Sian Davies scite author profile

Parkinson's disease is a neurodegenerative disorder, characterized by accumulation and misfolding of α-synuclein. Although the level of α-synuclein in neurons is fundamentally linked to the onset of neurodegeneration, multiple pathways have been implicated in its degradation, and it remains unclear which are the critical ubiquitination enzymes that protect against α-synuclein accumulation in vivo. The ubiquitin ligase Nedd4 targets α-synuclein to the endosomal–lysosomal pathway in cultured cells. Here we asked whether Nedd4-mediated degradation protects against α-synuclein-induced toxicity in the Drosophila and rodent models of Parkinson's disease. We show that overexpression of Nedd4 can rescue the degenerative phenotype from ectopic expression of α-synuclein in the Drosophila eye. Overexpressed Nedd4 in the Drosophila brain prevented the α-synuclein-induced locomotor defect whereas reduction in endogenous Nedd4 by RNAi led to worsening motor function and increased loss of dopaminergic neurons. Accordingly, AAV-mediated expression of wild-type but not the catalytically inactive Nedd4 decreased the α-synuclein-induced dopaminergic cell loss in the rat substantia nigra and reduced α-synuclein accumulation. Collectively, our data in two evolutionarily distant model organisms strongly suggest that Nedd4 is a modifier of α-synuclein pathobiology and thus a potential target for neuroprotective therapies.

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The spinal muscular atrophy protein SMN affects Drosophila germline nuclear organization through the U body–P body pathway

Lei

Davies

Liu

2009

Developmental Biology

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Survival motor neuron protein (SMN) is the determining factor for the human neurodegenerative disease spinal muscular atrophy (SMA). SMN is critical for small nuclear ribonucleoprotein (snRNP) assembly. Using Drosophila oogenesis as a model system, we show that mutations in smn cause abnormal nuclear organization in nurse cells and oocytes. Germline and mitotic clonal analysis reveals that both nurse cells and oocytes require SMN to maintain normal organization of nuclear compartments including chromosomes, nucleoli, Cajal bodies and histone locus bodies. We previously found that SMN-containing U bodies invariably associate with P bodies (Liu, J. L., and Gall, J. G. (2007). U bodies are cytoplasmic structures that contain uridine-rich small nuclear ribonucleoproteins and associate with P bodies. Proc. Natl. Acad. Sci. U. S. A. 104, 11655-11659.). Multiple lines of evidence implicate SMN in the regulation of germline nuclear organization through the connection of U bodies and P bodies. Firstly, smn germline clones phenocopy mutations for two P body components, Cup and Ovarian tumour (Otu). Secondly, P body mutations disrupt SMN distribution and the organization of U bodies. Finally, mutations in smn disrupt the function and organization of U bodies and P bodies. Taken together, our results suggest that SMN is required for the functional integrity of the U body-P body pathway, which in turn is important for maintaining proper nuclear architecture.

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Sian Davies

Enhanced ubiquitin-dependent degradation by Nedd4 protects against α-synuclein accumulation and toxicity in animal models of Parkinson's disease

The spinal muscular atrophy protein SMN affects Drosophila germline nuclear organization through the U body–P body pathway

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