| Abstract: | Mitochondria may be both the source and the target of oxidative stress in neurodegenerative disease. In models of excitotoxicity, neuronal injury is triggered by the influx of calcium into neurons and then into mitochondria. Our studies suggest that an important consequence of this calcium movement is the generation of ROS by mitochondria. Studies with isolated mitochondria suggest that calcium may enhance ROS generation by mitochondria, especially when complex I is impaired. However, these studies are complicated by a lack of specificity of detection methods like Amplex Red. One feature of mitochondria is their movement within neurons. We used fluorescent proteins targeted to mitochondria to follow trafficking in neurons. Neurotoxins like glutamate, zinc and peroxide, which feature oxidative stress in their mechanism of action, affect mitochondrial movement, morphology or both. We speculate that restricting the delivery of mitochondria to their targets within neurons could impair neuronal viability. |
