Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Voluntary movement difficulties in Parkinson's disease are initially relieved by l-DOPA therapy, but with disease progression, the repeated l-DOPA treatments can produce debilitating motor abnormalities known as l-DOPA-induced dyskinesias. We show here that 2 striatum-enriched regulators of the Ras/Rap/ERK MAP kinase signal transduction cascade, matrix-enriched CalDAG-GEFI and striosome-enriched CalDAG-GEFII (also known as RasGRP), are strongly and inversely dysregulated in proportion to the severity of abnormal movements induced by l-DOPA in a rat model of parkinsonism. In the dopamine-depleted striatum, the l-DOPA treatments produce down-regulation of CalDAG-GEFI and up-regulation of CalDAG-GEFII mRNAs and proteins, and quantification of the mRNA levels shows that these changes are closely correlated with the severity of the dyskinesias. As these CalDAG-GEFs control ERK cascades, which are implicated in l-DOPA-induced dyskinesias, and have differential compartmental expression patterns in the striatum, we suggest that they may be key molecules involved in the expression of the dyskinesias. They thus represent promising new therapeutic targets for limiting the motor complications induced by l-DOPA therapy.
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PMID:Dysregulation of CalDAG-GEFI and CalDAG-GEFII predicts the severity of motor side-effects induced by anti-parkinsonian therapy. 1925 71

Adequate reliability and valid factor structure are prerequisites for appropriate use of a measure in a population. Although the Repeatable Battery for Assessment of Neuropsychological Status (RBANS) has been used to examine cognition in Parkinson's disease (PD), its reliability and factor structure have not been examined in this population. This study examined the reliability and factor structure of the RBANS in participants with de novo PD recruited for two NIH Exploratory Trials in Parkinson's Disease (NET-PD), using Cronbach's alpha and factor analysis. Confirmatory factor analysis (CFA) was implemented on the factor structure proposed in the RBANS manual, and exploratory factor analysis (EFA) was conducted to identify a valid factor structure given the proposed one was not supported. The RBANS exhibited poor reliability in participants with NET-PD. Cronbach's alpha ranged from 0.03 to 0.74 for the five domains and the full scale. CFA results indicated that the proposed factor structure in the RBANS manual was not supported in this sample. EFA identified a two-factor structure for six of the 12 RBANS items. Six items were eliminated due to low correlation with other items or severe ceiling effects. This new factor structure was validated by another CFA. The two domains have fair reliability. Cronbach's alpha ranged from 0.65 to 0.74 for the two factors in the two datasets. These results suggest that the current RBANS domain and total scores may not provide valid measurement of the neuropsychological status for patients with early PD.
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PMID:Repeatable battery for assessment of neuropsychological status in early Parkinson's disease. 1945 61

The study was aimed at investigating in vivo and in vitro the involvement of the cGMP/cGMP-dependent protein kinase (PKG) signaling pathway in MPP(+)-induced cytosolic phospholipase A(2) (cPLA(2)) activation of dopaminergic neurons. MPP(+) activated neuronal nitric oxide synthase (NOS)/soluble guanylyl cyclase/cGMP pathway in mouse midbrain and striatum, and in pheochromocytoma cell line 12 cells, and caused an upward shift in [Ca(2+)](i) level in the latter. The activation was accompanied by increases in total and phosphorylated cPLA(2), and increased arachidonic acid release. Effects of selective inhibitors [2-oxo-1,1,1-trifluoro-6,9-12,15-heneicosatetraene (AACOCF(3)), (E)-6-(bromomethylene)tetrahydro-3-(1-naphthalenyl)2h-pyran-2-one (BEL)] indicated the main impact of cPLA(2) on arachidonic acid release in pheochromocytoma cell line 12 cells. Treatment of the cells with the protein kinase inhibitors GF102610x, UO126, and KT5823, and with the nitric oxide synthase (NOS) inhibitor NNLA revealed the involvement of protein kinase C (PKC) and extracellular signal-regulated kinases 1 and 2 (ERK 1/2), with the possible key role of PKG, in cPLA(2) phosphorylation at Ser505. Inhibitors of cPLA(2) and PKG increased viability and reduced MPP(+)-induced apoptosis of the cells. Our results indicate that the neuronal NOS/cGMP/PKG pathway stimulates cPLA(2) phosphorylation at Ser505 by activating PKC and ERK1/2, and suggest that up-regulation of this pathway in experimental models of Parkinson's disease may mediate dopaminergic neuron degeneration and death through activation of cPLA(2).
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PMID:Involvement of multiple protein kinases in cPLA2 phosphorylation, arachidonic acid release, and cell death in in vivo and in vitro models of 1-methyl-4-phenylpyridinium-induced parkinsonism--the possible key role of PKG. 1945 7

