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Target Concepts:
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Query: UNIPROT:P30044 (
antioxidant enzyme
)
8,037
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Manganese (Mn) is a ubiquitous and essential element that can be toxic at high doses. In individuals exposed to high levels of this metal, Mn can accumulate in various brain regions, leading to neurotoxicity. In particular, Mn accumulation in the mid-brain structures, such as the globus pallidus and striatum, can lead to a Parkinson's-like
movement disorder
known as manganism. While the mechanism of this toxicity is currently unknown, it has been postulated that Mn may be involved in the generation of reactive oxygen species (ROS) through interaction with intracellular molecules, such as superoxide and hydrogen peroxide, produced within mitochondria. Conversely, Mn is a required component of an important
antioxidant enzyme
, Mn superoxide dismutase (MnSOD), while glutamine synthetase (GS), a Mn-containing astrocyte-specific enzyme, is exquisitely sensitive to oxidative stress. To investigate the possible role of oxidative stress in Mn-induced neurotoxicity, a series of inhalation studies was performed in neonatal and adult male and female rats as well as senescent male rats exposed to various levels of airborne-Mn for periods of time ranging from 14 to 90 days. Oxidative stress was then indirectly assessed by measuring glutathione (GSH), metallothionein (MT), and GS levels in several brain regions. MT and GS mRNA levels and regional brain Mn concentrations were also determined. The collective results of these studies argue against extensive involvement of ROS in Mn neurotoxicity in rats of differing genders and ages. There are, however, instances of changes in individual endpoints consistent with oxidative stress in certain brain tissues.
...
PMID:Effects of inhaled manganese on biomarkers of oxidative stress in the rat brain. 1684 51
The occurrence and irreversibility of tardive dyskinesia (TD), a motor disorder of the orofacial region, resulting from chronic neuroleptic treatment has been considered a major clinical issue in the treatment of schizophrenia. The molecular mechanism underlying the pathophysiology of TD is not completely known. Several animal studies have demonstrated an enhancement of oxidative damage and increased glutamatergic transmission after chronic administration of neuroleptics. The present study investigated the effect of rutin, an antioxidant in haloperidol-induced orofacial dyskinesia by using different behavioural (orofacial dyskinetic movements, stereotypic rearing, locomotor activity, percent retention), biochemical [lipid peroxidation, reduced glutathione levels,
antioxidant enzyme
levels (SOD and catalase)] and neurochemical (neurotransmitter levels) parameters. Chronic administration of haloperidol (1 mg/kg i.p. for 21 days) significantly increased vacuous chewing movements, tongue protrusions and facial jerking in rats, which were significantly inhibited by rutin. Chronic administration of haloperidol also resulted in dopamine receptor sensitivity as evident by a well-shaped response (initial decrease followed by increase) in locomotor activity and stereotypic rearing and also decreased percent retention time on elevated plus maze paradigm. Pretreatment with rutin reversed these behavioural changes. Besides, haloperidol also induced oxidative damage in all regions of brain which was prevented by rutin, especially in the subcortical region containing striatum. Although turnover of dopamine and noradrenaline decreased in both cortical and subcortical regions after chronic administration of haloperidol, it was significantly reversed by high-dose rutin treatment. The findings of the present study suggested the involvement of free radicals in the development of neuroleptic-induced orofacial dyskinesia, a putative model of TD, and rutin as a possible therapeutic option to treat this hyperkinetic
movement disorder
.
...
