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)

We investigated the dopaminergic (DA) neuronal degeneration in animals subjected to systemic treatment of rotenone via subcutaneous delivery. Behavioral observations revealed a hypokinetic period in rats sacrificed at 3 and 5 days, and dystonic episodes in animals sacrificed at 8 days. Less than 20% of the total number of animals given rotenone depicted brain lesions after 8 days of treatment, as demonstrated by a significant loss of DA fibers in the striatum, but not of DA nigral neurons. Tyrosine hydroxylase-negative striatal territories were characterized by post-synaptic toxicity as demonstrated by a decreased number of interneurons labeled for choline acetyltransferase, NADPH-diaphorase, parvalbumin, and projection neurons labeled for calbindin and nerve growth factor inducible-B (NGFI-B). Post-synaptic neurodegeneration was demonstrated further by abundant striatal staining for Fluoro-Jade. Decrease in the nuclear orphan receptor Nurr1 expression was the only significant change observed at the level of the substantia nigra. Autopsy reports confirmed that animals suffered from severe digestion problems. These data suggest that hypokinesia observed between 3 and 5 days is the result of general health problems rather than a specific motor deficit associated to Parkinson's disease (PD) symptoms. Overall, the effects of rotenone toxicity are widespread, and subcutaneous administration of this toxin does not provide the neuropathological and behavioral basis for a relevant and reliable PD model.
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PMID:Rotenone induces non-specific central nervous system and systemic toxicity. 1476 96

For therapeutic and prognostic reasons it is important to differentiate between idiopathic parkinsonian syndrome (IPS, Parkinson's disease) and atypical parkinsonian syndromes (APS) like multiple system atrophy or progressive supranuclear palsy. Whereas IPS patients usually show a normal or upregulated postsynaptic dopamine D2 receptor profile, APS patients present decreased postsynaptic tracer binding. The aim of this prospective study was to evaluate the D2 receptor antagonist fluorine-18 desmethoxyfallypride (18F-DMFP), a recently developed positron emission tomography (PET) tracer with better clinical availability than carbon-11 raclopride, for the differential diagnosis of IPS versus APS. The study included 16 healthy control subjects and 35 patients with clinically diagnosed parkinsonism (16 IPS patients, 19 APS patients). All patients underwent PET imaging after injection of 180-200 MBq 18F-DMFP. Receiver operating characteristic (ROC) analyses were performed in order to assess the diagnostic performance of 18F-DMFP PET. We found the striatal 18F-DMFP uptake ratio to be significantly (P<0.01) reduced in the APS patients (2.44+/-0.42) compared with the healthy control subjects (3.61+/-0.43) and the IPS patients (3.21+/-0.78), whereas the uptake ratios of the IPS patients and the control subjects did not differ significantly. For the differential diagnosis of APS versus IPS, the ROC analysis of caudate 18F-DMFP binding showed a specificity, sensitivity and accuracy of 100%, 74% and 86%, respectively, as well as positive and negative predictive values of 100% and 76%, respectively. Based on these first clinical results, we consider 18F-DMFP to be an appropriate PET tracer for the differential diagnosis of parkinsonian syndromes, with the advantage of better clinical availability than 11C-labelled D2 radioligands.
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PMID:The dopamine D2 receptor ligand 18F-desmethoxyfallypride: an appropriate fluorinated PET tracer for the differential diagnosis of parkinsonism. 1504 25