LRRK2 is an autosomal dominant gene whose mutations cause familial Parkinson's disease (PD). The LRRK2 protein contains a functional kinase and a GTPase domain. PD phenotypes caused by LRRK2 mutations are similar to those of idiopathic PD, implying that LRRK2 is an important participant in PD pathogenesis. Of LRRK2's PD-specific mutations, the G2019S is the most frequently observed one. Its over-expression is known to increase kinase activity and neurotoxicity compared to wild type (WT) LRRK2. Here, using a simple colorimetric cell viability assay, we analyzed LRRK2's neurotoxicity in dopaminergic SN4741 cells following treatment with hydrogen peroxide. When WT, G2019S, or empty vector was expressed in SN4741 cells, cell death was modestly and significantly increased in the order of G2019S>WT>vector. When these transfected cells were treated with hydrogen peroxide to mimic oxidative stress, cellular neurotoxicity was enhanced in the same order (i.e. G2019S>WT>vector). Moreover, incubation of SN4741 cells with conditioned medium from cells expressing G2019S and subjected to hydrogen peroxide treatment exhibited 10-15% more cell death than conditioned medium from cells transfected with vector or WT, suggesting that G2019S-expressing cells secrete a factor(s) affecting viability of neighboring cells. The kinase domain was mapped to be responsible for oxidative stress-induced neurotoxicity. In addition, over-expression of WT and G2019S LRRK2 lead to a weak, but significant, increase in intracellular reactive oxygen species (ROS) in the order of G2019S>WT as measured by DCFH-DA assay in both the presence and absence of H(2)O(2) treatment. Furthermore, in G2019S-expressing cells, co-expression of the anti-oxidant protein DJ-1 or ERK inhibitor treatment restored survival rate to a level similar to that of cells transfected with control vector under H(2)O(2) treatment. Taken together, our data suggest that the LRRK2 kinase domain increases the generation of ROS and causes enhanced neurotoxicity under H(2)O(2) treatment, which can be at least partially rescued by DJ-1 or the ERK inhibitor.
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PMID:LRRK2 enhances oxidative stress-induced neurotoxicity via its kinase activity. 1976 64

PD is a neurodegenerative disorder triggered by genetic and/or environmental factors and the pathological processes begin many years before motor symptom manifestation. Several drugs are available to treat PD, but there are still many aspects of the disease that have not been well addressed. These include nonmotor symptoms, disease progression, and preventing levodopa-induced motor complications. Besides the concept of continuous dopaminergic stimulation, the benefit of which has not been proved in clinical settings (see the STRIDE-PD trial), the nondopaminergic drugs offer promising alternatives to dopaminergic medication. However, modification and further development of dopaminergic molecules may provide significant symptomatic improvement and improved quality of life. In this review, we summarized new treatments that are in the pipeline, with patients being recruited for clinical trials. Among the compounds being studied are well-known ones (e.g., folic acid or methylphenidate), which have been used in other diseases, and newly developed drugs with known mode of action (e.g., the dopamine agonist aplindore) or compounds with completely new mechanisms, which have not yet been used in clinical settings (e.g., levetiracetam or Neu 120). A major breakthrough in treating Parkinson's disease cannot be expected with molecules from the first two cases, whereas significant clinical benefits can be predicted with the drugs in the last group. However, without these large-scale, well-designed, multicenter trials, the promising preclinical results cannot be directly adopted in patient care. Hopefully, some of these trials will end soon with positive results, and certain drugs will become available with which to treat PD patients, although still many aspects (e.g., the most problematic one, the question of neuroprotection) still need to be addressed.
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PMID:Novel therapeutic strategies in Parkinson's disease. 1983 98

