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)

The synucleinopathy known as idiopathic Parkinson's disease (IPD) is a multi-system disorder in the course of which only a few predisposed nerve cell types in specific regions of the human brain become progressively involved. The underlying neuropathological process (formation of proteinaceous intraneuronal inclusion bodies) intracerebrally begins in clearly defined induction sites and advances in a topographically predictable sequence. Components of the autonomic, limbic, and motor systems sustain especially heavy damage. During the presymptomatic stages 1 and 2, the IPD-related inclusion body pathology remains confined to the medulla oblongata and olfactory bulb. In stages 3 and 4, the substantia nigra and other nuclear grays of the midbrain and basal forebrain are the focus of initially subtle and, then, severe changes. The illness reaches its symptomatic phase. In end-stages 5 and 6, the pathological process encroaches upon the telencephalic cortex. IPD manifests itself in all of its dimensions, which under the influence of the supervening cortical pathology are subject to increasing complexity.
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PMID:Staging of the intracerebral inclusion body pathology associated with idiopathic Parkinson's disease (preclinical and clinical stages). 1252 92

A dysfunction of noradrenergic mechanisms originating in the locus coeruleus has been hypothesised to be the critical factor underlying the evolution of central neurodegenerative diseases [Colpaert FC (1994) Noradrenergic mechanism Parkinson's disease: a theory. In: Noradrenergic mechanisms in Parkinson's disease (Briley M, Marien M, eds) pp 225-254. Boca Raton, FL, USA: CRC Press Inc.]. alpha(2)-Adrenoceptor antagonists, presumably in part by facilitating central noradrenergic transmission, afford neuroprotection in vivo in models of cerebral ischaemia, excitotoxicity and devascularization-induced neurodegeneration. The present study utilised the rat olfactory bulb as a model system for examining the effects of the selective alpha(2)-adrenoceptor antagonist dexefaroxan upon determinants of neurogenesis (proliferation, survival and death) in the adult brain in vivo. Cell proliferation (5-bromo-2'-deoxyuridine labelling) and cell death associated with DNA fragmentation (terminal dideoxynucleotidyl transferase-catalysed 2'-deoxyuridine-5'-triphosphate nick end-labelling assay) were quantified following a 7-day treatment with either vehicle or dexefaroxan (0.63 mg/kg i.p., three times daily), followed by a 3-day washout period. The number of terminal dideoxynucleotidyl transferase-catalysed 2'-deoxyuridine-5'-triphosphate nick end-labelling-positive nuclei in the olfactory bulb was lower in dexefaroxan-treated rats, this difference being greatest and significant in the subependymal layer (-52%). In contrast, 5-bromo-2'-deoxyuridine-immunoreactive nuclei were more numerous (+68%) in the bulbs of dexefaroxan-treated rats whilst no differences were detected in the proliferating region of the subventricular zone. Terminal dideoxynucleotidyl transferase-catalysed 2'-deoxyuridine-5'-triphosphate nick end-labelling combination with glial fibrillary acidic protein or neuronal-specific antigen immunohistochemistry revealed that terminal dideoxynucleotidyl transferase-catalysed 2'-deoxyuridine-5'-triphosphate nick end-labelling-positive nuclei were associated primarily with a neuronal cell phenotype. These findings suggest that dexefaroxan increases neuron survival in the olfactory bulb of the adult rat in vivo, putatively as a result of reducing the apoptotic fate of telencephalic stem cell progenies.
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PMID:Effects of the alpha 2-adrenoreceptor antagonist dexefaroxan on neurogenesis in the olfactory bulb of the adult rat in vivo: selective protection against neuronal death. 1261 70

