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)

Lewy bodies are found in Parkinson disease and related disorders and are extensively phosphorylated at Ser-129 (S129), but whether S129 phosphorylation mediates alpha-synuclein aggregation and neurotoxicity has been controversial. We used recombinant adeno-associated virus to overexpress alpha-synuclein in the rat nigrostriatal system. Rats were injected with recombinant adeno-associated virus 2/8 expressing either human wild-type (wt) or mutant alpha-synuclein with S129 replaced by alanine (S129A) or aspartate (S129D). Contralateral substantia nigra injections containing empty vector served as controls. Both wt and S129 mutants resulted in significant dopaminergic cell loss in the recipients by 6 weeks, but there were only small decreases in nigrostriatal terminal density and tyrosine hydroxylase expression. There were no significant differences in dopaminergic cell loss, nigrostriatal terminal density, or tyrosine hydroxylase expression among the wt and S129 mutants. Furthermore, we did not observe any differences in alpha-synuclein aggregate formation or distribution among wt and either S129 mutant. These findings contrast with those from previous studies and suggest that injections of both S129 phosphorylation mutants result in dopaminergic neurotoxicity similar to wt injections. Further study is needed to clarify the effects of these S129 mutants and alpha-synuclein phosphorylation in mammalian systems.
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PMID:Alpha-synuclein S129 phosphorylation mutants do not alter nigrostriatal toxicity in a rat model of Parkinson disease. 1952 99

Alpha-synuclein is the main constituent of Lewy bodies in familial and sporadic cases of Parkinson's disease (PD). Autosomal dominant point mutations, gene duplications or triplications in the alpha-synuclein (SNCA) gene cause hereditary forms of PD. One of the alpha-synuclein point mutations, Ala53Thr, is associated with increased oligomerization toxicity leading to familial early-onset PD in humans. The amino acid in position 53 in alpha-synuclein is an alanine in humans, great apes and Old World primates. However, this amino acid is a threonine in the alpha-synuclein of all other examined species, including New World monkeys. Here, we present DNA sequence analysis of SNCA and the deduced amino acid sequences of alpha-synuclein cloned from various different species, ranging from fish to mammals, which are known for their long-living potential. In all these investigated species the 53Thr is found. We conclude that 53Thr is not a molecular adaptation for long-living animals to minimize the risk of developing PD.
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PMID:Threonine 53 in alpha-synuclein is conserved in long-living non-primate animals. 1990 54

Valcamonica is an Italian valley where ferro-manganese industries have been active for a century and where an increased prevalence of parkinsonism was observed. A group of 93 patients (65 from Valcamonica, 28 from the reference area of Brescia city) and 76 controls (52 from Valcamonica, 24 from Brescia) were screened for serum Cu, Zn, Fe, Mn in blood (MnB) and urine (MnU), transferrin, peroxides, alanine (ALT) and aspartate (AST) transaminases and direct bilirubin. Test results were compared among groups according to the residential area and related to the disease severity. Valcamonica patients had a serum-increase of Cu, as well as of AST/ALT ratio, and a serum-decrease of Zn and Fe compared with other subgroups of cases and controls. Cases and controls from Valcamonica had higher MnB and MnU levels compared to cases and controls from Brescia. After controlling for the duration of illness, the Unified Parkinson's Disease Rating Scale III domain correlated with serum Cu and AST/ALT ratio. Our results suggest the possibility that, in this area, a lifetime exposure to neurotoxicants and to Mn in particular, when accompanied to a subclinical liver dysfunction, may pose an increased risk for neurodegenerative disorders via metal metabolism (Cu, Zn, Fe) abnormalities.
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PMID:Implications of metal exposure and liver function in Parkinsonian patients resident in the vicinities of ferroalloy plants. 1968 May 97

Recent studies suggest that high-affinity neuronal nicotinic acetylcholine receptors (nAChRs) containing alpha4 and beta2 subunits (alpha4beta2*) functionally interact with G-protein-coupled dopamine (DA) D(2) receptors in basal ganglia. We hypothesized that if a functional interaction between these receptors exists, then mice expressing an M2 point mutation (Leu9'Ala) rendering alpha4 nAChRs hypersensitive to ACh may exhibit altered sensitivity to a D(2)-receptor agonist. When challenged with the D(2)R agonist, quinpirole (0.5-10 mg/kg), Leu9'Ala mice, but not wild-type (WT) littermates, developed severe, reversible motor impairment characterized by rigidity, catalepsy, akinesia, and tremor. While striatal DA tissue content, baseline release, and quinpirole-induced DA depletion did not differ between Leu9'Ala and WT mice, quinpirole dramatically increased activity of cholinergic striatal interneurons only in mutant animals, as measured by increased c-Fos expression in choline acetyltransferase (ChAT)-positive interneurons. Highlighting the importance of the cholinergic system in this mouse model, inhibiting the effects of ACh by blocking muscarinic receptors, or by selectively activating hypersensitive nAChRs with nicotine, rescued motor symptoms. This novel mouse model mimics the imbalance between striatal DA/ACh function associated with severe motor impairment in disorders such as Parkinson's disease, and the data suggest that a D(2)R-alpha4*-nAChR functional interaction regulates cholinergic interneuron activity.
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PMID:Dopamine D2-receptor activation elicits akinesia, rigidity, catalepsy, and tremor in mice expressing hypersensitive {alpha}4 nicotinic receptors via a cholinergic-dependent mechanism. 1972 Jun 21

