UMLS:C0030567 - FACTA Search

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Query: UMLS:C0030567 (Parkinson's disease)
63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to further characterize synaptic alterations following a severe lesion of the nigrostriatal system, the expression of synaptic marker proteins, synaptophysin and growth-associated protein-43 (GAP-43), was examined in various brain regions of 6-hydroxydopamine (6-OHDA)-treated rats, an animal model of Parkinson's disease. Unilateral nigrostriatal lesioning induced an increase in synaptophysin protein levels by 68% and 106% in the sensorimotor cortex and striatum, respectively, while changes in the level of GAP-43 were not observed. In contrast, 6-OHDA induced a 73% increase in the level of GAP-43 protein in the cerebellum. This increase was also confirmed with immunohistochemistry. The level of synaptophysin in the cerebellum remained unchanged in response to the lesion. These results suggest that a neurotoxic lesion of the nigrostriatal pathway differentially affects the expression of the two synaptic proteins and that plasticity-related changes in this model are not solely restricted to the nigrostriatal system. In addition, these results provide further evidence of the involvement of the cerebellum in the late response to a 6-OHDA lesion.
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PMID:Increase of GAP-43 in the rat cerebellum following unilateral striatal 6-OHDA lesion. 1576 16

The use of the potent neurotoxin MPTP in producing a model for Parkinson's disease (PD) has allowed us to dissect the cellular processes responsible for both selective neuronal vulnerability and neuroprotection in idiopathic PD. It has been suggested that vesicular monoamine transporters (VMATs) play a critical neuroprotective role in MPP+ toxicity. However, little is known about how this detoxificative sequestration in dopaminergic (DAergic) neurons is regulated at the molecular and cellular levels. Using the DAergic cell line MN9D as an in vitro model, we found that overexpression of VMAT2 (a neuronal isoform of VMATs) protects the transformants from MPP+-induced toxicity, consistent with the previous work on fibroblastic CHO cells. We further found that the MN9D cells displayed lower expression levels of secretory vesicle proteins such as synaptophysin. Overexpression of synaptophysin in MN9D cells can significantly increase the resistance of the transformants to MPP+ toxicity. The co-expression of VMAT2 and synaptophysin has shown synergistic protection for the transformants, suggesting a role of synaptophysin in the biogenesis of secretory vesicles and in influencing the targeting of VMAT2 to these vesicles. Our work indicates that both the expression level of VMAT2 and capacity of vesicular packaging of DA are important in protecting DAergic cells from MPP+ toxicity.
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PMID:Synaptophysin enhances the neuroprotection of VMAT2 in MPP+-induced toxicity in MN9D cells. 1602 84

The molecular mechanism of 1-methyl-4-phenylpyridinium (MPP+), a Parkinsonism-inducing neurotoxin, has been studied in PC12 cells. The cells treated with MPP+ (100 microM) induced a rapid increase in phosphorylation of tyrosine residues of several proteins, including synaptophysin, a major 38 kDa synaptic vesicle protein implicated in exocytosis. An accelerated release of dopamine by MPP+ correlated with phosphorylation of synaptophysin. Exposing the cells to MPP+ triggered reactive oxygen species (ROS) generation within 60 min of treatment and the said effect was blocked by mazindol, a dopamine uptake blocker. In addition, pretreatment with 50-100 microM of selegiline, a selective MAO-B inhibitor, significantly suppressed MPP+-mediated ROS generation. These effects of MPP+ result in the generation of ROS, which may be involved in neuronal degeneration seen in Parkinson's disease.
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PMID:Mechanism of 1-methyl-4-phenylpyridinium-induced dopamine release from PC12 cells. 1617 67

Vesicular monoamine transporter 2 (VMAT2) is responsible for packing dopamine into vesicles, and reduces the effects of neurotoxins by sequestering them into vesicles. In this report, we tested the hypothesis that VMAT2 is associated with Lewy body (LB) formation by immunohistochemical staining of midbrain and cortical sections of autopsied brains of patients with Parkinson's disease (PD) and diffuse Lewy body disease (DLBD) for VMAT2 using a polyclonal antibody against VMAT2. LBs in the substantia nigra (SN) of PD and DLBD were immunoreactive for VMAT2, especially in the peripheral zone. Previous electron microscopic studies also revealed the presence of numerous dense core vesicles around the LBs, suggesting that these vesicles are related to LB formation. Indeed, the presence of a few vesicle-linked proteins such as synaptophysin and chromogranin A in LBs has been reported. Together with the low expression of VMAT2 in the SN of PD, the involvement of VMAT2 in LBs of the SN suggests the association of this protein in the neurodegeneration of nigral neurons in PD.
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PMID:Positive immunoreactivity for vesicular monoamine transporter 2 in Lewy bodies and Lewy neurites in substantia nigra. 1638 70