There has been an increase of interest in olfactory dysfunction since it was realised that anosmia was a common feature of idiopathic Parkinson's disease (PD) and Alzheimer-type dementia (AD). It is an intriguing possibility that the first sign of a disorder hitherto regarded as one of movement or cognition may be that of disturbed smell sense. In this review of PD, parkinsonian syndromes, essential tremor, AD, motor neurone disease (MND) and Huntington's chorea (HC) the following observations are made: 1). olfactory dysfunction is frequent and often severe in PD and AD; 2). normal smell identification in PD is rare and should prompt review of diagnosis unless the patient is female with tremor-dominant disease; 3). anosmia in suspected progressive supranuclear palsy and corticobasal degeneration is atypical and should likewise provoke diagnostic review; 4). hyposmia is an early feature of PD and AD and may precede motor and cognitive signs respectively; 5). subjects with anosmia and one ApoE-4 allele have an approximate 5-fold increased risk of later AD; 6). impaired smell sense is seen in some patients at 50% risk of parkinsonism; 7). smell testing in HC and MND where abnormality may be found, is not likely to be of clinical value; and 8). biopsy of olfactory nasal neurons shows non-specific changes in PD and AD and at present will not aid diagnosis.
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PMID:Olfaction in neurodegenerative disorder. 1267 41

To study the incidence and topographic distribution of alpha-synuclein-positive inclusions in Parkinson's disease (PD), dementia with LB (DLB), and Alzheimer's disease (AD), 206 brains of elderly patients, including 53 patients with clinical PD, 110 autopsy-proven AD cases, 22 with dementia with LB (DLB), 1 case with essential tremor, and 20 age-matched controls were investigated using alpha-synuclein immunohistochemistry. For technical reasons, the olfactory system was not studied. In all PD brains, alpha-synuclein-positive inclusions and neuronal losses were present in medullary and pontine nuclei, locus coeruleus, and substantia nigra, with additional lesions in amygdala (24%), allocortex (58%), cingulate area (34%), and isocortex (26.5%). All PD cases corresponded to pathology stage 4-6 suggested by Braak et al. (2003, Neurobiol Aging 24:197). In most cases of DLB, the distribution of alpha-synuclein pathology and neurodegeneration corresponded to stages 5 and 6 of PD pathology. The case with essential tremor and 48.2% of the AD cases showed no LB pathology; in the other AD brains alpha-synuclein-positive inclusions were seen in various brain areas. None of the controls showed LB pathology. Among 12 cases of incidental Lewy body disease (without clinical parkinsonian signs), 7 corresponded morphologically to PD stage 3 or 4. In further 6 AD cases, 2 with parkinsonian symptoms, considerable damage to locus coeruleus, substantia nigra, nucleus basalis and allocortex with preservation of the medullary nuclei was seen. The preliminary data largely confirm the Braak staging of brain pathology, although some of the clinical PD cases corresponded to stage 3 often considered as "preclinical". In addition, some cases without demonstrable involvement of medullary nuclei showed extensive PD-like pathology in other brain areas, suggesting deviation from the proposed stereotypic expansion pattern and that incidental LB pathology may affect solely the locus coeruleus and substantia nigra. Striking similarity of LB pathology between DLB and PD suggests close morphological relationship between both disorders. Widespread LB lesions occurred in many sporadic AD cases without parkinsonian symptoms, the pathogenesis and clinical impact of which are unclear. The relationship between AD and PD with particular reference to alpha-synuclein-positive lesions needs further elucidation [corrected].
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PMID:Alpha-synuclein pathology in Parkinson's and Alzheimer's disease brain: incidence and topographic distribution--a pilot study. 1284 52

Olfactory dysfunction is a characteristic clinical sign in Parkinson's disease (PD); it is also present in multiple system atrophy (MSA). The pathological basis of hyposmia or anosmia in PD is well known: the olfactory bulb (OB) contains numerous Lewy bodies and severe neuronal loss is present in the anterior olfactory nucleus (AON). We established that glial cytoplasmic inclusions (GCIs) are present in all the OBs from MSA cases. Their presence in the OB is diagnostic for MSA. Additionally, neuronal loss is present in the AON in MSA. These pathological changes might be responsible for the olfactory dysfunction seen in MSA.
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PMID:Olfactory bulb in multiple system atrophy. 1288 86

