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Query: UNIPROT:P06889 (Mol)
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Parkinson's disease (PD) is a multifactorial disease that appears to arise from the effects of both genetic and environmental influences. Pesticides and heavy metals are the principle environmental factors that appear to impact on PD. The known genetic factors include multiple genes that have been identified in related parkinsonian syndromes, as well as alpha-synuclein. Genes associated with either PD or Parkinson-related disorders include parkin, DJ-1, ubiquitin C-terminal hydrolase isozyme L1 (UCH-L1), nuclear receptor-related factor 1, and alpha-synuclein. Alpha-synuclein is particularly notable because it aggregates readily and is the main component of Lewy bodies (LBs). Aggregated alpha-synuclein binds the proteasome and potently inhibits proteasomal activity. Because ubiquitin accumulates in LBs, and parkin and UCH-L1 also interact with the ubiquitin proteasomal system, proteasomal dysfunction is thought to contribute to the pathophysiology of PD. Increasing numbers of experiments suggest that neurotoxins might interact with alpha-synuclein or other Parkinson-related proteins to contribute to the pathophysiology of PD. Transgenic animal models overexpressing alpha-synuclein develop age-dependent motor dysfunction and inclusions in the brain stem that contain alpha-synuclein. These models are very helpful in elucidating the pathophysiology of PD but do not completely recapitulate the disease process. The relationship between these transgenic models and PD is a subject of intense investigation.
J Mol Neurosci 2004
PMID:Pathological proteins in Parkinson's disease: focus on the proteasome. 1565 64

alpha-Synuclein, a protein implicated in neurodegenerative diseases and of elusive physiological function owes its name to an observed presence in presynaptic and nuclear compartments. However, its nuclear localisation has remained controversial. We expressed synuclein-eGFP fusion proteins in organotypic rat hippocampal slice cultures and murine hippocampal primary neurons using a Sindbis virus expression system. Recombinant full-length alpha-synuclein accumulated in presynaptic locations, mimicking its native distribution. Expression of deletion mutant alpha-synuclein revealed that presynaptic targeting depended on the presence of its N-terminal and core region. This domain also causes nuclear exclusion of the alpha-synuclein fusion protein. In contrast, the C-terminal domain of alpha-synuclein directs fusion proteins into the nuclear compartment. The related protein gamma-synuclein contains a similar N-terminal and core domain as alpha-synuclein. However, gamma-synuclein lacks a C-terminal domain that causes nuclear localisation of the fusion protein, suggesting that the two synucleins might have different roles relating to the cell nucleus.
Mol Cell Neurosci 2005 Feb
PMID:Subcellular localisation of recombinant alpha- and gamma-synuclein. 1569 13

Four recent papers related specifically to the familial form of Parkinson's disease reinforce the idea that endogenous levels of alpha-synuclein can strongly influence disease phenotype. Two recent publications of alpha-synuclein-duplication mutations show that the severity of familial Parkinsonian phenotype is dependent upon SNCA gene dosage and corresponding protein levels. Familial point mutations in SNCA were found to impair the efficient lysosomal degradation of alpha-synuclein, potentially resulting in elevated levels of alpha-synuclein. Conversely, the complete knockout of SNCA has little effect on transgenic mice. It is now clear that the regulation of alpha-synuclein levels has potential significance in the pathogenesis and treatment of sporadic PD.
Trends Mol Med 2005 Mar
PMID:Gene dosage and pathogenesis of Parkinson's disease. 1576 Jul 66

Physiological functions of alpha-synuclein, a protein implicated in certain types of neurodegeneration, and two other members of the same family, beta-synuclein and gamma-synuclein, are not clearly understood. It has been suggested that synucleins are involved in intracellular processes associated with survival of neurons and their response to stress, and that changes of synuclein ratio might have deteriorating effects on neurons. In wild-type mice, sensory neurons of the peripheral nervous system express alpha-synuclein and notably high levels of gamma-synuclein, but targeted inactivation of either of these genes has no effect on these neurons. Here we produced double, alpha-synuclein/gamma-synuclein null mutant mice, which develop normally, are fertile, and show no obvious signs of pathology in adulthood. Survival of alpha/gamma-synuclein-deficient peripheral sensory neurons in vivo and in primary tissue culture is indistinguishable from survival of wild-type neurons. The absence of two synucleins does not lead to expression in sensory neurons of the third member of the family, beta-synuclein. Therefore, our results demonstrate that neurons with normally high levels of synuclein(s) can develop and survive normally in the absence of any of these proteins. This suggests that other intraneuronal mechanisms and pathways effectively compensate the loss of synuclein function in null mutant animals.
J Mol Neurosci 2005
PMID:Peripheral sensory neurons survive in the absence of alpha- and gamma-synucleins. 1578 63