Nicotinic acetylcholine receptors are involved in tobacco dependence and several other neuropathologies (e.g., Alzheimer's disease, Parkinson's disease), as well as in attention, learning, and memory. Performing in vivo imaging of these receptors in humans holds great promise for understanding their role in these conditions. Recently, three radiohalogenated analogs of 3-(2(S)-azetidinylmethoxy)pyridine (A- 85380) were used successfully for the in vivo visualization of alpha4beta2* nicotinic receptors in the human brain with PET/SPECT. Herein, we present the results of the in vitro characterization of one of these radioligands, 6-[18F]fluoro-3-(2(S)-azetidinylmethoxy)-pyridine (6-[18F]fluoro-A-85380), which is a fluoro-analog of the potent nonopioid analgesic ABT-594. In human postmortem cortical tissue, 6-[18F]fluoro-A-85380 reversibly binds with high affinity to a single population of sites (Kd = 59 pM at 37 degrees C, Bmax = 0.7 pmol/g tissue). The binding is fully reversible and is characterized at 37 degrees C by T(1/2assoc) = 2.2 min (at a ligand concentration of 39 pM) and by T(1/2dissoc) = 3.6 min. 6-Fluoro-A-85380 exhibits clear selectivity for alpha4beta2* over the other major mammalian nicotinic receptor subtypes: alpha7, alpha3beta4, and muscle-type. These results suggest that 6-[18F]fluoro-A-85380 is a promising radioligand for in vivo imaging of brain alpha4beta2* nicotinic receptors.
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PMID:In vitro characterization of 6-[18F]fluoro-A-85380, a high-affinity ligand for alpha4beta2* nicotinic acetylcholine receptors. 1552 32

To address the hypothesis that reactive astrocytes in the basal ganglia of an animal model of Parkinson's disease serve neurotrophic roles, we studied the expression pattern of neurotrophic factors in the basal ganglia of C57/Bl mice that had been treated with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) to induce the degeneration of nigral dopamine neurons and parkinsonism. MPTP induced significant neuronal degeneration in the substantia nigra pars compacta as detected with Fluoro-Jade B staining, and this was accompanied by an increase in nestin-expressing astrocytes within the caudate-putamen. The number of nestin-positive reactive astrocytes in the caudate-putamen peaked within 3-5 days following MPTP treatment and then declined progressively toward the basal level by 21 days after treatment. Immunofluorescence and confocal microscopy confirmed coexpression of nestin or Ki-67 (cell proliferation marker) in glial fibrillary acid protein-positive astrocytes in the caudate-putamen. Double immunolabeling further revealed immunoreactivities for nerve growth factor (NGF), neurotrophin-3 (NT3), and glial cell line-derived neurotrophic factor (GDNF) in nestin-positive reactive astrocytes. Semiquantification of data obtained from mice 5 days after MPTP injection indicated that the majority of nestin-expressing cells expressed NGF (92%), NT3 (90%), or GDNF (86%). Our results present novel evidence of neurotrophic features among reactive astrocytes in the dopamine-depleted striatum. These nestin-expressing reactive astrocytes may therefore play neurotrophic roles in neural remodeling of the basal ganglia in Parkinson's disease.
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PMID:Localization of nerve growth factor, neurotrophin-3, and glial cell line-derived neurotrophic factor in nestin-expressing reactive astrocytes in the caudate-putamen of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine-treated C57/Bl mice. 1680 32

Polychlorinated biphenyls (PCBs) are persistent environmental contaminants that are highly toxic to the developing nervous system, particularly via their disruption of dopamine (DA) function. In order to characterize the effects of PCBs on the developing basal ganglia DA system, we utilized an organotypic coculture system of developing rat striatum and ventral mesencephalon (VM). Exposure of the cocultures to an environmentally relevant mixture of PCBs for 1, 3, 7, or 14 days reduced tissue DA concentrations and increased medium levels of DA, homovanillic acid, and 3,4-dihydroxyphenylacetic acid. PCB exposure also increased neuronal cell death in both the VM and the striatum and reduced the number of DA neurons in the VM. Decreases in both tyrosine hydroxylase and DA transporter protein expression were shown by Western blot analysis in PCB-exposed cocultures. There was also an increase in neuronal cell death, identified by Fluoro Jade B, prior to a reduction in the number of VM DA neurons; we hypothesize this increase to be partly due to a loss of gamma-aminobutyric acid (GABA) neurons. Indeed, Western blot analysis revealed up to a 50% reduction in both VM and striatal glutamic acid decarboxylase 65/67. Analysis of tissue PCB levels revealed that concentrations were at or below 10 ppm following all exposure paradigms. This coculture system provides an excellent model to examine the chronology of PCB-induced neurotoxic events in the developing basal ganglia. Our results suggest that PCB-induced neurotoxicity in the developing basal ganglia involves GABAergic neuronal dysfunction, in addition to PCBs' better-recognized effects on DA function. These findings have important implications for disease states such as Parkinson's disease and for developmental deficits associated with exposure to PCBs and toxicologically similar environmental contaminants.
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PMID:Polychlorinated biphenyl-induced neurotoxicity in organotypic cocultures of developing rat ventral mesencephalon and striatum. 1732 53

