Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.5.1.18 (glutathione S-transferase)
 22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alpha-synuclein, a major constituent of Lewy bodies (LBs) in Parkinson's disease (PD), has been implicated to play a critical role in synaptic events, such as neuronal plasticity during development, learning, and degeneration under pathological conditions, although the physiological function of alpha-synuclein has not yet been established. We here present biochemical evidence that recombinant alpha-synuclein has a chaperone-like function against thermal and chemical stress in vitro. In our experiments, alpha-synuclein protected glutathione S-transferase (GST) and aldolase from heat-induced precipitation, and alpha-lactalbumin and bovine serum albumin from dithiothreitol (DTT)-induced precipitation like other molecular chaperones. Moreover, preheating of alpha-synuclein, which is believed to reorganize the molecular surface of alpha-synuclein, increased the chaperone-like activity. Interestingly, in organic solvents, which promotes the formation of secondary structure, alpha-synuclein aggregated more easily than in its native condition, which eventually might abrogate the chaperone-like function of the protein. In addition, alpha-synuclein was also rapidly and significantly precipitated by heat in the presence of Zn2+ in vitro, whereas it was not affected by the presence of Ca2+ or Mg2+. Circular dichroism spectra confirmed that alpha-synuclein underwent conformational change in the presence of Zn2+. Taken together, our data suggest that alpha-synuclein could act as a molecular chaperone, and that the conformational change of the alpha-synuclein could explain the aggregation kinetics of alpha-synuclein, which may be related to the abolishment of the chaperonic-like activity.
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PMID:Structural changes in alpha-synuclein affect its chaperone-like activity in vitro. 1120 70

alpha-Synuclein is a highly conserved presynaptic protein with probable roles in normal synaptic development and plasticity as well as neurodegenerative disease, although its molecular function is not yet clear. To identify potential protein binding partners of alpha-synuclein, we performed co-immunoprecipitations using a monoclonal antibody (H3C) against its C-terminus. More than 20 detectable proteins were specifically co-immunoprecipitated from zebra finch and mouse forebrain extracts. One of these, with relative mobility of 55 kDa, was identified through microsequencing as a mixture of alpha- and beta-tubulin. Tubulin was specifically recovered from a mouse forebrain cytosolic extract by a GST/alpha-synuclein fusion protein immobilized on glutathione-Sepharose beads. In the converse experiment, alpha-synuclein bound to a column prepared from purified bovine brain tubulin immobilized upon CNBr-Sepharose. alpha-Synuclein does not appear to bind assembled microtubules, however, as alpha-synuclein did not pellet with polymerized microtubules in a standard assay for microtubule-associated proteins. Likewise, when a fusion construct of alpha-synuclein and green fluorescent protein (GFP) was expressed in African green monkey kidney epithelial (CV-1) cells, the fusion protein did not colocalize with endogenous microtubules. We conclude that alpha-synuclein may interact specifically with heterodimeric tubulin, but not microtubules, in the neuronal cytosol.
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PMID:Protein-protein interactions of alpha-synuclein in brain homogenates and transfected cells. 1168 85

Alpha-synuclein is a well-known heat-resistant protein that does not aggregate upon heat treatment, whereas glutathione S-transferase (GST) is a heat-labile protein that easily precipitates as a result of thermal stress. This paper reports the role of the C-terminal acidic tail of alpha-synuclein in protein thermosolubility and stability. The region of alpha-synuclein that is responsible for the heat resistance was initially investigated using a series of deletion mutants, and the C-terminal acidic tail (residues 96-140) was found to be crucial for the thermosolubility of alpha-synuclein. The thermal behavior of the GST-alpha-synuclein fusion protein was next investigated, and the fusion protein was seen to be extremely heat-resistant. Using a series of GST-synuclein deletion mutants, the C-terminal acidic tail of alpha-synuclein was shown to play a critical role in conferring the heat resistance of the fusion proteins. Furthermore, the acidic tail appeared to protect the fusion protein from pH- and metal-induced protein aggregation, suggesting that the acidic tail can increase the virtual stability of the protein by protecting it from the aggregation induced by environmental stresses. Interestingly, the acidic tail also appeared to protect the GST enzyme from the thermal inactivation to a considerable extent. However, CD analysis of the heat-induced secondary structural changes of the GST-alpha-synuclein fusion protein revealed that the fusion protein is irreversibly denatured by heat treatment with a slightly lowered melting temperature (Tm). Thus, the results demonstrate that introducing an acidic tail into GST promotes the thermosolubility and virtual stability of the fusion protein, although it might be unfavorable for its intrinsic stability.
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PMID:Stress-induced aggregation profiles of GST-alpha-synuclein fusion proteins: role of the C-terminal acidic tail of alpha-synuclein in protein thermosolubility and stability. 1190 May 57

