2017
DOI: 10.1016/j.tox.2017.05.018
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Deficiencies in mitochondrial dynamics sensitize Caenorhabditis elegans to arsenite and other mitochondrial toxicants by reducing mitochondrial adaptability

Abstract: Mitochondrial fission, fusion, and mitophagy are interlinked processes that regulate mitochondrial shape, number, and size, as well as metabolic activity and stress response. The fundamental importance of these processes is evident in the fact that mutations in fission (DRP1), fusion (MFN2, OPA1), and mitophagy (PINK1, PARK2) genes can cause human disease (collectively >1/10,000). Interestingly, however, the age of onset and severity of clinical manifestations varies greatly between patients with these disease… Show more

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Cited by 52 publications
(46 citation statements)
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“…However, UVC-induced mtDNA damage only caused larval growth arrest in fusion ( fzo-1, eat-3 )-deficient nematodes, suggesting that individuals with fusion deficiencies are more susceptible to toxicity induced by irreparable mtDNA damage. In agreement with this, we have also observed sensitivity to the mycotoxin aflatoxin B 1 and the chemotherapeutic cisplatin, both of which can cause irreparable mtDNA damage (González-Hunt et al 2014; Niranjan et al 1982; Podratz et al 2011), in fzo-1 - and eat-3 -deficient but not drp-1 C. elegans (Luz et al 2017). Although the precise reason for sensitivity to irreparable mtDNA damage in fusion-deficient C. elegans remains unknown, one possibility is the existence of a threshold effect in which >65% of mtDNA must typically be damaged or lost prior to pathogenesis (Taylor and Turnbull 2005).…”
Section: Gene-environment Interactions: How Does Genetic Variationsupporting
confidence: 87%
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“…However, UVC-induced mtDNA damage only caused larval growth arrest in fusion ( fzo-1, eat-3 )-deficient nematodes, suggesting that individuals with fusion deficiencies are more susceptible to toxicity induced by irreparable mtDNA damage. In agreement with this, we have also observed sensitivity to the mycotoxin aflatoxin B 1 and the chemotherapeutic cisplatin, both of which can cause irreparable mtDNA damage (González-Hunt et al 2014; Niranjan et al 1982; Podratz et al 2011), in fzo-1 - and eat-3 -deficient but not drp-1 C. elegans (Luz et al 2017). Although the precise reason for sensitivity to irreparable mtDNA damage in fusion-deficient C. elegans remains unknown, one possibility is the existence of a threshold effect in which >65% of mtDNA must typically be damaged or lost prior to pathogenesis (Taylor and Turnbull 2005).…”
Section: Gene-environment Interactions: How Does Genetic Variationsupporting
confidence: 87%
“…2), arsenite, and paraquat (Luz et al 2017; Yang et al 2011), and a recent report supports a role for mitochondrial fission in the adaptive response to mitochondrial dysfunction (Benard et al 2013), loss or inhibition of fission is currently more frequently associated with protection in the literature. For example, DRP1 siRNA reduced cell death in human SH-SY5Y cells exposed to 6-hydroxydopamine (Gomez-Lazaro et al 2008), reduced cell death in rat astrocytoma C6 cells exposed to manganese (Alaimo et al 2014), reduced cell death in mouse HT22 neurons exposed to glutamate (Grohm et al 2012), reduced cell death in lung epithelial cells exposed to cigarette smoke extract (Mizumura et al 2014), reduced mitochondrial dysfunction in human L02 hepatocytes exposed to cadmium (Xu et al 2013a), and protected drp-1 -deficient nematodes from acrolein-induced larval growth delay (Luz et al 2017). These results suggest hyperfusion caused by mutations in drp-1 may be protective under certain conditions.…”
Section: Gene-environment Interactions: How Does Genetic Variationmentioning
confidence: 92%
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