Tingting Liao, Xia Xu, Junzi Wu, Yi Xie, Jianying Yan
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Increased expression levels of DLX5 inhibit the development of the nervous system
Introduction
Preeclampsia is a hypertensive disorder of pregnancy. DLX5 plays an important role in the migration and differentiation of subglobus pallidus precursor cells.
Methods
We established a zebrafish line expressing high levels of DLX5 and investigated changes in behavior and development of the nervous system.
Results
The ratios of brain volume area to whole body area at 96 hpf zebrafish in the experimental group (gRNA + CasRx) were significantly lower than the WT group and the negative control group (casRx) (P < 0.01). Behavioral trajectory distances and movement speeds exhibited by the 6th day of development in zebrafish in the experimental group (gRNA + CasRx) were significantly shorter (P < 0.01) and lower (P < 0.05) than the negative control group (gRNA + CasRx), respectively.
Conclusions
Data suggested that the increased expression levels of DLX5 can inhibit brain volume development and behavioral activities in zebrafish. Maybe the high expression levels of DLX5 in the pathological state of preeclampsia can inhibit the development of the nervous system in offspring.
期刊介绍:
International Journal of Developmental Neuroscience publishes original research articles and critical review papers on all fundamental and clinical aspects of nervous system development, renewal and regeneration, as well as on the effects of genetic and environmental perturbations of brain development and homeostasis leading to neurodevelopmental disorders and neurological conditions. Studies describing the involvement of stem cells in nervous system maintenance and disease (including brain tumours), stem cell-based approaches for the investigation of neurodegenerative diseases, roles of neuroinflammation in development and disease, and neuroevolution are also encouraged. Investigations using molecular, cellular, physiological, genetic and epigenetic approaches in model systems ranging from simple invertebrates to human iPSC-based 2D and 3D models are encouraged, as are studies using experimental models that provide behavioural or evolutionary insights. The journal also publishes Special Issues dealing with topics at the cutting edge of research edited by Guest Editors appointed by the Editor in Chief. A major aim of the journal is to facilitate the transfer of fundamental studies of nervous system development, maintenance, and disease to clinical applications. The journal thus intends to disseminate valuable information for both biologists and physicians. International Journal of Developmental Neuroscience is owned and supported by The International Society for Developmental Neuroscience (ISDN), an organization of scientists interested in advancing developmental neuroscience research in the broadest sense.
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