Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030567 (Parkinson's disease)
 63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Long-term treatment of levodopa for Parkinson's disease (PD) patients is known to elevate homocysteine level in their plasma. The present study was designed to examine the possible neurotoxic effects of the increased homocysteine level on the dopaminergic system. Homocysteine was administered into Sprague-Dawley male rats intracerebroventricularly or C57BL/6 mice intraperitoneally. Following homocysteine injection the locomotor activities, the levels of dopamine (DA) and its metabolites, 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA), and immunohistochemistry of dopaminergic neurons were examined. The results obtained indicate that homocysteine administration (1 or 2 micromol, i.c.v.) into the rat brains for 5 days significantly decreased the locomotor activities and dopamine as well as its metabolites, DOPAC and HVA, in the rat striatal regions. Two different doses of homocysteine (50 and 100mg/100g, i.p. daily) were administered into mice for 36 days to evaluate the effect of systemic treatment of homocysteine on the dopaminergic neurons of the brain. The intraperitoneal injections of two doses of homocysteine significantly increased homocysteine levels in the striatal regions of mouse brains by 21.5 and 39.2%, while reducing dopamine turnover rates in the striatal regions by decreasing (DOPAC+HVA)/DA, 23.7 and 51.6%, respectively. Accordingly, homocysteine decreased locomotor activities significantly by decreasing movement time by 29 and 38%, total distance by 32 and 42%, and numbers of movement by 28 and 41%, respectively. Moreover, homocysteine decreased tyrosine hydroxylase immunoreactivity in substantia nigra of mouse brain. The data obtained indicate that the potential of homocysteine to be toxic to the dopaminergic system. Consequently, long-term levodopa therapy for PD may accelerate the progression of PD, at least in part by elevated homocysteine.
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PMID:Effects of homocysteine on the dopaminergic system and behavior in rodents. 1593 8

Homocysteine (Hcy) is a thyol amino acid resulting from de-methylation of methionine, an essential amino acid derived from dietary proteins. It is metabolized through two pathways: re-methylation and transsulfuration, which use as cofactors folate, vitamin B6 and vitamin B12. Hyperhomocysteinemia has been identified as a risk factor for cerebrovascular disease, dementia, impaired cognitive function and depression. Several drugs may interfere with metabolic pathways of Hcy, leading to an alteration of plasma Hcy levels. Lipid-lowering agents, used to reduce the risk of cerebral venous thrombosis or occlusive vascular disease in patients with high levels of plasmatic lipids, can increase plasma Hcy levels. Hyperhomocysteinemia has been also documented in Parkinson disease patients treated with levodopa and in epileptic patients after chronic treatment with antiepileptic drugs. In contrast, vitamins supplementations may be warranted in patients treated with lipid-lowering agents, levodopa and antiepileptic drugs in order to maintain normal plasma Hcy values. In contrast, higher doses of vitamins can induce dysfunctions in central and peripheral nervous system; therefore excessive supplements should be avoided.
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PMID:Increase in plasma homocysteine levels induced by drug treatments in neurologic patients. 1603 38

Hyperhomocysteinemia is considered a risk factor for vascular disease causing endothelial damage and consequently atherogenesis. The purpose of this study was to investigate the effect of elevated homocysteine on certain biochemical markers of endothelial function in patients with idiopathic Parkinson's disease (PD). Blood homocysteine levels were assessed in 57 PD patients and 40 matched normal controls. Investigation of the C677T 5,10 methylenetetrahydrofolate reductase (MTHFR) genotype was also performed in 43 PD patients. The following markers of endothelial function were assessed: superoxide dismutase (SOD), nitric oxide (NO), sICAM-1 and sE-selectin. Homocysteine levels were found mildly elevated in PD patients particularly in those treated with L-Dopa. MTHFR genotype did not influence significantly this finding. SOD activity was found reduced but it was not correlated to homocysteine levels. All other parameters measured were normal and were not related to hyperhomocysteinemia. Our findings indicate that mild hyperhomocysteinemia in PD patients was not associated with endothelial dysfunction.
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PMID:Endothelial function markers in parkinsonian patients with hyperhomocysteinemia. 1604 Feb 47

Homocysteine (Hcy) has been implicated as a risk factor for vascular disease as well as brain atrophy. There is evidence to implicate Hcy in increased oxidative stress, DNA damage, the triggering of apoptosis and excitotoxicity, all important mechanisms in neurodegeneration. Hcy is also prothrombotic and proatherogenic, and causes damage to the vessel wall. It is related to brain atrophy in older individuals, and possibly to white matter hyperintensities (WMH) in the brain. Epidemiological evidence and longitudinal data support Hcy as a risk factor for cognitive impairment and Alzheimer's Disease (AD). This may be due to cerebrovascular as well as direct neurotoxic mechanisms. Its role in Parkinson Disease (PD) is less well supported. High Hcy has been suggested as a mediating factor in alcohol-related brain atrophy. The high prevalence of hyperhomocysteinemia in the population and its easy treatability make Hcy an interesting amino acid for future intervention studies in the prevention of degenerative brain disorders. Intervention studies are necessary to confirm its aetiological role.
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PMID:Homocysteine and brain atrophy. 1610 82

