Frontiers in Endocrinology (Jul 2022)

NADPH-Oxidase Derived Hydrogen Peroxide and Irs2b Facilitate Re-oxygenation-Induced Catch-Up Growth in Zebrafish Embryo

  • Ayaka Zasu,
  • Futa Hishima,
  • Marion Thauvin,
  • Marion Thauvin,
  • Yosuke Yoneyama,
  • Yosuke Yoneyama,
  • Yoichiro Kitani,
  • Fumihiko Hakuno,
  • Michel Volovitch,
  • Michel Volovitch,
  • Michel Volovitch,
  • Shin-Ichiro Takahashi,
  • Sophie Vriz,
  • Sophie Vriz,
  • Sophie Vriz,
  • Christine Rampon,
  • Christine Rampon,
  • Christine Rampon,
  • Hiroyasu Kamei

DOI
https://doi.org/10.3389/fendo.2022.929668
Journal volume & issue
Vol. 13

Abstract

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Oxygen deprivation induces multiple changes at the cellular and organismal levels, and its re-supply also brings another special physiological status. We have investigated the effects of hypoxia/re-oxygenation on embryonic growth using the zebrafish model: hypoxia slows embryonic growth, but re-oxygenation induces growth spurt or catch-up growth. The mitogen-activated kinase (MAPK)-pathway downstream insulin-like growth factor (IGF/Igf) has been revealed to positively regulate the re-oxygenation-induced catch-up growth, and the role of reactive oxygen species generated by environmental oxygen fluctuation is potentially involved in the phenomenon. Here, we report the role of NADPH-oxidase (Nox)-dependent hydrogen peroxide (H2O2) production in the MAPK-activation and catch-up growth. The inhibition of Nox significantly blunted catch-up growth and MAPK-activity. Amongst two zebrafish insulin receptor substrate 2 genes (irs2a and irs2b), the loss of irs2b, but not its paralog irs2a, resulted in blunted MAPK-activation and catch-up growth. Furthermore, irs2b forcedly expressed in mammalian cells allowed IGF-MAPK augmentation in the presence of H2O2, and the irs2b deficiency completely abolished the somatotropic action of Nox in re-oxygenation condition. These results indicate that redox signaling alters IGF/Igf signaling to facilitate hypoxia/re-oxygenation-induced embryonic growth compensation.

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