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)

Parkin, a ubiquitin ligase, is responsible for autosomal recessive juvenile parkinsonism (AR-JP). We identified parkin-associated endothelin receptor-like receptor (Pael-R) as a substrate of parkin, whose accumulation is thought to induce unfolded protein response (UPR) -mediated cell death, leading to dopaminergic neurodegeneration. To create an animal model of AR-JP, we generated parkin knockout/Pael-R transgenic (parkin-ko/Pael-R-tg) mice. parkin-ko/Pael-R-tg mice exhibited early and progressive loss of dopaminergic as well as noradrenergic neurons without formation of inclusion bodies, recapitulating the pathological features of AR-JP. Evidence of activation of UPR and up-regulation of dopamine and its metabolites were observed throughout the lifetime. Moreover, complex I activity of mitochondria isolated from parkin-ko/Pael-R-tg mice was significantly reduced later in life. These findings suggest that persistent induction of unfolded protein stress underlies chronic progressive catecholaminergic neuronal death, and that dysfunction of mitochondrial complex I and oxidative stress might be involved in the progression of Parkinson's disease. parkin-ko/Pael-R-tg mice represents an AR-JP mouse model displaying chronic and selective loss of catecholaminergic neurons.
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PMID:Pael-R transgenic mice crossed with parkin deficient mice displayed progressive and selective catecholaminergic neuronal loss. 1869 89

Loss-of-function mutations in Park2, the gene coding for the ubiquitin ligase Parkin, are a significant cause of early onset Parkinson's disease. Although the role of Parkin in neuron maintenance is unknown, recent work has linked Parkin to the regulation of mitochondria. Its loss is associated with swollen mitochondria and muscle degeneration in Drosophila melanogaster, as well as mitochondrial dysfunction and increased susceptibility to mitochondrial toxins in other species. Here, we show that Parkin is selectively recruited to dysfunctional mitochondria with low membrane potential in mammalian cells. After recruitment, Parkin mediates the engulfment of mitochondria by autophagosomes and the selective elimination of impaired mitochondria. These results show that Parkin promotes autophagy of damaged mitochondria and implicate a failure to eliminate dysfunctional mitochondria in the pathogenesis of Parkinson's disease.
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PMID:Parkin is recruited selectively to impaired mitochondria and promotes their autophagy. 2582 13

Mutations in parkin gene are responsible for autosomal recessive Parkinson's disease (ARPD) and its loss-of-function is assumed to affect parkin ubiquitin ligase activity. Accumulation of its substrate may induce dopaminergic neurodegeneration in the substantia nigra (SN) of ARPD. Here, we show that parkin interacts with programmed cell death-2 isoform 1 (PDCD2-1) and promotes its ubiquitination. Furthermore, accumulation of PDCD2-1 was found in the SN of ARPD as well as in sporadic PD, suggesting that common failure of the ubiquitin-proteasome system is associated with neuronal death in both ARPD and sporadic PD.
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PMID:Programmed cell death-2 isoform1 is ubiquitinated by parkin and increased in the substantia nigra of patients with autosomal recessive Parkinson's disease. 1914 57

Protein aggregation as a result of misfolding is a common theme underlying neurodegenerative diseases. In Parkinson's disease (PD), research on protein misfolding and aggregation has taken center stage following the association of alpha-synuclein gene mutations with familial forms of the disease, and importantly, the identification of the protein as a major component of Lewy bodies, a pathological hallmark of PD. Fueling this excitement is the subsequent identification of another PD-linked gene, parkin, as a ubiquitin ligase associated with the proteasome, a major intracellular protein degradation machinery that destroys unwanted, albeit mainly soluble, proteins. Notably, a role for parkin in the clearance of insoluble protein aggregates via macroautophagy has also been implicated by more recent studies. Paradoxically, like alpha-synuclein, parkin is also prone to misfolding, especially in the presence of age-related stress. Similarly, protein misfolding can also affect the function of other key PD-linked genes such as DJ-1, PINK1, and perhaps also LRRK2. Here, we discuss the role of protein misfolding and aggregation in PD, and how impairments of the various cellular protein quality systems could precipitate these events and lead to neuronal demise. Towards the end of our discussion, we also revisited the role of Lewy body formation in PD.
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PMID:Protein misfolding and aggregation in Parkinson's disease. 1924 38

Knockout of the ubiquitin ligase Parkin, the gene product of the Parkinson associated Park2, leads to loss of mitochondrial integrity and function in Drosophila melanogaster. Although Parkin is primarily cytosolic, we have found that Parkin is selectively recruited to dysfunctional mitochondria with low membrane potential and subsequently promotes their autophagy. Here we report that Parkin recruitment is voltage-dependent and independent of changes in ATP or pH. These findings suggest that Parkin promotes mitophagy of dysfunctional mitochondria following loss of mitochondrial membrane potential and implicates the targeted elimination of mitochondria in the pathogenesis of Parkinson disease.
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PMID:Parkin-induced mitophagy in the pathogenesis of Parkinson disease. 1937 97

