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)

We have evaluated serum alpha 1-antichymotrypsin content in dementia of the Alzheimer type (DAT). The subjects consisted of 26 patients with DAT, 15 with cerebrovascular dementia, 10 with mixed type dementia, 2 with Down syndrome, 17 with Parkinson disease, 14 with spinocerebellar degeneration, 14 with cerebrovascular disease without dementia, 12 with Duchenne muscular dystrophy and 77 normal controls. DAT group showed statistically significant increase of serum alpha 1-antichymotrypsin content, as compared with normal control group (p less than 0.001), mixed type dementia group (p less than 0.05) and other 6 groups (p less than 0.001). However, the levels of both alpha 1-antitrypsin content and inter-alpha-trypsin inhibitor content, included in serine protease inhibitors, were not significantly different between DAT and normal control groups. These findings indicated that measurement of serum alpha 1-antichymotrypsin is useful as the diagnostic marker of DAT.
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PMID:[The significance of measurement of contents of serum serine protease inhibitors in senile dementia of the Alzheimer type]. 260 32

Accumulation of insoluble alpha-synuclein aggregates in the brain is characteristic of Parkinson's disease, dementia with Lewy bodies and multiple system atrophy. Although numerous studies on the aggregation properties of alpha-synuclein have been reported, little is known about its degradation so far. In view of proteolytic degradation, we have found that the serine protease neurosin (kallikrein-6) degrades alpha-synuclein and co-localizes with pathological inclusions such as Lewy bodies and glial cytoplasmic inclusions. In vitro study showed that neurosin prevented alpha-synuclein polymerization by reducing the amount of monomer and also by generating fragmented alpha-synucleins that themselves inhibited the polymerization. Upon cellular stress, neurosin was released from mitochondria to the cytosol, which resulted in the increase of degraded alpha-synuclein species. Down-regulation of neurosin caused accumulation of alpha-synuclein within cultured cells. Thus we concluded that neurosin plays a significant role in physiological alpha-synuclein degradation and also in the pathogenesis of synucleinopathies.
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PMID:Alpha-synuclein degradation by serine protease neurosin: implication for pathogenesis of synucleinopathies. 1292 83

In mice, targeted deletion of the serine protease HtrA2 (also known as Omi) causes mitochondrial dysfunction leading to a neurodegenerative disorder with parkinsonian features. In humans, point mutations in HtrA2 are a susceptibility factor for Parkinson's disease (PARK13 locus). Mutations in PINK1, a putative mitochondrial protein kinase, are associated with the PARK6 autosomal recessive locus for susceptibility to early-onset Parkinson's disease. Here we determine that HtrA2 interacts with PINK1 and that both are components of the same stress-sensing pathway. HtrA2 is phosphorylated on activation of the p38 pathway, occurring in a PINK1-dependent manner at a residue adjacent to a position found mutated in patients with Parkinson's disease. HtrA2 phosphorylation is decreased in brains of patients with Parkinson's disease carrying mutations in PINK1. We suggest that PINK1-dependent phosphorylation of HtrA2 might modulate its proteolytic activity, thereby contributing to an increased resistance of cells to mitochondrial stress.
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PMID:The mitochondrial protease HtrA2 is regulated by Parkinson's disease-associated kinase PINK1. 1797 47

alpha-Synuclein is one of the principal toxic triggers of Parkinson disease, an age-associated neurodegeneration. Using old yeast as a model of alpha-synuclein expression in post-mitotic cells, we show that alpha-synuclein toxicity depends on chronological aging and results in apoptosis as well as necrosis. Neither disruption of key components of the unfolded protein response nor deletion of proapoptotic key players (including the yeast caspase YCA1, the apoptosis-inducing factor AIF1, or the serine protease OMI) did prevent alpha-synuclein-induced cell killing. However, abrogation of mitochondrial DNA (rho(0)) inhibited alpha-synuclein-induced reactive oxygen species formation and subsequent apoptotic cell death. Thus, introducing an aging yeast model of alpha-synuclein toxicity, we demonstrate a strict requirement of functional mitochondria.
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PMID:Functional mitochondria are required for alpha-synuclein toxicity in aging yeast. 1819 73