[(18)F]Fluoro-3,4-dihydroxyphenyl-L-alanine (FDOPA) was one of the first successful tracers for molecular imaging by positron emission tomography (PET), and has proven immensely valuable for studies of Parkinson's disease. Following intravenous FDOPA injection, the decarboxylated metabolite [(18)F] fluorodopamine is formed and trapped within terminals of the nigrostriatal dopamine neurons; reduction in the simple ratio between striatum and cerebellum is indicative of nigrostriatal degeneration. However, the kinetic analysis of dynamic FDOPA-PET recordings is formidably complex due to the entry into brain of the plasma metabolite O-methyl-FDOPA and due to the eventual washout of decarboxylated metabolites. Linear graphical analysis relative to a reference tissue input function is popular and convenient for routine clinical studies in which serial arterial blood samples are unavailable. This simplified approach has facilitated longitudinal studies in large patient cohorts. Linear graphical analysis relative to the metabolite-corrected arterial FDOPA input yields a more physiological index of FDOPA utilization, the net blood-brain clearance. Using a constrained compartmental model, FDOPA-PET recordings can be used to calculate the relative activity of the enzyme DOPA decarboxylase in living brain. We have extended this approach so as to obtain an index of steady-state trapping of [( 18)F]fluorodopamine in synaptic vesicles. Although simple methods of image analysis are sufficient for the purposes of routine clinical studies, the more complex approaches have revealed hidden aspects of brain dopamine in personality, healthy aging, and in the pathophysiologies of Parkinson's disease and schizophrenia.
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PMID:PET studies of cerebral levodopa metabolism: a review of clinical findings and modeling approaches. 1979 23

Parkinson's disease (PD) is a major adult-onset neurodegenerative disorder affecting the extrapyramidal motor system. A subset of patients develop PD as an autosomal dominant trait, of which PARK8 caused by mutations in the leucine-rich repeat kinase 2 (LRRK2) gene is highlighted because of its high frequency and clinicopathological similarity to sporadic PD. Previous studies have suggested that overactivation of LRRK2 caused by missense mutations leads to neuronal toxicity in PARK8, although the regulatory mechanism that governs the kinase activity of LRRK2 remains unknown. In this study, we expressed the carboxyl-half fragments of LRRK2 (DeltaN-LRRK2) that harbors the kinase as well as the ras-like (ROC) domains in Sf9 cells, subjected them to in vitro phosphorylation reaction, and analyzed the autophosphorylation by matrix assisted laser desorption/ionization- time of flight (MALDI-TOF) mass spectrometer. We identified Ser1403, Thr1404, Thr1410, Thr1491 located within the ROC domain, as well as Thr1967 and Thr1969 in the kinase domain, as the autophosphorylation sites. Substitution of Thr1967, an autophosphorylation site located within the kinase domain, to Ala caused a significant decrease in the kinase activity, implicating Thr1967 in the kinase activity of LRRK2. Phosphospecific antibodies to the autophosphorylation sites specifically recognized full-length LRRK2 subjected to in vitro phosphorylation reaction, indicating that the autophosphorylation takes place in holoproteins. Further analysis of autophosphorylation will clarify the mechanism of activation of LRRK2, as well as the pathomechanism of PD in relation to overactivation of LRRK2.
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PMID:Identification of the autophosphorylation sites of LRRK2. 1982 98

Parkinson's disease (PD), a common neurodegenerative disorder characterized by progressive loss of dopaminergic neurons and their terminations in the basal ganglia, is thought to be related to genetic and environmental factors. Although the pathophysiology of PD neurodegeneration remains unclear, protein misfolding, mitochondrial abnormalities, glutamate dysfunction and/or oxidative stress have been implicated. In this study, we report that a rare T1492G variant in GLUD2, an X-linked gene encoding a glutamate dehydrogenase (a mitochondrial enzyme central to glutamate metabolism) that is expressed in brain (hGDH2), interacted significantly with age at PD onset in Caucasian populations. Individuals hemizygous for this GLUD2 coding change that results in substitution of Ala for Ser445 in the regulatory domain of hGDH2 developed PD 6-13 years earlier than did subjects with other genotypes in two independent Greek PD groups and one North American PD cohort. However, this effect was not present in female PD patients who were heterozygous for the DNA change. The variant enzyme, obtained by substitution of Ala for Ser445, showed an enhanced basal activity that was resistant to GTP inhibition but markedly sensitive to modification by estrogens. Thus, a gain-of-function rare polymorphism in hGDH2 hastens the onset of PD in hemizygous subjects, probably by damaging nigral cells through enhanced glutamate oxidative dehydrogenation. The lack of effect in female heterozygous PD patients could be related to a modification of the overactive variant enzyme by estrogens.
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PMID:Gain-of-function variant in GLUD2 glutamate dehydrogenase modifies Parkinson's disease onset. 1982 50

