Development of Novel Approach for In Situ Generation of Oxidative Stress using KillerRed in C. elegans

Fu, Donald Wai-Bong

22 November 2012

Oxidative stress has been implied in a wide variety of diseases, such as cancer, myocardial infarction, and neurodegenerative diseases including Parkinson's diseases (PD). PD is characterized by the degeneration of dopaminergic (DA) neurons; genetic studies have identified gene mutations causal to PD. Accumulating studies hypothesize that these genes protect DA neurons against oxidative stress. However, lack of experimental tools to target oxidative stress in specific cells has prevented direct evaluation of the hypothesis. We established a novel method to use KillerRed (KR), a genetically-encoded protein that generates radicals upon light activation. We showed its efficacy in live animals by cell-specific ablation of neurons in C. elegans. We applied KR to degenerate DA neurons. By controlling the level of stress via activation light, the protective role of PD-gene, LRRK2, against oxidative stress was confirmed. Thus, we established a method to address the role of oxidative stress in a cell-specific manner.

Parkinson's disease

C. elegans

Optogenetic

KillerRed

Oxidative Stress

Genetics

Neurodegeneration

dopamine neurons

0369

0317

0719

Development of Novel Approach for In Situ Generation of Oxidative Stress using KillerRed in C. elegans

Fu, Donald Wai-Bong

22 November 2012

Oxidative stress has been implied in a wide variety of diseases, such as cancer, myocardial infarction, and neurodegenerative diseases including Parkinson's diseases (PD). PD is characterized by the degeneration of dopaminergic (DA) neurons; genetic studies have identified gene mutations causal to PD. Accumulating studies hypothesize that these genes protect DA neurons against oxidative stress. However, lack of experimental tools to target oxidative stress in specific cells has prevented direct evaluation of the hypothesis. We established a novel method to use KillerRed (KR), a genetically-encoded protein that generates radicals upon light activation. We showed its efficacy in live animals by cell-specific ablation of neurons in C. elegans. We applied KR to degenerate DA neurons. By controlling the level of stress via activation light, the protective role of PD-gene, LRRK2, against oxidative stress was confirmed. Thus, we established a method to address the role of oxidative stress in a cell-specific manner.

Parkinson's disease

C. elegans

Optogenetic

KillerRed

Oxidative Stress

Genetics

Neurodegeneration

dopamine neurons

0369

0317

0719