Cannabinoid CB1 receptors are the most abundant G-protein-coupled receptors in the brain. Its presynaptic location suggests a role for cannabinoids in modulating the release of neurotransmitters from axon terminals by retrograde signaling. The neuroprotective effects of cannabinoid agonists in animal models of ischemia, seizures, hypoxia, Multiple Sclerosis, Huntington and Parkinson disease have been demonstrated in several reports. The proposed mechanism for the neuroprotection ranges from antioxidant effects, reduction of microglial activation and anti-inflammatory reaction to receptor-mediated reduction of glutamate release. In the present work, we analyzed the morphological changes induced by a chronic treatment with the synthetic cannabinoid receptor agonist, WIN 55,212-2, in four brain regions where the CB1 cannabinoid receptor is present in high density: the CA1 hippocampal area, corpus striatum, cerebellum and frontal cortex. After a twice-daily treatment for 14 days with the cannabinoid receptor agonist (3 mg/kg sc, each dose) to male Wistar rats (150-170 g), the expression of neurofilaments (Nf-160 and Nf-200), microtubule-associated protein-2 (MAP-2), synaptophysin (Syn) and glial fibrillary acidic protein (GFAP) was studied by immunohistochemistry and digital image analysis. Ultrastructural study of the synapses was done using electron microscopy. After the treatment, a significant increase in the expression of neuronal cytoskeletal proteins (Nf-160, Nf-200, MAP-2) was observed, but we did not find changes in the expression of GFAP, the main astroglial cytoskeletal protein. In cerebellum, there was an increase in Syn expression and in the number of synaptic vesicles, while, in the hippocampus, an increase in the Syn expression and in the thickness of the postsynaptic densities was observed. The results obtained from these studies provide evidences on the absence of astroglial reaction and a sprouting phenomena induced by the WIN treatment that might be a key contributor to the long-term neuroprotective effects observed after cannabinoid treatments in different models of central nervous system (CNS) injury reported in the literature.
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PMID:Neuronal cytoskeleton and synaptic densities are altered after a chronic treatment with the cannabinoid receptor agonist WIN 55,212-2. 1656 7

Neural stem cells (NSCs) possess high potencies of self-renewal and neuronal differentiation. We explored here whether transplantation of human NSCs cloned by v-myc gene transfer, HB1.F3 cells, is a feasible therapeutic option for Parkinson's disease. In vivo, green fluorescent protein-labeled HB1.F3 cells (200,000 viable cells in 3 microl of PBS) when stereotaxically transplanted (same-day lesion-transplant paradigm) into the 6-hydroxydopamine-lesioned striatum of rats significantly ameliorated parkinsonian behavioral symptoms compared with controls (vehicle, single bolus, or continuous minipump infusion of trophic factor, or killed cell grafts). Such graft-derived functional effects were accompanied by preservation of tyrosine hydroxylase (TH) immunoreactivity along the nigrostriatal pathway. Grafted HB1.F3 cells survived in the lesioned brain with some labeled with neuronal marker mitogen-activated protein 2 and decorated with synaptophysin-positive terminals. Furthermore, endogenous neurogenesis was activated in the subventricular zone of transplanted rats. To further explore the neuroprotective mechanisms underlying HB1.F3 cell transplantation, we performed cell culture studies and found that a modest number of HB1.F3 cells were TH and dopamine and cAMP-regulated phosphoprotein 32 positive, although most cells were nestin positive, suggesting a mixed population of mature and immature cells. Administration of the HB1.F3 supernatant to human derived dopaminergic SH-SY5Y cells and fetal rat ventral mesencephalic dopaminergic neurons protected against 6-hydroxydopamine neurotoxicity by suppressing apoptosis through Bcl-2 upregulation, which was blocked by anti-stem cell factor antibody alone, the phosphatidylinositol 3-kinase/Akt inhibitor LY294002 [2-(4-morpholinyl)-8-phenyl-1(4H)-benzopyran-4-one] alone, or a combination of both. These results suggest that HB1.F3 cell transplantation exerts neuroprotective effects against dopaminergic depletion in vitro and in vivo because of trophic factor secretion and neuronal differentiation.
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PMID:Transplantation of human neural stem cells exerts neuroprotection in a rat model of Parkinson's disease. 1713 12

Alpha-synuclein is a small soluble, cytosolic protein which associates with vesicular membranes. It is a component of intracellular Lewy bodies present in Parkinson's disease and a subset of Alzheimer's disease (AD). In addition, early studies identified a fragment of alpha-synuclein in the amyloid plaques of AD patients. Hypothesizing that alpha-synuclein might modify the AD pathogenic process, we crossed the Tg2576 strain of APP transgenic mice onto an alpha-synuclein knockout background to determine the effects of alpha-synuclein on Abeta production and plaque deposition. We found that alpha-synuclein deficiency does not affect the Abeta levels, nor does it alter the age of onset of plaque pathology. To our surprise, however, loss of alpha-synuclein leads to a significant increase in plaque load in all areas of the forebrain at 18 months of age. This is associated with an increase in another synaptic protein, synaptophysin. We thus conclude that alpha-synuclein is not involved in seeding of the plaques, but rather suppresses the progression of plaque pathology at advanced stages.
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PMID:Lack of alpha-synuclein increases amyloid plaque accumulation in a transgenic mouse model of Alzheimer's disease. 1736 39