We have evaluated the possibility that changes in the vascular system may constitute a contributing factor for the death of nigral dopaminergic neurons in Parkinson's disease. Thus, we have employed intranigral injections of vascular endothelial growth factor (VEGF), the most potent inducer of blood-brain barrier (BBB) permeability. A single dose of 1 mug of VEGF, chosen from a dose-response study, highly disrupted the BBB in the ventral mesencephalon in a time-dependent manner. A strong regional correlation between BBB disruption and loss of tyrosine hydroxylase-positive neurons was evident. Moreover, Fluoro-Jade B labelling showed the presence of dying neurons in the substantia nigra in response to VEGF injection. High number of TUNEL-positive nuclei was observed in this area along with activation of caspase 3 within nigral dopaminergic neurons. Analysis of the glial population demonstrated a strong inflammatory response and activation of astroglia in response to BBB disruption. We conclude that disruption of the BBB may be a causative factor for degeneration of nigral dopaminergic neurons.
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PMID:Blood-brain barrier disruption induces in vivo degeneration of nigral dopaminergic neurons. 1743 43

Neurokinin peptides neurokinin-1 (NK1), neurokinin-3 (NK3), and related receptors are abundantly distributed in the substantia nigra (SN) and evidenced by their possible roles in the Parkinson's disease. Differential intervention roles of NK3 on kainic acid (KA)-induced neuronal injury in the SN of mice were thus in vitro and in vivo studied by Fluoro-Jade C (FJC) staining, immunohistochemistry to tyrosine hydroxylase (TH) or phospho-NMDA receptor, and 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay. It revealed that (i) in contrast to protective effect of NK1 agonist septide that reduced FJC-positive degenerative neurons and lesion volume insulted by KA, NK3 agonist senktide significantly increased FJC-positive ones and lesion volume, and this effect was sufficiently reversed by NK3 antagonist SB218795; (ii) similarly, senktide reduced TH-positive neurons and this effect was antagonized by SB218795, but septide increased TH-positive ones; (iii) mechanistic observation showed differential influences of NK1 and NK3 agonists on phosphorylated-NMDA receptor subunit 1 (phospho-NMDAR1) and glial fibrillary acidic protein-expressing astrocytes, i.e. senktide enhanced of NMDA receptor phosphorylation and astrocyte activity, while septide reduced NMDA receptor phosphorylation and astrocytic response; (iv) cell culture further confirmed the exacerbating effect of NK3 agonist on KA-induced lesion of nigral cells or dopaminergic neurons, in which administration of senktide alone did not show significant cell toxicity. This study presents new evidence that neurokinin NK3 instead of NK1 synergistically exacerbate excitotoxic neuronal degeneration in the SN in a dose-dependent manner and possibly through modulation of NMDA receptor phosphorylation and astrocyte activity, suggesting their potential significance in novel pharmaceutical therapy against Parkinson's disease.
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PMID:Neurokinin-3 peptide instead of neurokinin-1 synergistically exacerbates kainic acid-inducing degeneration of neurons in the substantia nigra of mice. 1802 Dec 94