Elevated serum homocysteine has been associated with increased risk of Alzheimer's disease. Furthermore, elevated homocysteine levels are related to cognitive dysfunction in the elderly. The aim of the present study was to explore the disease specificity of the relation between serum total homocysteine levels and cognitive function. For this, we summarize data from several studies on homocysteine levels in both normal and pathological conditions performed in our laboratories and evaluate possible mechanisms of effects of elevated homocysteine levels in the central nervous system. Total homocysteine levels were measured in serum of: 1) healthy aging individuals; 2) patients with Alzheimer's and Parkinson's disease and patients with other cognitive disorders; and 3) patients with multiple sclerosis. Increased serum homocysteine concentration was related to worse cognitive performance over a 6-year period in the normal aging population (r=-0.36 to -0.14, p<0.01 for the Word learning tests; r=0.76, p<0.05 for the Stroop Colored Word test). Homocysteine was only increased in patients with Parkinson's disease on L-Dopa therapy (18.9 vs. 16.5 micromol/L in healthy controls), and not in dementia patients. Homocysteine was elevated in patients with progressive multiple sclerosis (15.0 micromol/L, n=39, compared to 12.0 micromol/L in 45 controls) and correlated to both cognitive and motor function (r=-0.33 and -0.33, p<0.05, respectively). The relationship between homocysteine and cognitive function in non-pathological and pathological situations indicates that changes in its levels may play a role in cognitive functioning in a broad spectrum of conditions.
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PMID:Homocysteine in relation to cognitive performance in pathological and non-pathological conditions. 1619 3

Homocysteine has been considered a major risk factor for cardiovascular diseases, and patients with hyperhomocystinemia exhibit neurological and psychological abnormalities. Elevated level of this molecule in the blood of Parkinson's disease patients receiving long-term l-DOPA therapy prompted us to investigate whether homocysteine is neurotoxic to the nigrostriatal dopaminergic system in Sprague-Dawley rats. Animals infused unilaterally with different doses of homocysteine (0.25-1 micromol in 1 microl) intranigrally exhibited significant and dose-dependent decrease in dopamine levels in the ipsilateral striatum as assayed employing an HPLC coupled with electrochemical detector, 19 days post-infusion. While 3,4-dihydroxyphenylacetic acid level in the striatum showed a dose-dependent decrease, homovanillic acid was found to be inhibited only for the highest dose. Amphetamine administration in these animals on the 14th day caused stereotypic turning behavior ipsilateral to the side of infusion. Apomorphine challenge on the 16th day elicited stereotypic contralateral circling behavior. Neurotransmitter levels in the serotonergic perikarya or terminals were unaltered 19 days following intraraphe infusion of homocysteine, which suggested the specificity of its action to dopaminergic neurons. These results indicate nigrostriatal lesions similar to that observed following intranigral infusion of the dopaminergic neurotoxin, 6-hydroxydopamine and suggest its closeness to the parkinsonian animal model. Furthermore, these findings provide evidence for the neurotoxic nature of homocysteine to dopaminergic neurons and suggest that elevated level of this molecule in parkinsonian patients may be conducive to accelerate the progression of the disease.
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PMID:Acute intranigral homocysteine administration produces stereotypic behavioral changes and striatal dopamine depletion in Sprague-Dawley rats. 1648 96

Homocysteine levels are affected by diet factors such as vitamin deficiencies, non-diet factors such as genetic disorders, and stress exposure. Hyperhomocysteinemia has been implicated in several disorders, including cardiovascular disease, depression, schizophrenia, Alzheimer's and Parkinson's disease. Since sex differences play a role both in stress responses and in susceptibility to various diseases, the objective of this study was to evaluate possible alterations in homocysteine metabolism including cysteine, folate, and vitamin B(6), and oxidative stress markers in female rats exposed to different types of acute stress. Female rats were randomly distributed into eight groups according to stress manipulation (restraint, swimming, cold and control) and estrous cycle (diestrus and estrus). In general no significant differences were seen between rats in estrus and diestrus. Restraint stress was the only type of stress that altered homocysteine concentrations (+33% relative to controls). An increase in levels of thiobarbituric acid reactive substances (TBARS) and a decrease in total glutathione (GSHt) concentration were also observed in animals subjected to restraint and swimming stress, suggesting the possibility of oxidative damage. Thus, both the homocysteine results and the oxidative stress data indicated that restraint stress was the most powerful stress manipulation in female rats, as previously observed in male rats. These findings indicate that hormonal and gonadal differences do not interfere with stress responses related to homocysteine metabolism and suggest that putative gender-related differences in homocysteine responses are probably not involved in the differential prevalence of some diseases in human males and females.
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PMID:Acute stressor-selective effects on homocysteine metabolism and oxidative stress parameters in female rats. 1705 2