Genetic mutations associated with alpha-synuclein (alpha-Syn) are implicated in the pathogenesis of Parkinson's disease (PD). PD is primarily a movement disorder, but patients are known to experience anxiety and other mood disorders. In this study, we examined the effect of the hA53T mutation during development by analyzing the protein expression of norepinephrine (NET), serotonin (SERT), and dopamine (DAT) transporters in addition to assessing locomotor and anxiety-like behavior. We observed significant decreases in DAT expression at 8 months in transgenic animals compared with normal and younger mice. We used the elevated plus maze, open-field test, and rotarod apparatus to evaluate wild-type and hA53T hemizygous mice at 2, 8, and 12 months of age. Our results showed that 12-month-old transgenic mice spend more time in the open arms and display a greater number of open entries of the elevated plus maze compared with wild-type controls and younger mice. Open-field test results showed that 12-month-old mice travel a greater distance overall and travel more in the inner zone than either wild-type or younger mice. Rotarod testing showed that 8- and 12-month-old transgenic mice perform better than either wild-type controls or younger mice. Overall, 8-12-month-old transgenic mice showed a trend toward reduced anxiety-like behavior and increased hyperactivity. These results indicate a possible role of the A53T alpha-Syn mutation in anxiety-like and hyperactive behaviors in a PD mouse model, suggesting that these behaviors might be comorbid with this disease.
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PMID:Mice expressing the A53T mutant form of human alpha-synuclein exhibit hyperactivity and reduced anxiety-like behavior. 2007 28

Neurodegenerative diseases such as Alzheimer's disease, Parkinson's disease, and Huntington's disease and conditions such as ischemic stroke affect millions of individuals annually and exert an enormous financial burden on society. A hallmark of these conditions is the abnormal loss of neurons. Currently, there are no effective strategies to prevent neuronal death in these pathologies. We report that several 2-arylidine and 2-hetarylidin derivatives of the 1,4-benzoxazines class of compounds are highly protective in tissue culture models of neurodegeneration. Results obtained using pharmcalogical inhibitors indicate that neuroprotection by these compounds does not involve the Raf-MEK-ERK or PI-3 kinase-Akt signaling pathways nor other survival-promoting molecules such as protein kinase A (PKA), calcium calmodulin kinase A (CaMK), and histone deacetylases (HDACs). We tested one of these compounds, (Z)-6-amino-2-(3',5'-dibromo-4'-hydroxybenzylidene)-2H-benzo[b][1,4]oxazin-3(4H)-one, designated as HSB-13, in the 3-nitropropionic acid (3-NP)-induced mouse model of Huntington's disease. HSB-13 reduced striatal degeneration and improved behavioral performance in mice administered with 3-NP. Furthermore, HSB-13 was protective in a Drosophila model of amyloid precursor protein (APP) toxicity. To understand how HSB-13 and other 1,4-benzoxazines protect neurons, we performed kinase profiling analyses. These analyses showed that HSB-13 inhibits GSK3, p38 MAPK, and cyclin-dependent kinases (CDKs). In comparison, another compound, called ASK-2a, that protects cerebellar granule neurons against low-potassium-induced death inhibits GSK3 and p38 MAPK but not CDKs. Despite its structural similarity to HSB-13, however, ASK-2a is incapable of protecting cortical neurons and HT22 cells against homocysteic acid (HCA)-induced or Abeta toxicity, suggesting that protection against HCA and Abeta depends on CDK inhibition. Compounds described in this study represent a novel therapeutic tool in the treatment of neurodegenerative diseases.
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PMID:Identification of novel 1,4-benzoxazine compounds that are protective in tissue culture and in vivo models of neurodegeneration. 2014 21

