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)

alpha-Synuclein is the major component of Lewy bodies and responsible for the amyloid deposits observed in Parkinson's disease. Ordered filamentous aggregate formation of the natively unfolded a-synuclein was investigated in vitro with the periodic ultrasonication. The ultrasonication induced the fibrillation of a-synuclein, as the random structure gradually converted into a beta-sheet structure. The resulting fibrils obtained at the stationary phase appeared heterogeneous in their size distribution, with the average length and height of 0.28 Mm+/-0.21 Mm and 5.6 nm+/-1.9 nm, respectively. After additional extensive ultrasonication in the absence of monomeric a-synuclein, the equilibrium between the fibril formation and its breakdown shifted to the disintegration of the preexisting fibrils. The resulting fragments served as nucleation centers for the subsequent seed-dependent accelerated fibrillation under a quiescent incubation condition. This self-seeding amplification process depended on the seed formation and subsequent alterations in their properties by the ultrasonication to a state that accretes the monomeric soluble protein more effectively than their reassociation of the seeds back to the original fibrils. Since many neurodegenerative disorders have been considered to be propagated via the seed-dependent amyloidosis, this study would provide a novel aspect of the significance of the seed structure and its properties leading to the accelerated amyloid formation.
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PMID:Seed-dependent accelerated fibrillation of alpha-synuclein induced by periodic ultrasonication treatment. 1816 51

alpha-Synuclein is a neural protein that comprises the fibrillar core of Lewy bodies, a histologically defining lesion of Parkinson's disease. To investigate the role of each specific residue of the alpha-synuclein molecule in fibril formation, amino acid substitutions were introduced throughout the molecule. Incorporation of proline, especially in the region spanning residues 37-89, drastically retarded fibril formation. Substitutions with polar residues showed that the hydrophobicity of the central hydrophobic region is also important in fibrillation regulation. In the N-terminal repeated region, increasing the number of negative charges interfered with fibrillation. In contrast, single amino acid substitutions in the C-terminal acidic region of alpha-synuclein had only minimal effects on fibrillation. More than 20 different single amino acid substitutions that were sufficient to prevent fibrillation of alpha-synuclein were obtained, and most of them were impaired in both nucleation and fibril elongation. Identification of sequence determinants regulating fibrillation of amyloidogenic proteins may provide valuable information for designing peptide analog drugs to prevent protein amyloidosis.
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PMID:Sequence determinants regulating fibrillation of human alpha-synuclein. 1826 82

Amyloid fibrils found in various neurodegenerative disorders are also recognized as high-performance protein nanomaterials with a formidable rigidity. Elucidation of an underlying molecular mechanism of the amyloid fibril formation is crucial not only to develop controlling strategy toward the diseases, but also to apply the protein fibrils for future nanobiotechnology. alpha-Synuclein is an amyloidogenic protein responsible for the radiating filament formation within Lewy bodies of Parkinson's disease. The amyloid fibril formation of alpha-synuclein has been shown to be induced from the oligomeric granular species of the protein acting as a growing unit by experiencing structural rearrangement within the preformed oligomeric structures in the presence of an organic solvent of hexane. This granule-based concerted amyloid fibril formation model would parallel the prevalent notion of nucleation-dependent fibrillation mechanism in the area of amyloidosis.
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PMID:Instantaneous amyloid fibril formation of alpha-synuclein from the oligomeric granular structures in the presence of hexane. 1846 76

alpha-Synuclein is the major amyloidogenic component observed in the Lewy bodies of Parkinson's disease. Amyloid fibrils of alpha-synuclein prepared in vitro were instantaneously disintegrated by dequalinium (DQ). Double-headed cationic amphipathic structure of DQ with two aminoquinaldinium rings at both ends turned out to be crucial to exert the disintegration activity. The defibrillation activity was shown to be selective toward the fibrils of alpha-synuclein and Abeta40 while the other beta2-microglobulin amyloid fibrils were not susceptible so much. Besides the common cross beta-sheet conformation of amyloid fibrils, therefore, additional specific molecular interactions with the target amyloidogenic proteins have been expected to be involved for DQ to exhibit its defibrillation activity. The disintegrating activity of DQ was also evaluated in vivo with the yeast system overexpressing alpha-synuclein-GFP. With the DQ treatment, the intracellular green inclusions turned into green smears, which resulted in the enhanced cell death. Based on the data, the previous observation that DQ led to the predominant protofibril formation of alpha-synuclein could be explained by the dual function of DQ showing both the facilitated self-oligomerization of alpha-synuclein and the instantaneous defibrillation of its amyloid fibrils. In addition, amyloidosis-related cytotoxicity has been demonstrated to be amplified by the fragmentation of mature amyloid fibrils by DQ.
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PMID:Disintegration of amyloid fibrils of alpha-synuclein by dequalinium. 1869 34