Homocysteine, a sulphur-containing amino acid formed by demethylation of methionine, is involved in numerous processes of methyl group transfer, all playing pivotal roles in the biochemistry of the human body. Increased levels of plasma homocysteine (hyperhomocysteinemia) - which may result from a deficiency of folate, vitamin B6 or B12 or mutations in enzymes regulating the catabolism of homocysteine - are associated with a wide range of clinical manifestations, mostly affecting the central nervous system (e.g., mental retardation, cerebral atrophy and epileptic seizures). Recent evidence suggests that changes in the metabolic fate of homocysteine, leading to hyperhomocysteinemia, may also play a role in the pathophysiology of neurodegenerative disorders, particularly Parkinson's disease (PD). The nervous system might be particularly sensitive to homocysteine, due to the excitotoxic-like properties of the amino acid. However, experimental findings have shown that homocysteine does not seem to posses direct, cytotoxic activity, while the amino acid has proven able to synergize with more specific neurotoxic insults. Hyperhomocysteinemia has been repeatedly reported in PD patients; the increase, however, seems mostly related to the methylated catabolism of l-Dopa, the main pharmacological treatment of PD. Therefore, hyperhomocysteinemia may not be specific to movement disorders or other neurological diseases, the condition being, in fact, rather the result of the combinations of different factors, mainly metabolic, but also genetic and pharmacological, intervening in the neurodegenerative process.
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PMID:Homocysteine and Parkinson's disease: a dangerous liaison? 1733 37

High plasma homocysteine levels have been observed in Parkinson's disease (PD) patients treated with levodopa. In this study, we investigated the effects of C677T and A1298C MTHFR polymorphisms, in association with L-DOPA daily dose and vitamin status, on hyperhomocysteinemia development in PD patients. Plasma homocysteine and folate/vitamin B12 levels were assayed in 49 L-DOPA-treated PD patients, and compared with those of 86 healthy subjects. Genotyping for MTHFR polymorphisms was carried out by DG-DGGE. Homocysteine levels were significantly higher in patients than in controls (16.3 +/- 5.7 vs. 11.7 +/- 2.7 micromol/l, P < 0.01). No significant differences were found between patients and controls with regard to folate/vitamin B12 levels, and MTHFR allele distribution. The TT+AA genotype was significantly more frequent in PD patients than in controls (32.5% vs. 17.4%, P < 0.05), but not associated with an increased risk for PD (OR = 2.3, CI = 1.0-5.2). Further, patients carrier of this genotype exhibited a mild hyperhomocysteinemia (22.1 +/- 4.9 micromol/l), while a protective effect was observed in patients having the CC+AA genotype (11.2 +/- 1.6 micromol/l; OR = 0.19, CI = 0.06-0.59). Interestingly, homocysteine levels were also moderately increased in patients with CT heterozygous genotype, in the context of either AA or AC (14.5 +/- 3.6 micromol/l), in comparison to subjects with the CC + AA genotype. Finally, we did not find any significant association of combined C677T and A1298C MTHFR polymorphisms with an increased risk for hyperhomocysteinemia in PD patients. A better understanding of the role of homocysteine and MTHFR genotypes in PD is needed to reveal novel approaches for disease management.
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PMID:Effect of MTHFR polymorphisms on hyperhomocysteinemia in levodopa-treated Parkinsonian patients. 1791 82

Structural plasticity of G-protein coupled receptors (GPCRs) is of basic importance for their interactions with ligands, in particular with other proteins such as receptors or receptor-modifying proteins that can lead to different functions for the same GPCR. In the present paper, structural plasticity of GPCRs has been investigated discussing allosteric modulatory actions of Homocysteine (Hcy) on D2 receptors together with data obtained by computer-assisted analysis of the presence of disordered domains in GPCRs. Previous evidence for a modulatory action of Hcy on D2 receptors has been further extended by means of experiments on the effects of Hcy local intrastriatal injection on rotational behaviour. Altogether the present data allow considering under a new angle the well known proposal of A2A antagonists as new therapeutic agents in Parkinson's disease (PD). Furthermore, they point out to not only the importance of drugs capable of reducing Hcy brain levels, but also to the potential therapeutic impact of drugs capable of regionally blocking (for PD) or enhancing (for some schizophrenic syndromes) Hcy allosteric action on D2 receptors. As far as the investigations on GPCR plastic domains, extracellular, intracellular and transmembrane domains of 14 GPCRs have been considered and propensity of each of these domains for a structured or unstructured conformation has been evaluated by means of ad hoc computer programs. It has been shown that the N- and C-terminals as well as intracellular loop 3 have a high propensity towards an unstructured conformation, hence they are potentially very plastic domains, which can undergo easily to interactions with other ligands, particularly with other protein domains. This aspect is obviously of the greatest importance not only for the function of single GPCRs, but also for their interactions either with other receptors (receptor-receptor interactions) or, more generally, for formation of clusters of membrane associated proteins, hence of "protein mosaics", where the GPCRs could represent the input unit of the supra-molecular device.
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PMID:Structural plasticity in G-protein coupled receptors as demonstrated by the allosteric actions of homocysteine and computer-assisted analysis of disordered domains. 1802 43


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