Mutations in PTEN-induced kinase 1 (PINK1) gene cause PARK6 familial Parkinsonism. To decipher the role of PINK1 in pathogenesis of Parkinson's disease (PD), researchers need to identify protein substrates of PINK1 kinase activity that govern neuronal survival, and establish whether aberrant regulation and inactivation of PINK1 contribute to both familial Parkinsonism and idiopathic PD. These studies should take into account the several unique structural and functional features of PINK1. First PINK1 is a rare example of a protein kinase with a predicted mitochondrial-targeting sequence and a possible resident mitochondrial function. Second, bioinformatic analysis reveals unique insert regions within the kinase domain that are potentially involved in regulation of kinase activity, substrate selectivity and stability of PINK1. Third, the C-terminal region contains functional motifs governing kinase activity and substrate selectivity. Fourth, accumulating evidence suggests that PINK1 interacts with other signaling proteins implicated in PD pathogenesis and mitochondrial dysfunction. The most prominent examples are the E3 ubiquitin ligase Parkin, the mitochondrial protease high temperature requirement serine protease 2 and the mitochondrial chaperone tumor necrosis factor receptor-associated protein 1. How PINK1 may regulate these proteins to maintain neuronal survival is unclear. This review describes the unique structural features of PINK1 and their possible roles in governing mitochondrial import, processing, kinase activity, substrate selectivity and stability of PINK1. Based upon the findings of previous studies of PINK1 function in cell lines and animal models, we propose a model on the neuroprotective mechanism of PINK1. This model may serve as a conceptual framework for future investigation into the molecular basis of PD pathogenesis.
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PMID:Biochemical aspects of the neuroprotective mechanism of PTEN-induced kinase-1 (PINK1). 1822 68

We have previously demonstrated that the active form of matrix metalloproteinase-3 (actMMP-3) is released from dopamine(DA)rgic neurons undergoing apoptosis. Herein, whether actMMP-3 might be generated intracellularly, and if so, whether it is involved in apoptosis of DArgic neurons itself was investigated in primary cultured DArgic neurons of wild-type, MMP-3 knockout animals, and CATH.a cells. During apoptosis, gene expression of MMP-3 is induced, specifically among the various classes of MMPs, generating the proform (55 kDa) which is subsequently cleaved to the catalytically active actMMP-3 (48 kDa) involving a serine protease. Intracellular actMMP-3 activity is directly linked to apoptotic signaling in DArgic cells: (i) Pharmacologic inhibition of enzymatic activity, repression of gene expression by siRNA, and gene deficiency all lead to protection; (ii) pharmacologic inhibition causes attenuation of DNA fragmentation and caspase 3 activation, the indices of apoptosis; and (iii) inhibition of the pro-apoptotic enzyme c-Jun N-terminal protein kinase leads to repression of MMP-3 induction. Under the cell stress condition, MMP-3 is released as actMMP-3 rather than the proform (proMMP-3), and catalytically active MMP-3 added to the medium does not cause cell death. Thus, actMMP-3 seems to have a novel intracellular role in apoptotic DArgic cells and this finding provides an insight into the pathogenesis of Parkinson's disease.
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PMID:A novel intracellular role of matrix metalloproteinase-3 during apoptosis of dopaminergic cells. 1839 66

The proper filling of apolar pockets at enzyme active sites is central for increasing binding activity and selectivity of hits and leads in medicinal chemistry. In our structure-based design approach toward the generation of potent enzyme inhibitors, we encountered a variety of challenges in gaining suitable binding affinity from the occupation of such pockets. We summarize them here for the first time. A fluorine scan of tricyclic thrombin inhibitors led to the discovery of favorable orthogonal dipolar C-F...CO interactions. Efficient cation-pi interactions were established in the S4 pocket of factor Xa, another serine protease from the blood coagulation cascade. Changing from mono- to bisubstrate inhibitors of catechol O-methyltransferase, a target in the L-Dopa-based treatment of Parkinson's disease, enabled the full exploitation of a previously unexplored hydrophobic pocket. Conformational preorganization of a pocket at an enzyme active site is crucial for harvesting binding affinity. This is demonstrated for two enzymes from the nonmevalonate pathway of isoprenoid biosynthesis, IspE and IspF, which are pursued as antimalarial targets. Disrupting crystallographically defined water networks on the way into a pocket might cost all of the binding free enthalpy gained from its occupation, as revealed in studies with tRNA-guanine transglycosylase, a target against shigellosis. Investigations of the active site of plasmepsin II, another antimalarial target, showed that principles for proper apolar cavity filling, originally developed for synthetic host-guest systems, are also applicable to enzyme environments.
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PMID:Structure-based drug design: exploring the proper filling of apolar pockets at enzyme active sites. 1851 Mar 66