Alpha-synuclein is a pathological component of Parkinson's disease by constituting the filamentous component of Lewy bodies. Phthalocyanine (Pc) effects on the amyloidosis of alpha-synuclein have been examined. The copper complex of phthalocyanine tetrasulfonate (PcTS-Cu(2+)) caused the self-oligomerization of alpha-synuclein while Pc-Cu(2+) did not affect the protein, indicating that introduction of the sulfonate groups was critical for the selective protein interaction. The PcTS-Cu(2+) interaction with alpha-synuclein has occurred predominantly at the N-terminal region of the protein with a K(d) of 0.83 microM apart from the hydrophobic NAC (non-Abeta component of Alzheimer's disease amyloid) segment. Phthalocyanine tetrasulfonate (PcTS) lacking the intercalated copper ion also showed a considerable affinity toward alpha-synuclein with a K(d) of 3.12 microM, and its binding site, on the other hand, was located at the acidic C-terminus. These mutually exclusive interactions between PcTS and PcTS-Cu(2+) toward alpha-synuclein resulted in distinctive features on the kinetics of protein aggregation, morphologies of the final aggregates, and their in vitro cytotoxicities. The PcTS actually suppressed the fibrous amyloid formation of alpha-synuclein, but it produced the chopped-wood-looking protein aggregates. The aggregates showed rather low toxicity (9.5%) on human neuroblastoma cells (SH-SY5Y). In fact, the PcTS was shown to effectively rescue the cell death of alpha-synuclein overexpressing cells caused by the lactacystin treatment as a proteasome inhibitor. The anti-aggregative and anti-amyloidogenic properties of PcTS were also demonstrated with alcohol dehydrogenase, glutathione S-transferase, and amyloid beta/A4 protein under their aggregative conditions. The PcTS-Cu(2+), on the other hand, promoted the protein aggregation of alpha-synuclein, which gave rise to the fibrillar protein aggregates whose cytotoxicity became significant to 35.8%. Taken together, the data provided in this study indicate that PcTS/PcTS-Cu(2+) could be considered as possible candidates for the development of therapeutic or prophylactic strategies against the alpha-synuclein-related neurodegenerative disorders.
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PMID:Phthalocyanine tetrasulfonates affect the amyloid formation and cytotoxicity of alpha-synuclein. 1503 41

The acidic tail of alpha-synuclein (ATSalpha) has been shown to protect the glutathione S-transferase (GST)-ATSalpha fusion protein from environmental stresses, such as heat, pH and metal ions. In this study, we further demonstrated that the introduction of ATSalpha into other proteins, such as dehydrofolate reductase and adiponectin, renders the fusion proteins resistant to heat-induced aggregation and that the acidic tail of beta- or gamma-synuclein can also protect the fusion proteins from heat-induced aggregation. Interestingly, the heat resistance of GST-ATSalpha deletion mutants, which contain shorter peptides derived from the highly charged regions of ATSalpha, was approximately proportional to the number of added Glu/Asp residues. However, the negative charges in the ATSalpha-derived peptides appear insufficient to explain the extreme heat resistance of the fusion proteins, since polyglutamates appeared to be much less effective than the ATSalpha-derived peptides in conferring heat resistance on the fusion proteins. These results suggest that not only the negatively charged residues but also the specific amino acid sequence of ATSalpha play an important role in conferring extreme heat resistance on the fusion proteins. Furthermore, the heat-induced secondary structural changes and thermal inactivation curves of GST-ATSalpha deletion mutants indicated that the introduction of ATSalpha-derived peptides does not significantly affect the intrinsic stability of the fusion proteins.
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PMID:Effects of novel peptides derived from the acidic tail of synuclein (ATS) on the aggregation and stability of fusion proteins. 1506 7

Tau and alpha-synuclein are both proteins implicated in the pathology of neurodegenerative disease. Here we have investigated the mechanisms of axonal transport of tau and alpha-synuclein, because failure of axonal transport has been implicated in the development of several neurodegenerative disorders. We found that the transport of both of these proteins depend on an intact microtubule- but not actin-cytoskeleton, and that tau and alpha-synuclein both move at overall slow rates of transport. We used time-lapse video microscopy to obtain images of live neurons that had been transfected with plasmids expressing proteins tagged with enhanced green fluorescent protein. We found that particulate structures containing tau or alpha-synuclein travel rapidly when moving along axons but spend the majority of the time paused, and these structures have similar characteristics to those previously observed for neurofilaments. The motile particles containing tau or alpha-synuclein colocalise with the fast-transporting molecular motor kinesin-1 in neurons. Co-immunoprecipitation experiments demonstrate that tau and alpha-synuclein are each associated with complexes containing kinesin-1, whereas only alpha-synuclein appears to interact with dynein-containing complexes. In vitro glutathione S-transferase-binding assays using rat brain homogenate or recombinant protein as bait reveals a direct interaction of kinesin-1 light chains 1 and 2 with tau, but not with alpha-synuclein. Our findings suggest that the axonal transport of tau occurs via a mechanism utilising fast transport motors, including the kinesin family of proteins, and that alpha-synuclein transport in neurons may involve both kinesin and dynein motor proteins.
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PMID:Molecular motors implicated in the axonal transport of tau and alpha-synuclein. 1617 37

