孕晚期酒精暴露胎鼠模型中海马神经发生对酒精毒性的抵抗作用。
Resistance of Postnatal Hippocampal Neurogenesis to Alcohol Toxicity in a Third Trimester-Equivalent Mouse Model of Gestational Alcohol Exposure.
机构信息
Department of Neuroscience, University of New Mexico Health Sciences Center, Albuquerque, New Mexico.
出版信息
Alcohol Clin Exp Res. 2019 Dec;43(12):2504-2513. doi: 10.1111/acer.14207. Epub 2019 Oct 20.
BACKGROUND
The adult hippocampal dentate is comprised of both developmentally generated dentate granule cells (dDGCs) and adult-generated dentate granule cells (aDGCs), which play distinct roles in hippocampal information processing and network function. EtOH exposure throughout gestation in mouse impairs the neurogenic response to enriched environment (EE) in adulthood, although the basal rate of adult neurogenesis under standard housing (SH) is unaffected. Here, we tested whether the production and/or survival of either dDGCs or aDGCs are selectively impaired following exposure of mice to EtOH vapors during early postnatal development (human third trimester-equivalent), and whether this exposure paradigm leads to impairment of EE-mediated dentate neurogenesis in adulthood.
METHODS
All experiments were performed using NestinCreER :tdTomato bitransgenic mice, which harbor a tamoxifen-inducible tdTomato (tdTom) reporter for indelible labeling of newborn hippocampal DGCs. We exposed all mice to EtOH vapor or room air (Control) for 4 h/d from postnatal day (PND) 3 through PND 15. This paradigm resulted in a mean daily postexposure blood EtOH concentration of ~160 mg/dl. One cohort of neonatal mice received a single injection of tamoxifen at PND 2 and was sacrificed at either PND 16 or PND 50 to assess the impact of EtOH exposure on the production and long-term survival of dDGCs born during the early postnatal period. A second cohort of mice received daily injections of tamoxifen at PND 35 to 39 to label aDGCs and was exposed to SH or EE for 6 weeks prior to sacrifice.
RESULTS
Early postnatal EtOH exposure had no statistically significant effect on the production or survival of tdTom dDGCs, as assessed at PND 16 or PND 50. Early postnatal EtOH exposure also had no effect on the number of tdTom+ aDGCs under SH conditions. Furthermore, early postnatal EtOH exposure had no significant impact on the adult neurogenic response to EE.
CONCLUSIONS
Both early postnatal dentate neurogenesis and adult dentate neurogenesis, as well as the adult neurogenic response to EE, are surprisingly resistant to early postnatal EtOH vapor exposure in mice.
背景
成人海马齿状回由发育产生的齿状颗粒细胞(dDGCs)和成年产生的齿状颗粒细胞(aDGCs)组成,它们在海马体信息处理和网络功能中发挥着不同的作用。在小鼠中,妊娠期间的乙醇暴露会损害成年后丰富环境(EE)的神经发生反应,尽管在标准饲养(SH)下,成年神经发生的基础速率不受影响。在这里,我们测试了在早期 postnatal 发育期间(人类第三 trimester 等效)暴露于乙醇蒸气是否会选择性地损害小鼠的 dDGCs 或 aDGCs 的产生和/或存活,以及这种暴露范式是否会导致成年后 EE 介导的齿状神经发生受损。
方法
所有实验均使用 NestinCreER:tdTomato 双转基因小鼠进行,该小鼠携带 tamoxifen 诱导的 tdTom(tdTom)报告基因,用于不可逆地标记新生海马体 DGCs。我们使所有小鼠从出生后第 3 天(PND)到第 15 天(PND)每天暴露于乙醇蒸气或空气(对照)4 小时。该范式导致暴露后平均每日血液乙醇浓度约为 160mg/dl。一组新生小鼠在 PND 2 接受单次 tamoxifen 注射,并在 PND 16 或 PND 50 处死,以评估乙醇暴露对出生后早期产生的 dDGCs 的产生和长期存活的影响。第二组小鼠在 PND 35 至 39 天每天接受 tamoxifen 注射,以标记 aDGCs,并在处死前在 SH 或 EE 中暴露 6 周。
结果
早期 postnatal 乙醇暴露对 PND 16 或 PND 50 时 tdTom dDGCs 的产生或存活没有统计学上的显著影响。早期 postnatal 乙醇暴露对 SH 条件下的 tdTom+aDGCs 数量也没有影响。此外,早期 postnatal 乙醇暴露对 EE 对成年神经发生的反应没有显著影响。
结论
在小鼠中,无论是早期 postnatal 齿状神经发生和成年齿状神经发生,还是 EE 对成年神经发生的反应,都对早期 postnatal 乙醇蒸气暴露具有惊人的抵抗力。
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