PMID:Protective effect of rutin, a polyphenolic flavonoid against haloperidol-induced orofacial dyskinesia and associated behavioural, biochemical and neurochemical changes. 1786 5
Tardive dyskinesia (TD) is a motor disorder of the orofacial region resulting from chronic neuroleptic treatment. A high incidence and irreversibility of this hyperkinetic disorder has been considered a major clinical issue in the treatment of schizophrenia. The molecular mechanism related to the pathophysiology of tardive dyskinesia is not completely known. Various animal studies have demonstrated an enhanced oxidative stress and increased glutamatergic transmission as well as inhibition in the glutamate uptake after the chronic administration of haloperidol. The present study investigated the effect of curcumin, an antioxidant, in haloperidol-induced tardive dyskinesia by using different behavioural (orofacial dyskinetic movements, stereotypy, locomotor activity, % retention), biochemical (lipid peroxidation, reduced glutathione levels,
antioxidant enzyme
levels (SOD and catalase) and neurochemical (neurotransmitter levels) parameters. Chronic administration of haloperidol (1 mg/kg i.p. for 21 days) significantly increased vacuous chewing movements (VCM's), tongue protrusions, facial jerking in rats which was dose-dependently inhibited by curcumin. Chronic administration of haloperidol also resulted in increased dopamine receptor sensitivity as evident by increased locomotor activity and stereotypy and also decreased % retention time on elevated plus maze paradigm. Pretreatment with curcumin reversed these behavioral changes. Besides, haloperidol also induced oxidative damage in all major regions of brain which was attenuated by curcumin, especially in the subcortical region containing striatum. On chronic administration of haloperidol, there was a decrease in turnover of dopamine, serotonin and norepinephrine in both cortical and subcortical regions which was again dose-dependently reversed by treatment with curcumin. The findings of the present study suggested for the involvement of free radicals in the development of neuroleptic-induced tardive dyskinesia and point to curcumin as a possible therapeutic option to treat this hyperkinetic
movement disorder
.
...
PMID:Protective effect of Curcumin, the active principle of turmeric (Curcuma longa) in haloperidol-induced orofacial dyskinesia and associated behavioural, biochemical and neurochemical changes in rat brain. 1802 80
Tardive dyskinesia (TD) is a potentially permanent
movement disorder
resulting from chronic use of dopamine receptor blocking agents (DRBA). Identified risk factors include the type of antipsychotic agent, being greater for those of first generation antipsychotics (FGA), the duration of illness and cumulative dose of DRBA and advanced age. Female sex and African and Caucasian ethnicity are additional potential risk factors. Because only a subset of people taking DRBA's develops TD, genetics may play a role. Susceptibility gene candidates include those involved in DRBA metabolism and the targets or receptors of DRBA's. Although met with conflicting data, the following genes may be involved with TD development: the cytochrome P450 gene CYP2D6, involved with metabolism of most antipsychotics, Dopamine D2 and D3 receptor genes, serotonin 2A and 2C receptor genes, vesicular monoamine transporter 2 (VMAT 2) gene, involved with intracellular neurotransmitter packaging, and the manganese superoxide dismutase (MnSOD) gene, an
antioxidant enzyme
. Heparan sulfate proteoglycan 2 (HSPG 2) gene is another potential gene involved with development of TD. The pathogenesis of TD is unknown, however there are three main theories proposed: dopamine receptor supersensitivity resulting from chronic dopamine receptor blockade, oxidative stress and maladaptive synaptic plasticity each of which is discussed further in this article. Tardive dyskinesia (TD) is a potentially permanent and disabling adverse effect from certain medications. By definition TD is the insidious onset of rhythmic, repetitive, stereotypic movements of the face, mouth and tongue, often with involvement of the trunk and extremities that occur as a result of dopamine receptor blocking agents (DRBA) [1]. The term tardive refers to the delayed onset of the disorder. The mean prevalence of TD is estimated to be 25.3% in psychiatric patients taking antipsychotics [2]. Compared to the number of people taking these drugs, TD represents a minority. TD is a potentially permanent condition; stopping the offending agent does not always alleviate the condition. Therefore, prevention of TD by avoiding DRBA's if at all possible is ideal. However, there is no apparent way to predict who will develop TD and there are some cases in which DRBA's are necessary for treatment of chronic conditions. As TD has been present since the development of DRBA's, possible risk factors for its development have been studied. Solmi et al. (2018) [3] have written a comprehensive review on this subject.
...
PMID:Tardive dyskinesia: Who gets it and why. 3052 59
