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Query: UMLS:C0030567 (
Parkinson's disease
)
63,064
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mutations in the PARK7/
DJ-1
gene cause autosomal-recessive
Parkinson's disease
. In some patients the gene is deleted. The molecular basis of disease in patients with point mutations is less obvious. We have investigated the molecular properties of [L166P]
DJ-1
and the novel variant [E64D]
DJ-1
. When transfected into non-neuronal and neuronal cell lines, steady-state expression levels of [L166P]
DJ-1
were dramatically lower than wild-type [WT]
DJ-1
and [E64D]
DJ-1
. Cycloheximide and pulse-chase experiments revealed that the decreased expression levels of [L166P]
DJ-1
were because of accelerated protein turnover. Proteasomal degradation was not the major pathway of
DJ-1
breakdown because treatment with the proteasome inhibitor MG-132 caused only minimal accumulation of
DJ-1
, even of the very unstable [L166P]
DJ-1
mutant. Because of the structural resemblance of
DJ-1
with bacterial cysteine proteases, we considered an autoproteolytic mechanism. However, neither pharmacological inhibition nor site-directed mutagenesis of the putative active site residue Cys-106 stabilized
DJ-1
. To gain further insight into the structural defects of
DJ-1
mutants, human [WT]
DJ-1
and both mutants were expressed in Escherichia coli. As in eukaryotic cells, expression levels of [L166P]
DJ-1
were dramatically reduced compared with [WT]
DJ-1
and [E64D]
DJ-1
. Circular dichroism spectrometry revealed that the solution structures of [WT]
DJ-1
and [E64D]
DJ-1
are rich in beta-strand and alpha-helix conformation. Alpha-helices were more susceptible to thermal denaturation than the beta-sheet, and [WT]
DJ-1
was more flexible in this regard than [E64D]
DJ-1
. Thus, structural defects of [E64D]
DJ-1
only become apparent upon denaturing conditions, whereas the L166P mutation causes a drastic defect that leads to excessive degradation.
...
PMID:Differential effects of Parkinson's disease-associated mutations on stability and folding of DJ-1. 1460 41
Genetic analysis of early onset
Parkinson's disease
(PD) has indicated that the mutation
DJ-1
gene is one cause of autosomal recessive PD. Its role in the development of late onset PD and other Lewy body associated disorders such as dementia with Lewy bodies (DLB) is however unknown. We have therefore determined the influence of a common polymorphism in the
DJ-1
gene that shows strong linkage disequilibrium with other
DJ-1
polymorphisms, in late onset PD and DLB. No alteration in the frequency of the intron 1 deletion allele was seen in PD or DLB, nor were
DJ-1
genotypes altered by disease. Stratification of the cases according to the apolipoprotein E epsilon4 allele additionally failed to show any significant association. The
DJ-1
gene does not appear to be a significant risk factor for late onset Lewy body disease in this population.
...
PMID:Polymorphism in the human DJ-1 gene is not associated with sporadic dementia with Lewy bodies or Parkinson's disease. 1462 45
Two mutations in the
DJ-1
gene on chromosome1p36 have been identified recently to cause early-onset, autosomal recessive
Parkinson's disease
. As no information is available regarding the distribution of
DJ-1 protein
in the human brain, in this study we used a monoclonal antibody for
DJ-1
to map its distribution in frontal cortex and substantia nigra, regions invariably involved in
Parkinson's disease
. Western blotting of human frontal cortex showed
DJ-1
to be an abundant protein in control, idiopathic
Parkinson's disease
, cases with clinical and pathological phenotypes of
Parkinson's disease
with R98Q polymorphism for
DJ-1
, and in progressive supranuclear palsy (PSP) brains. We also showed that
DJ-1
immunoreactivity (IR) was particularly prominent in astrocytes and astrocytic processes in both control and
Parkinson's disease
frontal cortex, whereas neurons showed light or no
DJ-1
IR. Only occasional Lewy bodies (LBs), the pathological hallmarks of
Parkinson's disease
, showed faint
DJ-1
IR, localized to the outer halo. In preclinical studies we showed that
DJ-1
is expressed in primary hippocampal and astrocyte cultures of mouse brain. By 2D gel analysis we also showed multiple pI isoforms for
DJ-1
ranging between 5.5-6.6 in both control and
Parkinson's disease
brains, whilst exposure of M17 cells to the oxidizing agent paraquat was manifested as a shift in pI of endogenous
DJ-1
towards more acidic isoforms. We conclude that
DJ-1
is not an essential component of LBs and Lewy neurites, is expressed mainly by astrocytes in human brain tissue and is sensitive to oxidative stress conditions. These results are consistent with the hypothesis that neuronal-glial interactions are important in the pathophysiology of
Parkinson's disease
.