Olfactory deficits have been reported in Parkinson's disease (PD) and are thought to represent a sensitive marker of the disease. The aim of the present study was to examine the differential contribution in olfactory dysfunction of perceptual and semantic processes of odours in PD patients. Twenty-four PD patients (12 males and 12 females) and 24 control subjects (12 males and 12 females) were tested. The experiment included two sessions. Initially, 12 odorants were delivered, one per minute. For each odour, subjects were asked to rate intensity, pleasantness, familiarity and edibility using linear rating scales. The odorants were again presented and the subjects were asked to identify them. The four olfactory judgements and odour identification were severely disturbed in PD patients when compared to control subjects. These findings demonstrate major deficits for all cognitive tasks of olfactory judgement in PD, and suggest that PD is associated with disruption of olfactory areas situated in the temporal lobes and also in the prefrontal cortex.
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PMID:Evidence for deficiencies in perceptual and semantic olfactory processes in Parkinson's disease. 1290 91

Olfactory dysfunction increases with disease severity in Alzheimer's disease (AD), is early and independent of disease severity in Parkinson's disease (PD), but is absent in progressive supranuclear palsy (PSP) and corticobasal degeneration (CBD). Previous histopathologic studies of olfactory bulbs in AD have shown neurofibrillary tangles (NFTs) and senile plaques while Lewy bodies (LBs) have been described in PD. Little is known about olfactory bulb pathology in PSP and CBD. Tau and alpha-synuclein pathology was assessed with immunohistochemistry in olfactory bulbs of AD (N=15), Lewy body disease (LBD; N=10), LBD with concurrent AD (AD/LBD; N=19), PSP (N=27), CBD (N=3) and cases with no significant neurodegenerative pathology (NSP; N=15). The Braak NFT stage, counts of senile plaques and NFT in cortical and hippocampal sections, and counts of LBs in amygdala and cortical sections were recorded for each case. Apolipoprotein E (APOE) genotypes were determined on DNA prepared from frozen brain tissue. All AD and AD/LBD cases and nine of 10 LBD cases had tau pathology in the anterior olfactory nucleus (AON), but it was uncommon in PSP (9/27), CBD (0/3) and NSP (5/15). Multiple linear regression analysis demonstrated that tau pathology in the AON correlated with Braak stage (P<0.001), cortical LB counts (P<0.001), as well as APOE epsilon4. Tau pathology is common in the olfactory bulb of AD and LBD but is minimal or absent in PSP and CBD. It correlates with APOE epsilon4, severity of tau pathology in the brain and surprisingly with cortical and amygdala LBs, suggesting a possible synergistic effect between tau and synuclein in the AON in cases with both pathologic processes.
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PMID:Tau pathology in the olfactory bulb correlates with Braak stage, Lewy body pathology and apolipoprotein epsilon4. 1450 42

An olfactory deficit is present in patients with essential tremor (ET), but it is often milder than that in patients with Parkinson's disease (PD). In both, the deficit occurs early in the disease. Isolated rest tremor without other signs of parkinsonism can occur in patients with ET. If the rest tremor in these patients represents a manifestation of ET rather than early PD, we hypothesized that their University of Pennsylvania Smell Identification Test (UPSIT) scores would be similar to those of ET patients without rest tremor. The mean UPSIT score in 13 ET patients with isolated rest tremor did not differ from that of 58 ET patients without rest tremor (29.3 +/- 4.3 vs. 29.4 +/- 6.4; P = 0.69). Several ET patients with rest tremor had UPSIT scores that fell outside of the range that is seen in 95% of patients with PD. These data raise the possibility that some ET patients with isolated rest tremor may not have early PD and that the pathological process that is responsible for their ET is also involving the basal ganglia.
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PMID:Olfaction in essential tremor patients with and without isolated rest tremor. 1463 89