Alzheimer's disease and Parkinson's disease are common neurodegenerative diseases that may share some underlying mechanisms of pathogenesis. Abeta(1-42) fragments are found intracellularly, and extracellularly as amyloid plaques, in Alzheimer's disease and in dementia with Lewy Bodies. Parkin is an E3-ubiquitin ligase involved in proteasomal degradation of intracellular proteins. Mutations in parkin, which result in loss of parkin function, lead to early onset Parkinsonism. Here we tested whether the ubiquitin ligase activity of parkin could lead to reduction in intracellular human Abeta(1-42). Lentiviral constructs encoding either human parkin or human Abeta(1-42) were used to infect M17 neuroblastoma cells. Parkin expression resulted in reduction of intracellular human Abeta(1-42) levels and protected against its toxicity in M17 cells. Co-injection of lentiviral constructs into control rat primary motor cortex demonstrated that parkin co-expression reduced human Abeta(1-42) levels and Abeta(1-42)-induced neuronal degeneration in vivo. Parkin increased proteasomal activity, and proteasomal inhibition blocked the effects of parkin on reducing Abeta(1-42) levels. Incubation of Abeta(1-42) cell lysates with ubiquitin, in the presence of parkin, demonstrated the generation of Abeta-ubiquitin complexes. These data indicate that parkin promotes ubiquitination and proteasomal degradation of intracellular Abeta(1-42) and demonstrate a protective effect in neurodegenerative diseases with Abeta deposits.
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PMID:Parkin promotes intracellular Abeta1-42 clearance. 1948 98

Parkinson's disease (PD) is a common neurodegenerative disorder caused mainly because of the loss of dopaminergic neurons in the substantia nigra. Protein inclusions called Lewy bodies are the most common pathological hallmark of PD and other synucleinopathies. Because the main component of these inclusions is alpha-synuclein, aggregation of this protein is thought to be a key pathogenic event in this disease. In the present investigation we report that E6 associated protein (E6-AP), a HECT (homologous to E6-AP C-terminus) domain ubiquitin ligase is a component of Lewy bodies in post-mortem PD brain. In the cell culture model, we demonstrate that endogenous E6-AP colocalizes with alpha-synuclein in juxtanuclear aggregates. E6-AP is also recruited to the centrosome upon inhibition of the proteasome function suggesting its involvement in the degradation of misfolded proteins. Over-expression of E6-AP enhances the degradation of wild type as well as the mutant forms of alpha-synuclein in a proteasome-dependent manner. E6-AP also promotes the degradation of the more toxic oligomeric forms of alpha-synuclein. Our data suggests that E6-AP is involved in the clearance of alpha-synuclein.
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PMID:The ubiquitin ligase E6-AP promotes degradation of alpha-synuclein. 1964 49

Anxiety is an instinct that may have developed to promote adaptive survival by evading unnecessary danger. However, excessive anxiety is disruptive and can be a basic disorder of other psychiatric diseases such as depression. The KF-1, a ubiquitin ligase located on the endoplasmic reticulum (ER), may prevent excessive anxiety; kf-1(-/-) mice exhibit selectively elevated anxiety-like behavior against light or heights. It is surmised that KF-1 degrades some target proteins, responsible for promoting anxiety, through the ER-associated degradation pathway, similar to Parkin in Parkinson's disease (PD). Parkin, another ER-ubiquitin ligase, prevents the degeneration of dopaminergic neurons by degrading the target proteins responsible for PD. Molecular phylogenetic studies have revealed that the prototype of kf-1 appeared in the very early phase of animal evolution but was lost, unlike parkin, in the lineage leading up to Drosophila. Therefore, kf-1(-/-) mice may be a powerful tool for elucidating the molecular mechanisms involved in emotional regulation, and for screening novel anxiolytic/antidepressant compounds.
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PMID:KF-1 Ubiquitin Ligase: An Anxiety Suppressor. 1975 93

Mutations of the ubiquitin ligase parkin account for most autosomal recessive forms of juvenile Parkinson's disease (AR-JP). Several studies have suggested that parkin possesses DNA-binding and transcriptional activity. We report here that parkin is a p53 transcriptional repressor. First, parkin prevented 6-hydroxydopamine-induced caspase-3 activation in a p53-dependent manner. Concomitantly, parkin reduced p53 expression and activity, an effect abrogated by familial parkin mutations known to either abolish or preserve its ligase activity. ChIP experiments indicate that overexpressed and endogenous parkin interact physically with the p53 promoter and that pathogenic mutations abolish DNA binding to and promoter transactivation of p53. Parkin lowered p53 mRNA levels and repressed p53 promoter transactivation through its Ring1 domain. Conversely, parkin depletion enhanced p53 expression and mRNA levels in fibroblasts and mouse brains, and increased cellular p53 activity and promoter transactivation in cells. Finally, familial parkin missense and deletion mutations enhanced p53 expression in human brains affected by AR-JP. This study reveals a ubiquitin ligase-independent function of parkin in the control of transcription and a functional link between parkin and p53 that is altered by AR-JP mutations.
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PMID:Transcriptional repression of p53 by parkin and impairment by mutations associated with autosomal recessive juvenile Parkinson's disease. 1980 72

Recent studies have revealed a prominent role of mitochondrial dysfunction in the development of one of the most common neurodegenerative disorders, Parkinson's disease. The ubiquitin ligase Parkin and the protein kinase PINK1, whose mutations are associated with Parkinson's disease, function in a pathway that links ubiquitylation with selective autophagy of damaged mitochondria.
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PMID:Mitochondria get a Parkin' ticket. 2011 96


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