...
PMID:The expression of DJ-1 (PARK7) in normal human CNS and idiopathic Parkinson's disease. 1466 19
Mutations in
DJ-1
, a protein of unknown function, were recently identified as the cause for an autosomal recessive, early onset form of familial
Parkinson's disease
. Here we report that
DJ-1
is a dimeric protein that exhibits protease activity but no chaperone activity. The protease activity was abolished by mutation of Cys-106 to Ala, suggesting that
DJ-1
functions as a cysteine protease. Our studies revealed that the
Parkinson's disease
-linked L166P mutation impaired the intrinsic folding propensity of
DJ-1 protein
, resulting in a spontaneously unfolded structure that was incapable of forming a homodimer with itself or a heterodimer with wild-type
DJ-1
. Correlating with the disruption of
DJ-1
structure, the L166P mutation abolished the catalytic function of
DJ-1
. Furthermore, as a result of protein misfolding, the L166P mutant
DJ-1
was selectively polyubiquitinated and rapidly degraded by the proteasome. Together these findings provide insights into the molecular mechanism by which loss-of-function mutations in
DJ-1
lead to
Parkinson's disease
.
...
PMID:Familial Parkinson's disease-associated L166P mutation disrupts DJ-1 protein folding and function. 1466 35
Mutations in the
DJ-1
gene have recently been shown to cause autosomal recessive
Parkinson's disease
. To estimate the prevalence of this mutation, an analysis was undertaken of 39 index cases of
Parkinson's disease
in whom a family history suggested autosomal recessive inheritance. No
DJ-1
mutations were found in these patients, indicating that this gene is unlikely to be of numerical significance in clinical practice. The hypothesis was also tested that young onset
Parkinson's disease
patients in whom, despite extensive analysis, only a single heterozygous parkin mutation was found, might harbour a second mutation in the
DJ-1
gene--that is, digenic inheritance. No patient was found with a single mutation in both
DJ-1
and parkin genes, making this mode of inheritance unlikely. Finally it was confirmed that PARK6 and PARK7 (
DJ-1
), despite being phenotypically similar and mapping to the same small chromosomal region of 1p36, are caused by mutations in separate genes.
...
PMID:DJ-1 mutations in Parkinson's disease. 1470 26
Rare monogenic forms of
Parkinson's disease
(PD) are promoting our understanding of the molecular pathways involved in the common, non-Mendelian forms of the disease. Here, we focus on PARK7, an autosomal recessive form of early-onset parkinsonism caused by mutations in the
DJ-1
gene. We first review the genetics of this form and the rapidly expanding knowledge about the structure and biochemical properties of the
DJ-1 protein
. We also discuss how
DJ-1
dysfunction might lead to neurodegeneration, and the implications of this novel piece of information for the pathogenesis of the common PD forms. Although much work remains to be done to clarify the biology of
DJ-1
, its proposed activity as a molecular chaperone and/or as oxidative sensor appear intriguing in the light of the current theories on the pathogenesis of PD.
...