Biochemical and genetic evidence point towards alpha-synuclein aggregation as having a pivotal role in the onset and progression of several neurodegenerative disorders, including Parkinson's disease, multiple system atrophy and Lewy body dementia. We review recent data on how alpha-synuclein aggregates may impact on cellular homeostatic mechanisms including cellular transport and degradation and transcriptional regulation. alpha-Synuclein aggregates can exist as several molecular species and their different features are discussed in the context of the methodologies used for their study and the many chemical and physical factors that influence their formation.
Brain Res Mol Brain Res 2005 Mar 24
PMID:Pathogenic effects of alpha-synuclein aggregation. 1579 May 25

The etiology of Parkinson's disease (PD) is presently unknown. The unifying hallmark of disease is depletion of dopamine and loss of nigrostriatal dopamine neurons. Familial and sporadic forms of the disease are described. The familial mutations occur within alpha-synuclein and molecules involved in protein degradation and mitochondrial function. Sporadic PD is thought to involve the interplay of genetic and environmental factors. Despite disparate initiating triggers, a convergent pathobiologic model for this common neurodegenerative disease has been proposed. Likely players have emerged that may form the basis for this common pathway model of disease. In this review, we examine the role of three most implicated PD pathogenic conspirators: synuclein, dopamine and oxidative stress.
Brain Res Mol Brain Res 2005 Mar 24
PMID:Synuclein, dopamine and oxidative stress: co-conspirators in Parkinson's disease? 1579 May 26

Parkinson's disease is characterized by a progressive loss of dopaminergic neurons in the substantia nigra zona compacta, and in other sub-cortical nuclei associated with a widespread occurrence of Lewy bodies. The cause of cell death in Parkinson's disease is still poorly understood, but a defect in mitochondrial oxidative phosphorylation and enhanced oxidative and nitrative stresses have been proposed. We have studied control(wt) (C57B1/6), metallothionein transgenic (MTtrans), metallothionein double gene knock (MTdko), alpha-synuclein knock out (alpha-syn(ko)), alpha-synuclein-metallothionein triple knock out (alpha-syn-MTtko), weaver mutant (wv/wv) mice, and Ames dwarf mice to examine the role of peroxynitrite in the etiopathogenesis of Parkinson's disease and aging. Although MTdko mice were genetically susceptible to 1, methyl, 4-phenyl, 1,2,3,6-tetrahydropyridine (MPTP) Parkinsonism, they did not exhibit any overt clinical symptoms of neurodegeneration and gross neuropathological changes as observed in wv/wv mice. Progressive neurodegenerative changes were associated with typical Parkinsonism in wv/wv mice. Neurodegenerative changes in wv/wv mice were observed primarily in the striatum, hippocampus and cerebellum. Various hallmarks of apoptosis including caspase-3, TNFalpha, NFkappaB, metallothioneins (MT-1, 2) and complex-1 nitration were increased; whereas glutathione, complex-1, ATP, and Ser(40)-phosphorylation of tyrosine hydroxylase, and striatal 18F-DOPA uptake were reduced in wv/wv mice as compared to other experimental genotypes. Striatal neurons of wv/wv mice exhibited age-dependent increase in dense cored intra-neuronal inclusions, cellular aggregation, proto-oncogenes (c-fos, c-jun, caspase-3, and GAPDH) induction, inter-nucleosomal DNA fragmentation, and neuro-apoptosis. MTtrans and alpha-Syn(ko) mice were genetically resistant to MPTP-Parkinsonism and Ames dwarf mice possessed significantly higher concentrations of striatal coenzyme Q10 and metallothioneins (MT 1, 2) and lived almost 2.5 times longer as compared to control(wt) mice. A potent peroxynitrite ion generator, 3-morpholinosydnonimine (SIN-1)-induced apoptosis was significantly attenuated in MTtrans fetal stem cells. These data are interpreted to suggest that peroxynitrite ions are involved in the etiopathogenesis of Parkinson's disease, and metallothionein-mediated coenzyme Q10 synthesis may provide neuroprotection.
Brain Res Mol Brain Res 2005 Mar 24
PMID:Metallothionein-mediated neuroprotection in genetically engineered mouse models of Parkinson's disease. 1579 May 31