Defects in cellular quality control mechanisms are thought to contribute to the neuropathology of Parkinson's disease (PD). Overexpressing heat shock proteins (HSPs) may constitute a powerful therapeutic strategy for PD, because they boost the ability of the cell to eliminate unwanted proteins. We investigated the neuroprotective potential of HSP70, HSP40, and H-BH, a constitutively active form of heat shock factor 1, in a rat model of PD based on adeno-associated virus (AAV) vector-mediated overexpression of CDCrel-1, a parkin substrate known to be toxic to dopaminergic neurons. AAV vector-mediated overexpression of H-BH and of HSP70 afforded similar levels of protection against CDCrel-1 toxicity, with approximately 20% improvement in survival of dopaminergic neurons as compared to the controls. The assessment of protection conferred was made using tyrosine hydroxylase (TH) and HuC/D immunohistochemistry and Fluoro-Gold retrograde tracing, and by observing the extent of preservation of spontaneous function and also the extent of drug-induced motor function. In contrast to H-BH and HSP70, HSP40 overexpression exacerbated CDCrel-1-mediated cell death. Real-time reverse transcriptase (RT)-PCR analysis showed that H-BH had the effect of upregulating endogenous HSP70 and HSP40 mRNA levels 10-fold and 4-fold over basal levels, respectively, whereas AAV vector-mediated HSP70 and HSP40 mRNA levels were over 100-fold higher. Our results suggest that a comparatively modest upregulation of multiple HSPs may be an effective approach for achieving significant neuroprotection in PD.
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PMID:HSP70 and constitutively active HSF1 mediate protection against CDCrel-1-mediated toxicity. 1839 26

The causes of most cases of Parkinson's disease (PD) are still poorly understood. Here we show that chronic stress and elevated corticosterone levels exaggerate motor deficits and neurodegenerative events in a Parkinson's disease rat model. Animals were tested in skilled and non-skilled movement while being exposed to daily restraint stress or oral corticosterone treatment. Stress and corticosterone compromised normal motor function and exaggerated motor deficits caused by unilateral 6-hydroxydopamine lesion of the nigrostriatal bundle. Moreover, stress and corticosterone treatments diminished the ability to acquire compensatory strategies in limb use during skilled reaching and skilled walking. In contrast, lesion control animals were able to significantly improve in the ability of skilled limb use during the repeated test sessions. The exaggerated motor impairments in stress-treated animals were related to accelerated loss of midbrain dopamine-producing neurons during the first week postlesion. Correlation analysis revealed a significant connection between loss of tyrosine hydroxylase-positive cells and increase in Fluoro-Jade-positive cells only in stress- and corticosterone-treated animals. Furthermore, stress and elevated corticosterone levels caused greater permanent loss of midbrain neurons than found in non-treated lesion animals. These findings demonstrate that stress and elevated corticosterone levels can exaggerate nigral neuronal loss and motor symptoms in a rat analogue of PD. It is therefore possible that stress represents a key factor in the pathogenesis of human PD by impeding functional and structural compensation and exaggerating neurodegenerative processes.
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PMID:Stress accelerates neural degeneration and exaggerates motor symptoms in a rat model of Parkinson's disease. 1841 32

The proper filling of apolar pockets at enzyme active sites is central for increasing binding activity and selectivity of hits and leads in medicinal chemistry. In our structure-based design approach toward the generation of potent enzyme inhibitors, we encountered a variety of challenges in gaining suitable binding affinity from the occupation of such pockets. We summarize them here for the first time. A fluorine scan of tricyclic thrombin inhibitors led to the discovery of favorable orthogonal dipolar C-F...CO interactions. Efficient cation-pi interactions were established in the S4 pocket of factor Xa, another serine protease from the blood coagulation cascade. Changing from mono- to bisubstrate inhibitors of catechol O-methyltransferase, a target in the L-Dopa-based treatment of Parkinson's disease, enabled the full exploitation of a previously unexplored hydrophobic pocket. Conformational preorganization of a pocket at an enzyme active site is crucial for harvesting binding affinity. This is demonstrated for two enzymes from the nonmevalonate pathway of isoprenoid biosynthesis, IspE and IspF, which are pursued as antimalarial targets. Disrupting crystallographically defined water networks on the way into a pocket might cost all of the binding free enthalpy gained from its occupation, as revealed in studies with tRNA-guanine transglycosylase, a target against shigellosis. Investigations of the active site of plasmepsin II, another antimalarial target, showed that principles for proper apolar cavity filling, originally developed for synthetic host-guest systems, are also applicable to enzyme environments.
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PMID:Structure-based drug design: exploring the proper filling of apolar pockets at enzyme active sites. 1851 Mar 66


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