alpha-Synuclein participates in the Lewy body formation of Parkinson's disease. Elucidation of the underlying molecular mechanism of the amyloid fibril formation is crucial not only to develop a controlling strategy toward the disease, but also to apply the protein fibrils for future biotechnology. Discernable homogeneous granules of alpha-synuclein composed of approximately 11 monomers in average were isolated in the middle of a lag phase during the in vitro fibrillation process. They were demonstrated to experience almost instantaneous fibrillation during a single 12-min centrifugal membrane-filtration at 14,000 x g. The granular assembly leading to the drastically accelerated fibril formation was demonstrated to be a result of the physical influence of shear force imposed on the preformed granular structures by either centrifugal filtration or rheometer. Structural rearrangement of the preformed oligomomeric structures is attributable for the suprastructure formation in which the granules act as a growing unit for the fibril formation. To parallel the prevailing notion of nucleation-dependent amyloidosis, we propose a double-concerted fibrillation model as one of the mechanisms to explain the in vitro fibrillation of alpha-synuclein, in which two consecutive concerted associations of monomers and subsequent oligomeric granular species are responsible for the eventual amyloid fibril formation.
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PMID:Granular assembly of alpha-synuclein leading to the accelerated amyloid fibril formation with shear stress. 1913 68

Abnormal tonic-motor activity is a key component in pathogenesis of many digestive disorders. Secondary disturbance of tonic-motor activity of digestive organs and the accompanying symptoms are known to develop in conjunction with diseases of other organs and systems, diabetes mellitus, Parkinson's disease, myotonic muscular dystrophy, amyloidosis, hyper- and hypothyroidism, hypoparathyroidism, etc. Disturbed motor activity in the gastro-duodenal region most frequently underlies functional dyspepsia, i.e. a group of symptoms unrelated to organic, systemic and metabolic diseases. Prokinetics are an important class of medicinal products for the treatment of all clinical forms of dyspepsia. One of the new ones is itopride hdrochloride having combined mechanism of action. Clinical studies of this drug revealed its high efficiency in patients with functional dyspepsia, chronic gastritis, and diabetic gastroparesis. It is well tolerated by the patients and produces no serious side effects. Inclusion of this drug in therapy improves the outcome of the treatment of disturbed motor activity of the gastrointestinal tract.
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PMID:[The use of prokinetics for the correction of motor and tonic digestive disorders]. 1946 57

Understanding alpha-synuclein in terms of fibrillization, aggregation, solubility and stability is fundamental in Parkinson's disease (PD). The three familial mutations, namely, A30P, E46K and A53T cause PD because the hydrophobic regions in alpha-synuclein acquire beta-sheet configuration, and have a propensity to fibrillize and form amyloids that cause cytotoxicity and neurodegeneration. On simulating the native form and mutants (A30P, E46K and A53T) of alpha-synuclein in water solvent, clear deviations are observed in comparison to the all-helical 1XQ8 PDB structure. We have identified two crucial residues, (40)Val and (74)Val, which play key roles in beta-sheet aggregation in the hydrophobic regions 36-41 and 68-78, respectively, leading to fibrillization and amyloidosis in familial (A53T) PD. We have also identified V40D_V74D, a double mutant of A53T (the most amyloidogenic mutant). The simultaneous introduction of these two mutations in A53T nearly ends its aggregation propensity, increases its solubility and positively enhances its thermodynamic stability.
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PMID:Controlling aggregation propensity in A53T mutant of alpha-synuclein causing Parkinson's disease. 1958 Jul 81