Substantial evidence suggests that the aggregation of the presynaptic protein alpha-synuclein is a key step in the etiology of Parkinson's disease (PD). Although the molecular mechanisms underlying alpha-synuclein aggregation remain unknown, oxidative stress has been implicated in the pathogenesis of PD. Here, we report the effects of tyrosine nitration on the propensity of human recombinant alpha-synuclein to fibrillate in vitro. The properties of nitrated alpha-synuclein were investigated using a variety of biophysical and biochemical techniques, which revealed that nitration led to formation of a partially folded conformation with increased secondary structure relative to the intrinsically disordered structure of the monomer, and to oligomerization at neutral pH. The degree of self-association was concentration-dependent, but at 1 mg/mL, nitrated alpha-synuclein was predominantly an octamer. At low pH, small-angle X-ray scattering data indicated that the nitrated protein was monomeric. alpha-Synuclein fibrillation at neutral pH was completely inhibited by nitrotyrosination and is attributed to the formation of stable soluble oligomers. The presence of heparin or metals did not overcome the inhibition; however, the inhibitory effect was eliminated at low pH. The addition of nitrated alpha-synuclein inhibited fibrillation of non-modified alpha-synuclein at neutral pH. Potential implications of these findings to the etiology of Parkinson's disease are discussed.
Brain Res Mol Brain Res 2005 Mar 24
PMID:Effects of nitration on the structure and aggregation of alpha-synuclein. 1579 May 33

Formation of alpha-synuclein aggregation and Lewy bodies (LBs) are hallmarks of Parkinson's disease (PD) and other related diseases. The dopaminergic neurotoxin, MPTP, replicates many of the pathological signs and motoric features of PD in primates and rodents by selective destruction of dopamine (DA) neurons of the substantia nigra. In this study, groups of adult wild-type C57BL6 mice were treated with MPTP either acutely (20 mg/kg, every 2 h x 4 for 1 day), semi-chronically (30 mg/kg/day for 5 days), or chronically (25 mg/kg MPTP with 250 mg/kg probenecid 2 times/week for 5 weeks). Mice brains were collected and processed at various time points for immunohistochemistry and HPLC assays. Our data showed that although there is a significant decrease in DA content and its metabolites and tyrosine hydroxylase immunoreactivity, there is no inclusion body formation following the various MPTP treatment regimens.
Brain Res Mol Brain Res 2005 Mar 24
PMID:Absence of inclusion body formation in the MPTP mouse model of Parkinson's disease. 1579 May 34

Rotenone, a pesticide and complex I inhibitor, causes nigrostriatal degeneration similar to Parkinson disease pathology in a chronic, systemic, in vivo rodent model [M. Alam, W.J. Schmidt, Rotenone destroys dopaminergic neurons and induces parkinsonian symptoms in rats, Behav. Brain Res. 136 (2002) 317-324; R. Betarbet, T.B. Sherer, G. MacKenzie, M. Garcia-Osuna, A.V. Panov, J.T. Greenamyre, Chronic systemic pesticide exposure reproduces features of Parkinson's disease, Nat. Neurosci. 3 (2000) 1301-1306; S.M. Fleming, C. Zhu, P.O. Fernagut, A. Mehta, C.D. DiCarlo, R.L. Seaman, M.F. Chesselet, Behavioral and immunohistochemical effects of chronic intravenous and subcutaneous infusions of varying doses of rotenone, Exp. Neurol. 187 (2004) 418-429; T.B. Sherer, J.H. Kim, R. Betarbet, J.T. Greenamyre, Subcutaneous rotenone exposure causes highly selective dopaminergic degeneration and alpha-synuclein aggregation, Exp. Neurol. 179 (2003) 9-16.]. To better investigate the role of mitochondria and complex I inhibition in chronic, progressive neurodegenerative disease, we developed methods for long-term culture of rodent postnatal midbrain organotypic slices. Chronic complex I inhibition over weeks by low dose (10-50 nM) rotenone in this system lead to dose- and time-dependent destruction of substantia nigra pars compacta neuron processes, morphologic changes, some neuronal loss, and decreased tyrosine hydroxylase (TH) protein levels. Chronic complex I inhibition also caused oxidative damage to proteins, measured by protein carbonyl levels. This oxidative damage was blocked by the antioxidant alpha-tocopherol (vitamin E). At the same time, alpha-tocopherol also blocked rotenone-induced reductions in TH protein and TH immunohistochemical changes. Thus, oxidative damage is a primary mechanism of mitochondrial toxicity in intact dopaminergic neurons. The organotypic culture system allows close study of this and other interacting mechanisms over a prolonged time period in mature dopaminergic neurons with intact processes, surrounding glia, and synaptic connections.
Brain Res Mol Brain Res 2005 Mar 24
PMID:Rotenone induces oxidative stress and dopaminergic neuron damage in organotypic substantia nigra cultures. 1579 May 35


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