2014
DOI: 10.1016/j.neurobiolaging.2014.04.032
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Alpha-synuclein-induced neurodegeneration is exacerbated in PINK1 knockout mice

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Cited by 47 publications
(37 citation statements)
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“…This defect seems attributable to the incorrect localization of mitochondria at the synapses which reduces the ATP provision. The increased evoked release that we here observe could be supported by the evidence that PINK1 knockout mice show an increased expression of alpha‐synuclein (Oliveras‐Salvá et al, ) which seems to be linked to an augmented assembly of SNARE‐complex thereby increase release probability (Burré et al, ).…”
Section: Discussionsupporting
confidence: 76%
“…This defect seems attributable to the incorrect localization of mitochondria at the synapses which reduces the ATP provision. The increased evoked release that we here observe could be supported by the evidence that PINK1 knockout mice show an increased expression of alpha‐synuclein (Oliveras‐Salvá et al, ) which seems to be linked to an augmented assembly of SNARE‐complex thereby increase release probability (Burré et al, ).…”
Section: Discussionsupporting
confidence: 76%
“…In the rAAV-a-Syn models, the transgene expression is dependent on the serotype, the promoter, the injection site, and the titer of rAAV. The serotype rAAV2 is the most extensively used to date, probably because its production and purification methods are well-established (Van der Perren et al, 2014). However, there are some limitations associated with the rAAV2 serotype.…”
Section: Overexpression Of A-syn Mediated By Raavmentioning
confidence: 99%
“…When mitophagy fails to execute efficiently, the increased number of dysfunctional mitochondria in the cell can result in programmed (apoptotic) or nonprogrammed (necrotic) cell death, and degeneration into a diseased state [Mishra and Chan, 2014;Nikoletopoulou et al, 2015]. Since healthy mitochondria do not retain PINK1 on their outer membranes [Oliveras-Salv a et al, 2014;Steer et al, 2015], upregulating the PINK1/parkin mitophagic pathways should selectively remove dysfunctional mitochondria [Palikaras and Tavernarakis, 2014;Lionaki et al, 2015;Melser et al, 2015;Wei et al, 2015] thereby affording a new and actionable therapeutic target in the treatment of AD and PD [Narendra and Youle;Lazarou et al, 2012;Ashrafi et al, 2014;Hattori et al, 2014;McLelland et al, 2014;Tufi et al, 2014;Frake et al, 2015;Kazlauskaite and Muqit, 2015;Kroemer, 2015;Pickrell and Youle, 2015;Strappazzon et al, 2015].…”
Section: Apoptotic Priming In Mitochondriamentioning
confidence: 99%