UMLS:C0030567 - FACTA Search

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Query: UMLS:C0030567 (Parkinson's disease)
63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxidative stress is important in the process of dopaminergic neuronal degeneration in Parkinson's disease. Recent studies suggest that estrogens have neuroprotective effects in neurodegenerative disorders, including Alzheimer's disease. In the present study, we investigated neuroprotection against oxidative stress afforded by estradiol using primary neuronal culture of the rat ventral mesencephalon. Oxidative stress induced by glutamate, superoxide anions, and hydrogen peroxide caused significant neuronal death. Although simultaneous administration of 17beta-estradiol and glutamate did not show any significant effects, preincubation with 17beta-estradiol provided significant neuroprotection against glutamate-induced neurotoxicity (ED50 was 50 microM for dopaminergic and 15 microM for nondopaminergic neurons). Neuroprotection occurred even after a brief preincubation with 17beta-estradiol and was not significantly blocked by either an estrogen receptor antagonist or a protein synthesis inhibitor. These findings indicate that the neuroprotection against glutamate neurotoxicity is mediated by neither estrogen receptors nor activation of genome transcription. Other steroids (corticosterone, testosterone, and cholesterol) did not provide significant neuroprotection against glutamate-induced neurotoxicity. Furthermore, preincubation with 17beta-estradiol provided neuroprotection against neuronal death induced by both superoxide anions and hydrogen peroxide. Dichlorofluorescin diacetate, a marker of oxygen radicals, revealed that preincubation with 17beta-estradiol suppressed intracellular oxygen radicals induced by hydrogen peroxide. The biologically inactive stereoisomer of estradiol, 17alpha-estradiol, provided neuroprotection against glutamate-induced toxicity in dopaminergic neurons, as well as the 17beta isoform. 17Alpha-estradiol may be a potential therapeutic agent used to prevent dopaminergic neuronal death induced by oxidative stress in Parkinson's disease.
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PMID:Estradiol protects mesencephalic dopaminergic neurons from oxidative stress-induced neuronal death. 984 62

Parkinson's disease (PD) is a common cause of dementia in the elderly. Dementia in Alzheimer's disease (AD) and PD share common biologic and clinical features. The estrogen receptor (ER) gene is one of the susceptibility genes for AD. In order to test the hypothesis that the overlap between AD and PD may have a genetic basis, we determined ER gene polymorphisms in 13 PD patients with dementia (PDD) (age +/- SD; 71.9 +/- 5.5 years), 71 PD patients without dementia (PDND) (68.4 +/- 7.5 years), 86 AD patients (76.8 +/- 8.0 years) and 51 control subjects (CTL) (74.9 +/- 6.9 years). ER genotypes were classified as a P or p allele on the basis of a Pvu II-RFLP, and X and x on the basis of a Xba I-RFLP. The frequency of the P allele in the PDD group as well as the AD group was higher than that in CTL. There was no significant difference in the distribution of the P allele between CTL and PDND. There were no significant differences in the distribution of the X allele among the PDD, PDND and CTL groups, whereas a higher incidence was found in AD. We conclude that the ER gene may be a common susceptibility gene for dementia in PD as well as AD.
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PMID:Positive association between an estrogen receptor gene polymorphism and Parkinson's disease with dementia. 1036 95

Catechol-O-methyltransferase (COMT, EC 2.1.1.6) is a ubiquitous enzyme that is crucial to the metabolism of carcinogenic catechols and catecholamines. Regulation of human COMT gene expression may be important in the pathophysiology of various human disorders including estrogen-induced cancers, Parkinson's disease, depression, and hypertension. The gender difference in human COMT activity and variations in rat COMT activity during the estrous cycle led us to explore whether estrogen can regulate human COMT gene transcription. Our Northern analyses showed that physiological concentrations of 17-beta-estradiol (10(-9)-10(-7) M) could decrease human 1. 3-kilobase COMT mRNA levels in MCF-7 cells in a time- and dose-dependent manner through an estrogen receptor-dependent mechanism. Two DNA fragments immediately 5' to the published human COMT gene proximal and distal promoters were cloned. Sequence analyses revealed several half-palindromic estrogen response elements and CCAAT/enhancer binding protein sites. By cotransfecting COMT promoter-chloramphenicol acetyltransferase reporter genes with human estrogen receptor cDNA and pSV-beta-galactosidase plasmids into COS-7 cells, we showed that 17-beta-estradiol could down-regulate chloramphenicol acetyltransferase activities, and COMT promoter activities dose-dependently. Functional deletion analyses of COMT promoters also showed that this estrogenic effect was mediated by a 280 base pair fragment with two putative half-palindromic estrogen response elements in the proximal promoter and a 323-base pair fragment with two putative CCAAT/enhancer binding protein sites in the distal promoter. Our findings provide the first evidence and molecular mechanism for estrogen to inhibit COMT gene transcription, which may shed new insight into the role of estrogen in the pathophysiology of different human disorders.
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PMID:Characterization and implications of estrogenic down-regulation of human catechol-O-methyltransferase gene transcription. 1038 81