Ynm3 is the only budding yeast protein possessing a combination of serine protease and postsynaptic density 95/disc-large/zona occludens domains, a defining feature of the high temperature requirement A (HtrA) protein family. The bacterial HtrA/DegP is involved in protective stress response to aid survival at higher temperatures. The role of mammalian mitochondrial HtrA2/Omi in protein quality control is unclear, although loss of its protease activity results in susceptibility toward Parkinson's disease, in which mitochondrial dysfunction and impairment of protein folding and degradation are key pathogenetic features. We studied the role of the budding yeast HtrA, Ynm3, with respect to unfolding stresses. Similar to Escherichia coli DegP, we find that Ynm3 is a dual chaperone-protease. Its proteolytic activity is crucial for cell survival at higher temperature. Ynm3 also exhibits strong general chaperone activity, a novel finding for a eukaryotic HtrA member. We propose that the chaperone activity of Ynm3 may be important to improve the efficiency of proteolysis of aberrant proteins by averting the formation of nonproductive toxic aggregates and presenting them in a soluble state to its protease domain. Suppression studies with Deltaynm3 led to the discovery of chaperone activity in a nucleolar peptidyl-prolyl cis-trans isomerase, Fpr3, which could partly relieve the heat sensitivity of Deltaynm3.
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PMID:The yeast HtrA orthologue Ynm3 is a protease with chaperone activity that aids survival under heat stress. 1894 88

Cellular stress responses can be activated following functional defects in organelles such as mitochondria and the endoplasmic reticulum. Mitochondrial dysfunction caused by loss of the serine protease HtrA2 leads to a progressive movement disorder in mice and has been linked to parkinsonian neurodegeneration in humans. Here, we demonstrate that loss of HtrA2 results in transcriptional upregulation of nuclear genes characteristic of the integrated stress response, including the transcription factor CHOP, selectively in the brain. We also show that loss of HtrA2 results in the accumulation of unfolded proteins in the mitochondria, defective mitochondrial respiration and enhanced production of reactive oxygen species that contribute to the induction of CHOP expression and to neuronal cell death. CHOP expression is also significantly increased in Parkinson's disease patients' brain tissue. We therefore propose that this brain-specific transcriptional response to stress may be important in the advance of neurodegenerative diseases.
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PMID:Mitochondrial dysfunction triggered by loss of HtrA2 results in the activation of a brain-specific transcriptional stress response. 1902 30

Anti-inflammatory strategies receive growing attention for their potential to prevent pathological deterioration in disorders such as Parkinson's disease, which is accompanied by inflammatory reactions that might play a critical role in the degeneration of nigral dopaminergic neurons. We investigated the influence of dexamethasone - a potent synthetic member of the glucocorticoids class of steroid hormones that acts as an anti-inflammatory - on the degeneration of the dopaminergic neurons of rats observed after intranigral injection of thrombin, a serine protease that induces inflammation through microglia proliferation and activation. We evaluated tyrosine hydroxylase (TH)-positive neurons as well as astroglial and microglial populations; dexamethasone prevented the loss of astrocytes but was unable to stop microglial proliferation induced by thrombin. Moreover, dexamethasone produced alterations in the levels of nexin and the thrombin receptor PAR-1, and facilitated accumulation of alpha-synuclein induced by thrombin in dopaminergic neurons. Dexamethasone increased oxidative stress and expression of monoamine oxidase A and B, along with changes on different MAP kinases related to degenerative processes, resulting in a bigger loss of dopaminergic neurons after intranigral injection of thrombin in dexamethasone-treated animals. It is interesting to ascertain that inhibition of monoamine oxidase by tranylcypromine prevented neurodegeneration of dopaminergic neurons, thus suggesting that the deleterious effects of dexamethasone might be mediated by monoamine oxidase.
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PMID:Degeneration of dopaminergic neurons induced by thrombin injection in the substantia nigra of the rat is enhanced by dexamethasone: role of monoamine oxidase enzyme. 1996 22


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