Excitement about neurogenetics in the last two decades has diverted attention from environmental causes of sporadic ALS. Fifty years ago endemic foci of ALS with a frequency one hundred times that in the rest of the world attracted attention since they offered the possibility of finding the cause for non-endemic ALS throughout the world. Research on Guam suggested that ALS, Parkinson's disease and dementia (the ALS/PDC complex) was due to a neurotoxic non-protein amino acid, beta-methylamino-L-alanine (BMAA), in the seeds of the cycad Cycas micronesica. Recent discoveries that found that BMAA is produced by symbiotic cyanobacteria within specialized roots of the cycads; that the concentration of protein-bound BMAA is up to a hundred-fold greater than free BMAA in the seeds and flour; that various animals forage on the seeds (flying foxes, pigs, deer), leading to biomagnification up the food chain in Guam; and that protein-bound BMAA occurs in the brains of Guamanians dying of ALS/PDC (average concentration 627 microg/g, 5 mM) but not in control brains have rekindled interest in BMAA as a possible trigger for Guamanian ALS/PDC. Perhaps most intriguing is the finding that BMAA is present in brain tissues of North American patients who had died of Alzheimer's disease (average concentration 95 microg/g, 0.8mM); this suggests a possible etiological role for BMAA in non-Guamanian neurodegenerative diseases. Cyanobacteria are ubiquitous throughout the world, so it is possible that all humans are exposed to low amounts of cyanobacterial BMAA, that protein-bound BMAA in human brains is a reservoir for chronic neurotoxicity, and that cyanobacterial BMAA is a major cause of progressive neurodegenerative diseases including ALS worldwide. Though Montine et al., using different HPLC method and assay techniques from those used by Cox and colleagues, were unable to reproduce the findings of Murch et al., Mash and colleagues using the original techniques of Murch et al. have recently confirmed the presence of protein-bound BMAA in the brains of North American patients dying with ALS and Alzheimer's disease (concentrations >100 microg/g) but not in the brains of non-neurological controls or Huntington's disease. We hypothesize that individuals who develop neurodegenerations may have a genetic susceptibility because of inability to prevent BMAA accumulation in brain proteins and that the particular pattern of neurodegeneration that develops depends on the polygenic background of the individual.
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PMID:Beyond Guam: the cyanobacteria/BMAA hypothesis of the cause of ALS and other neurodegenerative diseases. 1992 26

Supporting the hypothesis that proteasome dysfunction is involved in Parkinson's disease (PD), McNaught et al. (2004) reported that the systemic administration of the proteasome inhibitor Z-Ile-Glu(OtBu)-Ala-Leu-aldehyde (PSI) in rats led to the degeneration of the nigrostriatal pathway. However, several groups could not reproduce this finding. We herein attempted to improve the reliability of the PSI model by chronically delivering the inhibitor using osmotic minipumps in aged mice. We also tested whether PSI co-administered with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) could act synergistically to induce toxicity. We found that PSI produced a significant reduction in locomotor activity that was mildly exacerbated by MPTP. However, PSI alone produced no sign of degeneration of the nigrostriatal dopaminergic pathway and did not exacerbate MPTP toxicity. To conclude, PSI administration does not provide a reliable phenotypic model of PD.
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PMID:Chronic systemic treatment with a high-dose proteasome inhibitor in mice produces akinesia unrelated to nigrostriatal degeneration. 2001 10

Alanine-to-threonine (A to T) substitutions caused by single nucleotide polymorphisms (SNPs) occur in diverse proteins, and in certain cases these substitutions induce self-aggregation into amyloid fibrils or aggregation in other amyloidogenic proteins. This is compatible with the inverse preferences of alanine to form helices and of threonine to support beta-sheet structures, which are crucial for amyloid fibrils formation. Our interest in these mutations was initiated by studying the potential effects of the A539T substitution in the butyrylcholinesterase BChE-K variant on amyloid fibrils formation in Alzheimer's disease. Other examples are, Parkinson's disease (PD), where A53T alpha-synuclein occurs in Lewy bodies and familial amyloid polyneuropathy (FAP), where an A25T substitution appears in transthyretin (TTR). In peripheral organs, an A34T substitution is found in the light chain immunoglobulin genes of patients with systemic amyloidosis and in familial hypercholesterolemia, an A370T substitution occurs in the LDLR regulator of cholesterol homeostasis. That such substitutions appear in proteins with important cellular functions suggests that they confer antagonistic pleiotropy, providing added value at an earlier age but causing damages and inducing amyloid diseases later on. This, in turn, may explain the evolutionary selection and preservation of these substitutions. The structural effect of residue substitutions and in particular A to T substitutions in amyloidogenic diseases thus merits further attention.
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PMID:Alanine-to-threonine substitutions and amyloid diseases: butyrylcholinesterase as a case study. 2006 Aug 16


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