There is a gender difference, or male predominance, in Parkinson's disease and attention deficit hyperactivity disorder (ADHD). Although the reason why it is predominantly the male who suffers from the diseases is still unknown, the female steroid hormone may be involved in the pathogenesis. Estrogen is a female sex hormone with a steroid structure. Like other steroid hormones, it binds to specific receptors in the nuclei and regulates gene transcription (genomic effects). In addition to the genomic effects, it can act as an antioxidant, a process not mediated by the estrogen receptor (nongenomic effects). Further, estrogen can have a novel action through a specific receptor located in the plasma membrane. In the central nervous system, estrogen provides neuroprotection mediated through multiple mechanisms. In this article, we review several possible mechanisms for the neuroprotective effects including antiapoptotic protection by estrogens as transcription factors, protection against oxidative stress by estrogens acting as antioxidants, and neurotrophic cross talk through the signal cascade shared with neurotrophic factors.
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PMID:Neuroprotective effects of estradiol in mesencephalic dopaminergic neurons. 1065 71

The activity of steroids was studied in 1-methyl-phenyl-1,2,3,6-tetrahydropyridine (MPTP) lesioned retired breeder C57BL/6 male mice as a model of Parkinson's disease. Steroids were injected daily for 5 days before MPTP (4 injections, 15 mg/kg i.p., at 2 h intervals) and hormonal treatment continued for 5 more days. Mice that received 17beta-estradiol or progesterone or raloxifene (a selective estrogen receptor modulator) and MPTP had striatal concentrations of dopamine (DA) and its metabolites dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) similar to those in control animals, whereas mice that received MPTP alone or with 17alpha-estradiol (the isomer with weak estrogenic activity) had an extensive decrease of DA and its metabolites. These results suggest stereospecific prevention of MPTP-induced dopamine loss by 17beta-estradiol, which is also observed with progesterone and raloxifene.
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PMID:Ovarian steroids and raloxifene prevent MPTP-induced dopamine depletion in mice. 1067 83

Epidemiological studies associate post-menopausal estrogen use with a reduction in risk of Alzheimer's disease, a reduction in risk of Parkinson's disease, and death from stroke. The neuroprotective efficacy of estrogens have been well described and may contribute to these clinical effects. Estrogen-mediated neuroprotection has been described in several neuronal culture model systems with toxicities including serum-deprivation, beta-amyloid-induced toxicity, excitotoxicity, and oxidative stress. In animal models, estrogens have been shown to attenuate neuronal death in rodent models of cerebral ischemia, traumatic injury, and Parkinson's disease. Although estrogens are known to exert several direct effects on neurons, the cellular mechanisms behind the neuroprotective efficacy of the steroid are only beginning to be elucidated. In this review, we summarize the data supporting a neuroprotective role for estrogens in both culture and animal models and discuss neuronal effects of estrogens that may contribute to the neuroprotective effects. These effects include activation of the nuclear estrogen receptor, altered expression of bcl-2 and related proteins, activation of the mitogen activated kinase pathway, activation of cAMP signal transduction pathways, modulation of intracellular calcium homeostasis, and direct antioxidant activity.
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PMID:Neuroprotective effects of estrogens: potential mechanisms of action. 1081 19