PMID:Linking DJ-1 to neurodegeneration offers novel insights for understanding the pathogenesis of Parkinson's disease. 1471 51
The identification of genetic mutations responsible for rare familial forms of
Parkinson's disease
(PD) have provided tremendous insight into the molecular pathogenesis of this disorder. Mutations in the
DJ-1
gene cause autosomal recessive early onset PD in two European families. A Dutch kindred displays a large homozygous genomic deletion encompassing exons 1-5 of the
DJ-1
gene, whereas an Italian kindred harbors a single homozygous L166P missense mutation. A homozygous M26I missense mutation was also recently reported in an Ashkenazi Jewish patient with early onset PD. Mutations in
DJ-1
are predicted to be loss of function. The recent determination of the crystal structure of human
DJ-1
demonstrates that it exists in a homo-dimeric form in vitro, whereas the L166P mutant exists only as a monomer. Here, we examine the in vivo effects of the pathogenic L166P and M26I mutations on the properties of
DJ-1
in cell culture. We report that the L166P mutation confers markedly reduced protein stability to
DJ-1
, which results from enhanced degradation by the 20S/26S proteasome but not from a loss of mRNA expression. Furthermore, the L166P mutant protein exhibits an impaired ability to self-interact to form homo-oligomers. In contrast, the M26I mutation does not appear to adversely affect either protein stability, turnover by the proteasome, or the capacity of
DJ-1
to form homo-oligomers. These properties of the L166P mutation may contribute to the loss of normal
DJ-1
function and are likely to be the underlying cause of early onset PD in affected members of the Italian kindred.
...
PMID:A missense mutation (L166P) in DJ-1, linked to familial Parkinson's disease, confers reduced protein stability and impairs homo-oligomerization. 1471 11
The yeast gene YDR533C encodes a protein belonging to the
DJ-1
/ThiJ/PfpI superfamily. This family includes the human
protein DJ-1
, which is mutated in autosomal recessive early-onset
Parkinson's disease
. The function of
DJ-1
and its yeast homologue YDR533Cp is unknown. We report here the crystal structure of YDR533Cp at 1.8-A resolution. The structure indicates that the closest relative to YDR533Cp is the Escherichia coli heat shock protein Hsp31 (YedU), which has both chaperone and protease activity. As expected, the overall fold of the core domain of YDR533Cp is also similar to that of
DJ-1
and the bacterial protease PfpI. YDR533Cp contains a possible catalytic triad analogous to that of Hsp31 and an additional domain that is present in Hsp31 but is not seen in
DJ-1
and other members of the family. The cysteine in this triad (Cys-138) is oxidized in this crystal structure, similar to modifications seen in the corresponding cysteine in the crystal structure of
DJ-1
. YDR533Cp appears to be a dimer both in solution and the crystal, but this dimer is formed by a different interface than that found in Hsp31 or other members of the superfamily.
...
PMID:The 1.8-A resolution crystal structure of YDR533Cp from Saccharomyces cerevisiae: a member of the DJ-1/ThiJ/PfpI superfamily. 1474 11
Deletion and point (L166P) mutations of
DJ-1
have recently been shown to be responsible for the onset of familial
Parkinson's disease
(PD, PARK7). The aim of this study was to determine the role of
DJ-1
in PD. We first found that
DJ-1
eliminated hydrogen peroxide in vitro by oxidizing itself. We then found that
DJ-1
knockdown by short interfering RNA rendered SH-SY5Y neuroblastoma cells susceptible to hydrogen peroxide-, MPP+- or 6-hydroxydopamine-induced cell death and that cells harbouring mutant forms of
DJ-1
, including L166P, became susceptible to death in parallel with the loss of oxidized forms of
DJ-1
. These results clearly showed that
DJ-1
has a role in the antioxidative stress reaction and that mutations of
DJ-1
lead to cell death, which is observed in PD.
...
PMID:DJ-1 has a role in antioxidative stress to prevent cell death. 1474 23
Dominant mutations in the gene for alpha-synuclein, a small presynaptic protein, can cause
Parkinson's disease
. Although there is still substantial debate about the precise mechanisms, alpha-synuclein is toxic to vulnerable neurons, probably as a result of its tendency to aggregate. Opposing this is another gene product that, when mutated, causes a recessive form of parkinsonism, parkin. Parkin has been recently shown to protect cells against alpha-synuclein toxicity. However, the precise details of the mechanism are unclear. This review will discuss the concept that there are multiple neuronal functions that are targeted by mutant alpha-synuclein, and in many cases, there is evidence that parkin can protect cells against damage to the same systems. The authors will also discuss ways in which to test some of these ideas, by using newly identified genes such as
DJ-1
that cause similar phenotypes.
...
PMID:Parkin and alpha-synuclein: opponent actions in the pathogenesis of Parkinson's disease. 1498 49
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