In vivo sensitivity of the embryonic and adult neural stem cell compartments to low-dose radiation

The embryonic brain is radiation-sensitive,with cognitive deficits being observed after exposure to low radiation doses. exposure of neonates to radiation can cause intracranial carcinogenesis. to gain insight into the basis underlying these outcomes,we examined the response of the embryonic,neonatal and adult brain to low-dose radiation,focusing on the neural stem cell compartments. this review summarizes our recent findings. at e13.5-14.5 the embryonic neocortex encompasses rapidly proliferating stem and progenitor cells. exploiting mice with a hypomorphic mutation in dna ligase iv (lig4y288c),we found a high level of dna double-strand breaks (dsbs) at e14.5,which we attribute to the rapid proliferation. we observed endogenous apoptosis in lig4y288c embryos and in wt embryos following exposure to low radiation doses. an examination of dsb levels and apoptosis in adult neural stem cell compartments,the subventricular zone (svz) and the subgranular zone (sgz) revealed low dsb levels in lig4y288c mice,comparable with the levels in differentiated neuronal tissues. we conclude that the adult svz does not incur high levels of dna breakage,but sensitively activates apoptosis; apoptosis was less sensitively activated in the sgz,and differentiated neuronal tissues did not activate apoptosis. p5/p15 mice showed intermediate dsb levels,suggesting that dsbs generated in the embryo can be transmitted to neonates and undergo slow repair. interestingly,this analysis revealed a stage of high endogenous apoptosis in the neonatal svz. collectively,these studies reveal that the adult neural stem cell compartment,like the embryonic counterpart,can sensitively activate apoptosis. © 2016 the author 2016. published by oxford university press on behalf of the japan radiation research society and japanese society for radiation oncology.