The neuronal phosphoprotein alpha-synuclein has been increasingly implicated in the pathogenesis of Parkinson's disease (PD) and other neurodegenerative diseases; however, the exact function of alpha-synuclein still remains illusive. Suitable antibodies (Abs) specific for the gene of interest are indispensable for studying biological and immunological properties of the target gene. Here, we report not only the generation and characterization of monoclonal Abs, Syn-1 and Syn-17, against human alpha-synuclein, but also the epitope mapping by using recombinant synuclein family proteins and various GST fusion proteins of human alpha-synuclein domains. Syn-17 recognizes human and rodent alpha-synuclein, and its epitope is localized within residues 97-99 and 101 of alpha-synuclein. In contrast, the Syn-1 epitope is localized in residues 121 and 122 of human alpha-synuclein, and Syn-1 recognizes only human but not rodent alpha-synuclein, indicating that it can be utilized as a useful reagent for studying human alpha-synuclein transgenic mouse and zebrafish lines.
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PMID:Fine epitope mapping of monoclonal antibodies specific to human alpha-synuclein. 1638 Feb 7

Despite the discovery of at least five pathogenic genes in Parkinson disease (PD), the genetic etiology in the vast majority of PD remains to be clarified. Common genetic variants could act as susceptibility risk factors. Our previous meta-analysis of PD genetic association studies, over a 30-year period yielded four genes (N-acetylcysteine 2, monoamine oxidase B, glutathione transferase, and mitochondrial tRNA), as their common variants were found to be associated with PD. More recently, international collaborative studies and meta-analysis have identified the S18Y variant of ubiquitin carboxy-terminal hydrolase L1, Rep 1 variant of alpha-synuclein and tau H1 haplotype to be genetic susceptibility risk/protective factors. However, the most significant, common genetic risk factor in PD has been its association with the leucine-rich repeat kinase-2 (LRRK2) G2385R variant. We conducted an analysis of independent studies involving 2205 PD and 1817 controls and found the average carrier rate of G2385R variant to be about 9% in PD and 4% in controls (p < 0.001; odds ratio: 2.27; 95% confidence interval: 1.78-2.9). A higher frequency of G2385R carriers has been observed in familial PD when compared with sporadic patients. Based on current evidence, certain common genetic variants are likely to modulate the risk of PD.
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PMID:The role of common genetic risk variants in Parkinson disease. 1786 89

alpha-Synuclein plays a key role in the pathological neurodegeneration in Parkinson's disease. Although its contribution to normal physiology remains elusive, the selective degeneration of alpha-synuclein-containing dopaminergic neurons in Parkinson's disease may be linked to abnormal alpha-synuclein induced toxicity. In the present study, a complex of alpha-synuclein and vesicular monoamine transporter-2 was identified by GST-Pull Down experiment. In wild-type alpha-synuclein stably transfected SH-SY5Y cell lines, the activity of vesicular monoamine transporter-2 decreased by 31% as determined by [(3)H] dopamine uptake, and its expression also decreased in both protein and mRNA levels using western and northern blot analysis. Overexpression of wild-type alpha-synuclein did not induce cell death or apoptosis, but significantly enhanced the intracellular reactive oxygen species level as assayed by flow cytometry. These data suggest that Up-regulated alpha-synuclein expression inhibits the activity of vesicular monoamine transporter-2, thereby interrupting dopamine homeostasis and resulting in dopaminergic neuron injury in Parkinson's disease.
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PMID:Inhibition of vesicular monoamine transporter-2 activity in alpha-synuclein stably transfected SH-SY5Y cells. 1798 33

In 1967, L-dopa was introduced as part of the pharmacological therapy of Parkinson's disease (PD) and, in spite of extensive research, no additional effective drugs have been discovered to treat PD. This brings forward the question: why have no new drugs been developed? We consider that one of the problems preventing the discovery of new drugs is that we still have no information on the pathophysiology of the neurodegeneration of the neuromelanin-containing nigrostriatal dopaminergic neurons. Currently, it is widely accepted that the degeneration of dopaminergic neurons, i.e., in the substantia nigra pars compacta, involves mitochondrial dysfunction, the formation of neurotoxic oligomers of alpha-synuclein, the dysfunction of protein degradation systems, neuroinflammation, and oxidative and endoplasmic reticulum stress. However, the initial trigger of these mechanisms in the nigrostriatal system is still unknown. It has been reported that aminochrome induces the majority of these mechanisms involved in the neurodegeneration process. Aminochrome is formed within the cytoplasm of neuromelanin-containing dopaminergic neurons during the oxidation of dopamine to neuromelanin. The oxidation of dopamine to neuromelanin is a normal and harmless process, because healthy individuals have intact neuromelanin-containing dopaminergic neurons. Interestingly, aminochrome-induced neurotoxicity is prevented by two enzymes: DT-diaphorase and glutathione transferase M2-2, which explains why melanin-containing dopaminergic neurons are intact in healthy human brains.
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PMID:Are Dopamine Oxidation Metabolites Involved in the Loss of Dopaminergic Neurons in the Nigrostriatal System in Parkinson's Disease? 2823 92


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