Parkinson's disease is characterized by the mesencephalic dopaminergic neuronal loss, possibly by apoptosis, and the prevalence is higher in males than in females. The estrogen receptor (ER) subtype in the mesencephalon is exclusively ER beta, a recently cloned novel subtype. Bound with estradiol, it enhances gene transcription through the estrogen response element (ERE) or inhibits it through the activator protein-1 (AP-1) site. We demonstrated that 17beta-estradiol provided protection against nigral neuronal apoptosis caused by exposure to either bleomycin sulfate (BLM) or buthionine sulfoximine (BSO). BLM and BSO-induced nigral apoptosis was blocked by inhibitors for caspase-3 or c-Jun/AP-1. The antiapoptotic effect by estradiol was blocked by ICI 182,780, an antagonist for ER, but not by a synthesized peptide that inhibits binding of the ER to the ERE. Estradiol had no effects on caspase-3 activation and c-Jun NH(2)-terminal kinase (JNK), which were activated by BLM. It also suppressed apoptosis by serum deprivation, which was independent of caspase-3 activation. Therefore, the antiapoptotic neuroprotection by estradiol is mediated by transcription through AP-1 site downstream from JNK and caspase-3 activation. Furthermore, 17alpha-estradiol, a stereoisomer without female hormone activity, also provided an antiapoptotic effect. Therefore, the antiapoptotic effect is independent of female hormone activity.
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PMID:Mechanisms of antiapoptotic effects of estrogens in nigral dopaminergic neurons. 1083 42

Evidence suggests the estrogens may play a role in various mental and neurodegenerative diseases. We review the evidence implicating estradiol in schizophrenia and Parkinson's disease. Epidemiologic and clinical studies on the effects of estrogens in schizophrenia are surveyed, and animal studies and in vitro models of the modulatory effects of estrogens on neurotransmitters associated with schizophrenia (i.e., dopamine, serotonin, glutamate) are reviewed. Epidemiologic and clinical data suggesting a role for estrogens in Parkinson's disease and in vivo and in vitro models demonstrating neuroprotective effects of estrogens are then examined. Despite the numerous animal studies on the effects of estrogens in the brain, clinical data are sparse and often contradictory. Compounds with more specific and potent estrogenic activity in the brain are required to further research efforts in this area. Possible candidates are the selective estrogen receptor modulators (SERMs), whose agonist or antagonist properties depend on the target tissue. The effects of various SERMs in the brain are reviewed, and our novel findings on the effects of SERMs on 5-HT2A receptors in the rat cortex and nucleus accumbens are presented. We suggest that drugs with estrogenic activity in the brain may have therapeutic potential, either by modulating brain neurotransmission or through neuroprotective activity.
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PMID:Estrogenic modulation of brain activity: implications for schizophrenia and Parkinson's disease. 1183 73

We report here a unique case of a 55-year-old woman presenting with a clinical picture of Parkinson disease, severe back pain, splenomegaly, and pronounced dyspnea. Radiographic examination of the spine showed multiple vertebral fractures. Niemann-Pick disease type B was diagnosed by findings of lipid-loaded histiocytes and a strongly reduced sphingomyelinase enzyme activity. She was homozygous for the deletion of codon 608 (delR608), which encodes an arginine residue in the Acid Sphingomyelinase gene. To investigate the cause of the unusual vertebral fractures, we screened for polymorphisms previously described as possibly associated with increased risk for osteoporosis and fractures. Our patient was heterozygous for the polymorphisms of the vitamin D receptor gene, the estrogen receptor gene, and the collagen 1A1gene. Increased physical activity after Parkinson treatment, a genetic predisposition, together with worsening disease due to interfering medications could explain the dramatic presentation of this patient. She was treated with cholesterol lowering drugs such as statins to decrease sphingomyelin synthesis, avoidance of drugs that inhibit sphingomyelinase, and bisphosphonates. No new fractures have occurred, but the interstitial lung disease has progressed.
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PMID:Niemann-Pick disease type B: an unusual clinical presentation with multiple vertebral fractures. 1193 91

We investigated the association of Parkinson's disease (PD) with two estrogen receptor gene polymorphisms. In a sample of 319 unrelated PD cases and 196 control subjects including both men and women, we observed no association of PD with the estrogen receptor genotypes derived from XbaI and PvuII digests. Analyses restricted to women or to cases and controls of European origin yielded similar findings. Further analyses stratified by age at examination or by family history did not show associations. While exogenous and endogenous estrogen may modify the risk of PD in women, the two estrogen receptor gene polymorphisms considered here do not seem to contribute to PD susceptibility.
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PMID:Case-control study of estrogen receptor gene polymorphisms in Parkinson's disease. 1211 98

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