Neurotrophic factors promote survival, proliferation and differentiation of neurons inducing intracellular signaling via specific receptors. The conventional biochemical methods often fail to reveal full repertoire of neurotrophic factor-receptor interactions because of their limited sensitivity. We evaluated several approaches to study signaling of Glial cell line-Derived Neurotrophic Factor (GDNF) family ligands and found that reporter-gene systems possess exceptionally high sensitivity and a heuristic power to identify novel biologically relevant growth factor-receptor interactions. We identified persephin, a GDNF family member, as a novel ligand for GFRalpha1/RET receptor complex. We confirmed this finding by several independent methods, including neurite outgrowth assay from the explants of sympathetic ganglia expressing Gfralpha1 and Ret mRNA but not persephin's conventional receptor GFRalpha4. As the activation of GFRalpha1/RET was shown to rescue dopaminergic neurons, our results suggest the potential of persephin for the treatment of Parkinson's disease.
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PMID:Persephin signaling through GFRalpha1: the potential for the treatment of Parkinson's disease. 2035 May 99

The mechanisms underlying the selective death of substantia nigra (SN) neurons in Parkinson disease (PD) remain elusive. While inactivation of DJ-1, an oxidative stress suppressor, causes PD, animal models lacking DJ-1 show no overt dopaminergic (DA) neuron degeneration in the SN. Here, we show that aging mice lacking DJ-1 and the GDNF-receptor Ret in the DA system display an accelerated loss of SN cell bodies, but not axons, compared to mice that only lack Ret signaling. The survival requirement for DJ-1 is specific for the GIRK2-positive subpopulation in the SN which projects exclusively to the striatum and is more vulnerable in PD. Using Drosophila genetics, we show that constitutively active Ret and associated Ras/ERK, but not PI3K/Akt, signaling components interact genetically with DJ-1. Double loss-of-function experiments indicate that DJ-1 interacts with ERK signaling to control eye and wing development. Our study uncovers a conserved interaction between DJ-1 and Ret-mediated signaling and a novel cell survival role for DJ-1 in the mouse. A better understanding of the molecular connections between trophic signaling, cellular stress and aging could uncover new targets for drug development in PD.
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PMID:Pro-survival role for Parkinson's associated gene DJ-1 revealed in trophically impaired dopaminergic neurons. 2038 24

We explored the effect of single-nucleotide polymorphisms (SNPs) in the fibroblast growth factor 20 gene (FGF20) associated with risk for Parkinson's disease on brain structure and function in a large sample of healthy young-adult human subjects and also in elderly subjects to look at the interaction between genetic variations and age (N = 237; 116 men; 18-87 years). We analyzed high-resolution anatomical magnetic resonance images using voxel-based morphometry, a quantitative neuroanatomical technique. We also measured FGF20 mRNA expression in postmortem human brain tissue to determine the molecular correlates of these SNPs (N = 108; 72 men; 18-74 years). We found that the T allele carriers of rs12720208 in the 3'-untranslated region had relatively larger hippocampal volume (p = 0.0059) and diminished verbal episodic memory (p = 0.048) and showed steeper decreases of hippocampal volume with normal aging (p = 0.026). In postmortem brain, T allele carriers had greater expression of hippocampal FGF20 mRNA (p = 0.037), consistent with a previously characterized microRNA mechanism. The C allele matches a predicted miR-433 microRNA binding domain, whereas the T allele disrupts it, resulting in higher FGF20 protein translation. The strong FGF20 genetic effects in hippocampus are presumably mediated by activation of the FGFR1 (FGF receptor 1), which is expressed in mammalian brain most abundantly in the hippocampus. These associations, from mRNA expression to brain morphology to cognition and an interaction with aging, confirm a role of FGF20 in human brain structure and function during development and aging.
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PMID:Genetic variation in FGF20 modulates hippocampal biology. 2042 58


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