Author:
Gong Jie,Wang Xin,Zhu Chenwen,Dong Xiaohua,Zhang Qinxin,Wang Xiaoning,Duan Xuchu,Qian Fuping,Gao Yu,Zhao Qingshun,Chai Renjie,Liu Dong
Abstract
AbstractInsulinoma-associated1a (Insm1a) is a zinc-finger transcription factor playing a series of functions in cell formation and differentiation of vertebrate central and peripheral nervous systems and neuroendocrine system. However, its roles on the development of motor neuron have still remained uncovered. Here, we provided evidences that insmla was a vital regulator of motor neuron development and provide a mechanistic understanding of how it contributes to this process. Firstly, we showed the localization of insmla in spinal cord and primary motor neurons (PMNs) of zebrafish embryos by in situ hybridization and imaging analysis of transgenic reporter line Tg(insmla: mCherry) ntu805. Then we demonstrated that the deficiency of insmla in zebrafish larvae lead to the defects of PMNs development, including the reduction of caudal primary motor neurons (CaP) and middle primary motor neurons (MiP), the excessive branching of motor axons, and the disorganized distance between adjacent CaPs. Additionally, knockout of insm1 impaired motor neuron differentiation in the spinal cord. Locomotion analysis showed that insmla-null zebrafish significantly reduced the swimming activity. Furthermore, we proved that the insmla loss of function significantly decreased the transcripts levels of both olig2 and nkx6.1. Microinjection of olig2 and nkx6.1 mRNA rescued the motor neuron defects in insmla deficient embryos. Taken together, these data indicate that insmla regulates the motor neuron development, at least in part, through modulation of the expressions of olig2 and nkx6.1.
Publisher
Cold Spring Harbor Laboratory