The significance of mitochondrial dysfunction in cancer
As an essential organelle in nucleated eukaryotic cells, mitochondria play a central role in
energy metabolism, maintenance of redox balance, and regulation of apoptosis.
Mitochondrial dysfunction, either due to the TCA cycle enzyme defects, mitochondrial DNA
genetic mutations, defective mitochondrial electron transport chain, oxidative stress, or
aberrant oncogene and tumor suppressor signaling, has been observed in a wide spectrum
of human cancers. In this review, we summarize mitochondrial dysfunction induced by these …
energy metabolism, maintenance of redox balance, and regulation of apoptosis.
Mitochondrial dysfunction, either due to the TCA cycle enzyme defects, mitochondrial DNA
genetic mutations, defective mitochondrial electron transport chain, oxidative stress, or
aberrant oncogene and tumor suppressor signaling, has been observed in a wide spectrum
of human cancers. In this review, we summarize mitochondrial dysfunction induced by these …
As an essential organelle in nucleated eukaryotic cells, mitochondria play a central role in energy metabolism, maintenance of redox balance, and regulation of apoptosis. Mitochondrial dysfunction, either due to the TCA cycle enzyme defects, mitochondrial DNA genetic mutations, defective mitochondrial electron transport chain, oxidative stress, or aberrant oncogene and tumor suppressor signaling, has been observed in a wide spectrum of human cancers. In this review, we summarize mitochondrial dysfunction induced by these alterations that promote human cancers.
MDPI
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