a fine tune on the release of hypothalamic factors that regulate hormone release such as Substance P, GABA, alpha-MSH and CRH. Group II mGluR exert a direct inhibitory effect on anterior pituitary prolactin and GH secretion. Moreover, some group II mGluR agonists, like LY 354,740 and LY 379,268, can modulate PRL secretion from the anterior pituitary through their actions as dopamine receptor agonists. Evidence suggests a role for group III mGluR subtypes in stress-related behavioral disorders. Several reports indicate that selective ligands for mGluR subtypes have potential for the treatment of a wide variety of neurological and psychiatric disorders, including depression, anxiety disorders, schizophrenia, epilepsy and Alzheimer's disease among others. Since converging lines of evidence suggest a role for mGluRs subtypes in neuroendocrine regulation of hormone secretion, mGluRs neuroendocrine actions must be taken in consideration to insure proper treatment of these diseases. Moreover, discovery of selective agonists provides an opportunity to investigate the physiological role of mGluR subtypes and to directly test the neuroendocrine actions of mGluRs. Finally, mGluRs selective agonists may have an impact in the treatment of conditions involving chronic stress, such as depression and anxiety disorders, since they regulate neuroendocrine stress circuits involving the HPA axis and stress-sensitive hormones such as oxytocin and prolactin. This review aims to provide a survey of our current understanding of the effects of mGluR activation on neuroendocrine function.
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PMID:Role of metabotropic glutamate receptors in the control of neuroendocrine function. 1861 55

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