alpha-Synuclein expression is increased in dopaminergic neurons challenged by toxic insults. Here, we assessed whether this upregulation is accompanied by pathologic accumulation of alpha-synuclein and protein modifications (i.e. nitration, phosphorylation, and aggregation) that are typically observed in Parkinson disease and in other synucleinopathies. A single injection of the neurotoxicant 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) to squirrel monkeys caused a buildup of alpha-synuclein but not of beta-synuclein or synaptophysin within nigral dopaminergic cell bodies. Immunohistochemistry and immunoelectron microscopy also revealed large numbers of dystrophic axons labeled with alpha-synuclein. Antibodies that recognize nitrated and phosphorylated (at serine 129) alpha-synuclein stained neuronal cell bodies and dystrophic axons in the midbrain of MPTP-treated animals. After toxicant exposure, alpha-synuclein deposition occurred at the level of neuronal axons in which amorphous protein aggregates were observed by immunoelectron microscopy. In a subset of these axons, immunoreactivity for alpha-synuclein was still evident after tissue digestion with proteinase K, further indicating the accumulation of insoluble protein. These data indicate that toxic injury can induce alpha-synuclein modifications that have been implicated in the pathogenesis of human synucleinopathies. The findings are also consistent with a pattern of evolution of alpha-synuclein pathology that may begin with the accumulation and aggregation of the protein within damaged axons.
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PMID:Pathologic modifications of alpha-synuclein in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated squirrel monkeys. 1864 23

Human neuroblastoma SH-SY5Y is a dopaminergic neuronal cell line which has been used as an in vitro model for neurotoxicity experiments. Although the neuroblastoma is usually differentiated by all-trans-retinoic acid (RA), both RA-differentiated and undifferentiated SH-SY5Y cells have been used in neuroscience research. However, the changes in neuronal properties triggered by RA as well as the subsequent responsiveness to neurotoxins have not been comprehensively studied. Therefore, we aim to re-evaluate the differentiation property of RA on this cell line. We hypothesize that modulation of signaling pathways and neuronal properties during RA-mediated differentiation in SH-SY5Y cells can affect their susceptibility to neurotoxins. The differentiation property of RA was confirmed by showing an extensive outgrowth of neurites, increased expressions of neuronal nuclei, neuron specific enolase, synaptophysin and synaptic associated protein-97, and decreased expression of inhibitor of differentiation-1. While undifferentiated SH-SY5Y cells were susceptible to 6-OHDA and MPP+, RA-differentiation conferred SH-SY5Y cells higher tolerance, potentially by up-regulating survival signaling, including Akt pathway as inhibition of Akt removed RA-induced neuroprotection against 6-OHDA. As a result, the real toxicity cannot be revealed in RA-differentiated cells. Therefore, undifferentiated SH-SY5Y is more appropriate for studying neurotoxicity or neuroprotection in experimental Parkinson's disease research.
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PMID:Effects of all-trans-retinoic acid on human SH-SY5Y neuroblastoma as in vitro model in neurotoxicity research. 1989 43

This study provides the first immunohistochemical evidence of the presence and distribution patterns in the rat spinal cord of alpha-synuclein (alpha-Syn), a soluble acidic protein, widely expressed in the CNS and closely associated to the pathogenesis of neurodegenerative conditions such as Parkinson's and Alzheimer's diseases. We used two novel homemade monoclonal antibodies (2E3 and 3D5) recognizing two different epitopes of alpha-Syn. Both antibodies localized alpha-Syn within the nerve terminals, whereas 3D5 alone also localized it within the neuronal nuclei. alpha-Syn-immunoreactive nervous elements were widely recognized throughout rat spinal cord and in almost all the gray matter laminae. However, they appeared particularly concentrated within laminae I, II, VII and X and more scattered in the others. Double immunofluorescent labeling showed that alpha-Syn colocalized with synaptophysin in the presynaptic nerve terminals, with neuropeptide Y (NPY) in lamina I, II, IX and X, and had close relationships with tyrosine hydroxylase (TH) immunoreactive neurons in laminae VII and X. Interestingly, the alpha-Syn-immunoreactive nerve elements, in lamina X, contained little of calbindin-28KD and calretinin-31KD. Our findings could help in understanding the genesis of some early clinical symptoms of Parkinson's disease (PD), such as pain and dysautonomic disorders, and indicate the spinal cord as their probable starting point, according to the ascending theory of PD, proposed by Braak.
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PMID:Immunolocalization of alpha-synuclein in the rat spinal cord by two novel monoclonal antibodies. 1911 1

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