Characterization of a Cul9-Parkin double knockout mouse model for Parkinson's disease.

Emilie Hollville, Valerie Joers, Ayumi Nakamura, Vijay Swahari, Malú G Tansey, Sheryl S Moy, Mohanish Deshmukh

Scientific reports 2020 Oct 09

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Mitochondrial quality control is essential for the long-term survival of postmitotic neurons. The E3 ubiquitin ligase Parkin promotes the degradation of damaged mitochondria via mitophagy and mutations in Parkin are a major cause of early-onset Parkinson's disease (PD). Surprisingly however, mice deleted for Parkin alone are rather asymptomatic for PD-related pathology, suggesting that other complementary or redundant mitochondrial quality control pathways may exist in neurons. Mitochondrial damage is often accompanied by the release of toxic proteins such as cytochrome c. We have reported that once in the cytosol, cytochrome c is targeted for degradation by the E3 ligase CUL9 in neurons. Here we examined whether CUL9 and Parkin cooperate to promote optimal neuronal survival in vivo. We generated mice deficient for both Cul9 and Parkin and examined them for PD-related phenotypes. Specifically, we conducted assays to examine behavioural deficits (locomotor, sensory, memory and learning) and loss of dopaminergic neurons in both males and females. Our results show that the loss of Cul9 and Parkin together did not enhance the effect of Parkin deficiency alone. These results indicate that while both Parkin and CUL9 participate in mitochondrial quality control, neurons likely have multiple redundant mechanisms to ensure their long-term survival.

Citation

Emilie Hollville, Valerie Joers, Ayumi Nakamura, Vijay Swahari, Malú G Tansey, Sheryl S Moy, Mohanish Deshmukh. Characterization of a Cul9-Parkin double knockout mouse model for Parkinson's disease. Scientific reports. 2020 Oct 09;10(1):16886