Abstract
The maintenance of the mitochondrial function is essential in preventing and counteracting neurodegeneration. In particular, mitochondria of neuronal cells play a pivotal role in sustaining the high energetic metabolism of these cells and are especially prone to oxidative damage. Since overproduction of reactive oxygen species (ROS) is involved in the pathogenesis of neurodegeneration, dietary antioxidants have been suggested to counteract the detrimental effects of ROS and to preserve the mitochondrial function, thus slowing the progression and limiting the extent of neuronal cell loss in neurodegenerative disorders. In addition to their role in the redox-system homeostasis, mitochondria are unique organelles in that they contain their own genome (mtDNA), which acts at the interface between environmental exposures and the molecular triggers of neurodegeneration. Indeed, it has been demonstrated that mtDNA (including both genetics and, from recent evidence, epigenetics) might play relevant roles in modulating the risk for neurodegenerative disorders. This mini-review describes the link between the mitochondrial genome and cellular oxidative status, with a particular focus on neurodegeneration; moreover, it provides an overview on potential beneficial effects of antioxidants in preserving mitochondrial functions through the protection of mtDNA.
Highlights
Neurodegenerative diseases are characterized by the progressive degeneration of neurons and synapses of the brain cortex and some subcortical regions in the central nervous system
This review describes the link existing between the mitochondrial genome and cellular oxidative status, with a particular focus on neurodegeneration
Since mitochondrial dysfunctions are typical of neurodegeneration, the role of dietary antioxidants in preventing these multifactorial diseases can be central, and it might pass through the protection of genetic and epigenetic features of the mitochondrial DNA
Summary
Neurodegenerative diseases are characterized by the progressive degeneration of neurons and synapses of the brain cortex and some subcortical regions in the central nervous system This process can be induced by various neurotoxic events, such as excessive inflammation, ROS production, and mitochondrial dysfunctions, among many others. It has been highlighted that mtDNA genetics and epigenetics might play relevant roles in modulating the risk for neurodegenerative disease, acting at the interface between environmental exposures and the molecular triggers of neurodegeneration. This review describes the link existing between the mitochondrial genome and cellular oxidative status, with a particular focus on neurodegeneration It discusses the potential beneficial effects of antioxidants in preserving the mitochondrial function through the protection of mtDNA genetics and epigenetics
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