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Catch-Up Growth in Zebrafish Embryo Requires Neural Crest Cells Sustained by Irs1 Signaling

Authors: 
Kamei H, Yoneyama Y, Hakuno F, Sawada R, Shimizu T, Duan C, Takahashi SI
Citation: 
Endocrinology. 2018 Apr 1;159(4):1547-1560. doi: 10.1210/en.2017-00847
Abstract: 
Most animals display retarded growth in adverse conditions; however, upon the removal of unfavorable factors, they often show quick growth restoration, which is known as "catch-up" growth. In zebrafish embryos, hypoxia causes growth arrest, but subsequent reoxygenation induces catch-up growth. Here, we report the role of insulin receptor substrate (Irs)1-mediated insulin/insulinlike growth factor signaling (IIS) and the involvement of stem cells in catch-up growth in reoxygenated zebrafish embryos. Disturbed irs1 expression attenuated IIS, resulting in greater inhibition in catch-up growth than in normal growth and forced IIS activation‒restored catch-up growth. The irs1 knockdown induced noticeable cell death in neural crest cells (NCCs; multipotent stem cells) under hypoxia, and the pharmacological/genetic ablation of NCCs hindered catch-up growth. Furthermore, inhibition of the apoptotic pathway by pan-caspase inhibition or forced activation of Akt signaling in irs1 knocked-down embryos blocked NCC cell death and rescued catch-up growth. Our data indicate that this multipotent stem cell is indispensable for embryonic catch-up growth and that Irs1-mediated IIS is a prerequisite for its survival under severe adverse environments such as prolonged hypoxia.
Epub: 
Not Epub
Organism or Cell Type: 
zebrafish
Delivery Method: 
microinjection