Nanobodies are single chain antibodies that are uniquely produced in Camelidae, e.g. camels and llamas. They have the desirable features of small sizes (Mw < 14 kDa) and high affinities against antigens (Kd approximately nM), making them ideal as structural probes for biomedically relevant motifs both in vitro and in vivo. We have previously shown that nanobody binding to amyloidogenic human lysozyme variants can effectively inhibit their aggregation, the process that is at the origin of systemic amyloid disease. Here we report the NMR assignments of a new nanobody, termed NbSyn2, which recognises the C-terminus of the intrinsically disordered protein, human alpha-synuclein (aS), whose aberrant self-association is implicated in Parkinson's disease.
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PMID:(1)H, (13)C and (15)N assignments of a camelid nanobody directed against human alpha-synuclein. 1976 86

Conformational diseases, a general term comprising more than 40 disorders are caused by the accumulation of unfolded or misfolded proteins. Improper protein folding (misfolding) as well as accrual of unfolded proteins can lead to the formation of disordered (amorphous) or ordered (amyloid fibril) aggregates. The gradual accumulation of protein aggregates and the acceleration of their formation by stress explain the characteristic late or episodic onset of the diseases. The best studied in this group are neurodegenerative diseases and amyloidosis accompanied by the deposition of a specific aggregation-prone proteins or protein fragments and formation of insoluble fibrils. Amyloidogenic protein accumulation often occurs in the brain tissues, e.g. in Alzheimer's disease with the deposition of amyloid-beta and Tau, in scrapie and bovine spongiform encephalopathy with the accumulation of prion protein, in Parkinson's disease with the deposition of alpha-synuclein. Other examples of amyloid proteins are transthyretin, immunoglobulin light chain, gelsolin, etc. In addition to the brain, the accumulation of unfolded or misfolded proteins leading to pathology takes place in a wide variety of organs and tissues, including different parts of the eye. The best studied ocular conformational diseases are cataract in the lens and retinitis pigmentosa in the retina, but accumulation of misfolded proteins also occurs in other parts of the eye causing various disorders. Furthermore, ocular manifestation of systemic amyloidosis often causes the deposition of amyloidogenic proteins in different ocular tissues. Here we present the data regarding naturally unfolded and misfolded proteins in eye tissues, their structure-function relationships, and molecular mechanisms underlying their involvement in diseases. We also summarize the etiology of ocular conformational diseases and discuss approaches to their treatment.
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PMID:Conformational diseases: looking into the eyes. 1980 79

Cells in the nervous system can respond to different kinds of stress, e.g. injury, with production and release of inflammatory molecules, including cytokines. One of the most important proinflammatory cytokines is interleukin-1, affecting most organs of the body. The high constitutive expression of interleukin-1 in the adrenal gland provides a source for local and systemic actions, in addition to activated monocytes. In the brain, the constitutive expression is low, but activated microglia produce and release interleukin-1 during pathological conditions such as neurodegenerative disorders (e.g. stroke, traumatic brain injury, Alzheimer's disease, Parkinson's disease). Interleukin-1 has an important role in mediating 'sickness symptoms' such as fever, in response to infections. Its role in neurodegeneration is not fully elucidated, but there is evidence for involvement in both amyloidosis and tau pathology, major neuropathological hallmarks of Alzheimer's disease. The interleukin-1 family at present consists of 11 members, one of which is the endogenous receptor antagonist. Overexpression of this antagonist in the CNS in a transgenic mouse strain, Tg hsIL-1ra, has allowed studies on morphological and functional effects of blocking interleukin-1 receptor-mediated activity in the brain. Marked alterations of brain morphology such as reduced hippocampal and cortical volume correlate with behavioural deficits. Decreased anxiety and impaired long-term memory are among the consequences. Intact interleukin-1 signalling is important for the brain's ability to adapt to acute and chronic neuroinflammation. Increased amplitude and prolongation of proinflammatory cytokine production underly the behavioural alterations characteristic for ageing. Moreover, deregulated expression of interleukin-1 is associated with ageing-related chronic neurodegenerative disorders.
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PMID:Connection between inflammatory processes and transmittor function-Modulatory effects of interleukin-1. 1985 10


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