Parkinson’s disease (PD) is the second most common neurodegenerative
disorder with currently no effective neuroprotective or neurorestorative
treatments available. Alpha-synuclein (α-syn) pathology is one of the key
proteins involved in PD pathology, it has been found to induce mitochondrial
dysfunction, yet the mechanism is not entirely understood. This thesis project
tests the hypothesis that α-syn induces mitochondrial dysfunction through
disruption of fission/fusion pathway. Using an inducible cell line, I
successfully demonstrated that in a time-dependent manner α-syn
overexpression induces mitochondrial fragmentation through disruption of
fission/fusion dynamics, collapse of mitochondrial membrane potential,
increased oxidative stress and impaired mitochondrial respiratory capacity. In
addition, accumulation of protein aggregation was also observed due to
impaired autophagy flux. More importantly, blocking the fission protein
Dynamin Related protein 1 (Drp1) either genetically or pharmacologically
confers protection against these abnormalities. Although further investigation
is needed to better understand this protective mechanism, these results are
consistent with our previous published data and those from other laboratories
that Drp1 inhibition is a promising therapeutic target for PD.
Date of Award | 2019 |
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Original language | English |
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Awarding Institution | |
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Supervisor | Kim Tieu (Other Supervisor) |
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- Parkinson's Disease
- α-synuclein
- Drp1
- Mitochondria
- Autophagy
Drp1 inhibition is protective against mitochondrial and autophagic impairment induced by alpha-synuclein
Fan, Z. (Author). 2019
Student thesis: PhD