Exposure of rats to the pesticide and complex I inhibitor rotenone reproduces features of Parkinson's disease, including selective nigrostriatal dopaminergic degeneration and alpha-synuclein-positive cytoplasmic inclusions (Betarbet et al., 2000; Sherer et al., 2003). Here, we examined mechanisms of rotenone toxicity using three model systems. In SK-N-MC human neuroblastoma cells, rotenone (10 nm to 1 microm) caused dose-dependent ATP depletion, oxidative damage, and death. To determine the molecular site of action of rotenone, cells were transfected with the rotenone-insensitive single-subunit NADH dehydrogenase of Saccharomyces cerevisiae (NDI1), which incorporates into the mammalian ETC and acts as a "replacement" for endogenous complex I. In response to rotenone, NDI1-transfected cells did not show mitochondrial impairment, oxidative damage, or death, demonstrating that these effects of rotenone were caused by specific interactions at complex I. Although rotenone caused modest ATP depletion, equivalent ATP loss induced by 2-deoxyglucose was without toxicity, arguing that bioenergetic defects were not responsible for cell death. In contrast, reducing oxidative damage with antioxidants, or by NDI1 transfection, blocked cell death. To determine the relevance of rotenone-induced oxidative damage to dopaminergic neuronal death, we used a chronic midbrain slice culture model. In this system, rotenone caused oxidative damage and dopaminergic neuronal loss, effects blocked by alpha-tocopherol. Finally, brains from rotenone-treated animals demonstrated oxidative damage, most notably in midbrain and olfactory bulb, dopaminergic regions affected by Parkinson's disease. These results, using three models of increasing complexity, demonstrate the involvement of oxidative damage in rotenone toxicity and support the evaluation of antioxidant therapies for Parkinson's disease.
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PMID:Mechanism of toxicity in rotenone models of Parkinson's disease. 1464 67

A2A adenosine receptors (A(2A)Rs) are expressed with the greatest abundance in the striatum and other nuclei of the basal ganglia. The segregated expression of A(2A)Rs on the GABAergic striatopallidal medium spiny neurons, where A(2A)R and D2 dopamine receptor mRNAs are colocalized, and the opposing functional interaction between adenosine and dopamine suggest that A(2A)Rs may be an important therapeutic target. To further explore the role of A(2A)Rs in the synaptic organization of the basal ganglia, the authors developed an antibody directed against the purified A(2A)R. Immunohistochemical studies in rat brain showed dense labeling of the neuropil in the striatum, nucleus accumbens, and olfactory tubercles with lighter labeling of terminals in the globus pallidus (GP), where A(2A)R transcript is not detected. Stimulation of A(2A)Rs on GP terminals may facilitate GABAergic signaling and contribute to the overactivation observed in Parkinson's disease (PD). Analysis at the ultrastructural level allowed a more detailed characterization of the mechanism(s) of A2A-mediated control of striatal output. In the striatum, terminals expressing A(2A)Rs accounted for 25% of the labeled elements. These presynaptic receptors may facilitate excitatory glutamatergic, inhibitory GABAergic, and possibly cholinergic striatal transmission. However, the majority of striatal A(2A)R immunoreactivity was found on postsynaptic elements, including dendrites of striatopallidal neurons, in which A(2A)R and GABA immunoreactivity is colocalized. Activation of these receptors may promote GABAergic signaling in striatopallidal output neurons and their local axon collaterals in the striatum. Many of the A2A-labeled dendrites were contacted by terminals forming asymmetric (excitatory) possibly glutamatergic synapses. Using the vesicular glutamate transporters (VGLUTs) as markers of glutamatergic terminals, the authors have found that VGLUT1-immunoreactive (ir) terminals make asymmetric contacts on A2A-ir spines and spine heads in the striatum, suggesting that regulation of striatal output by A(2A)R stimulation may involve facilitation of the cortical glutamatergic excitatory input to striatopallidal neurons. These ultrastructural findings suggest several pathways through which A2A receptor blockade may act to dampen the elevated striatopallidal GABAergic signaling that occurs in PD.
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PMID:Anatomy of adenosine A2A receptors in brain: morphological substrates for integration of striatal function. 1466 2


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