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DNA replication inhibitor hydroxyurea alters Fe-S centers by producing reactive oxygen species in vivo.


ABSTRACT: Redox homeostasis is tightly controlled in cells as it is critical for most cellular functions. Iron-Sulfur centers (Fe-S) are metallic cofactors with electronic properties that are associated with proteins and allow fine redox tuning. Following the observation that altered Fe-S biosynthesis is correlated with a high sensitivity to hydroxyurea (HU), a potent DNA replication blocking agent, we identified that oxidative stress response pathway under the control of the main regulator Yap1 attenuates HU deleterious effects, as it significantly increases resistance to HU, Fe-S biosynthesis and DNA replication kinetics in the presence of HU. Yap1 effect is mediated at least in part through up-regulation of two highly conserved genes controlling cytosolic Fe-S biosynthesis and oxidative stress, Dre2 and Tah18. We next observed that HU produces deleterious effects on cytosolic Fe-S clusters in proteins in vivo but not in vitro, suggesting that HU's impact on Fe-S in vivo is mediated by cellular metabolism. Finally, we evidenced that HU exposure was accompanied by production of reactive oxygen species intracellularly. Altogether, this study provides mechanistic insight on the initial observation that mutants with altered Fe-S biosynthesis are highly sensitive to HU and uncovers a novel mechanism of action of this widely used DNA replication inhibitor.

SUBMITTER: Huang ME 

PROVIDER: S-EPMC4942693 | biostudies-literature | 2016 Jul

REPOSITORIES: biostudies-literature

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DNA replication inhibitor hydroxyurea alters Fe-S centers by producing reactive oxygen species in vivo.

Huang Meng-Er ME   Facca Céline C   Fatmi Zakaria Z   Baïlle Dorothée D   Bénakli Safia S   Vernis Laurence L  

Scientific reports 20160711


Redox homeostasis is tightly controlled in cells as it is critical for most cellular functions. Iron-Sulfur centers (Fe-S) are metallic cofactors with electronic properties that are associated with proteins and allow fine redox tuning. Following the observation that altered Fe-S biosynthesis is correlated with a high sensitivity to hydroxyurea (HU), a potent DNA replication blocking agent, we identified that oxidative stress response pathway under the control of the main regulator Yap1 attenuate  ...[more]

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