中隔对胚胎小鼠端脑嗅球中间神经元多样性的贡献:同源盒基因Gsx2的作用。

IF 4 3区 生物学 Q1 DEVELOPMENTAL BIOLOGY
Shenyue Qin, Stephanie M Ware, Ronald R Waclaw, Kenneth Campbell
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引用次数: 21

摘要

背景:已知嗅球(OB)中间神经元代表不同的神经元亚型,它们被认为起源于许多端脑区域,包括胚胎背外侧神经节隆起(dLGE)和隔膜。这些细胞向上向OB迁移,然后径向迁移到OB的不同层,包括颗粒细胞层(GCL)和外肾小球层(GL)。虽然以前的研究试图调查OB中间神经元多样性的区域贡献,但很少有遗传工具用于在胚胎时间点解决这个问题,当最早的群体被指定时。方法:本研究以Zic3-lacZ和Gsx2e-CIE转基因小鼠为遗传命运定位工具,分别研究中隔和LGE对OB中间神经元的贡献。此外,为了解决同源盒基因Gsx2对OB中间神经元多样性的区域(即间隔)要求,我们使用Olig2 Cre/+小鼠重组Gsx2的floxed等位基因,从而有条件地灭活间隔中的Gsx2,使其在dLGE中基本保持完整。结果:我们的命运图谱研究表明,dLGE和隔膜产生OB中间神经元亚型的方式不同。值得注意的是,发现胚胎隔膜主要产生calretinin+ (CR+) GL亚型,而dLGE则更加多样化,产生所有主要的GL亚群以及许多GCL中间神经元。此外,Gsx2条件突变体(cKOs),与室间隔而非dLGE重组,显示出OB GL内CR+中间神经元的生成受损,这些Gsx2条件突变体在室间隔下区(SVZ)内的增殖减少,这与观察到的CR+中间神经元数量减少密切相关。结论:我们的研究结果表明,中隔和LGE对OB中间神经元多样性的贡献不同。虽然dLGE提供了广泛的OB中间神经元亚型,但隔膜对CR+亚型的贡献更受限制。Gsx2在间隔祖细胞中是SVZ祖细胞向CR+亚型正确扩增所必需的。最后,在出生后的研究中,隔膜被认为是CR+中间神经元的唯一来源。我们的研究结果表明,胚胎中的dLGE祖细胞也有助于这种OB神经元亚型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Septal contributions to olfactory bulb interneuron diversity in the embryonic mouse telencephalon: role of the homeobox gene Gsx2.

Septal contributions to olfactory bulb interneuron diversity in the embryonic mouse telencephalon: role of the homeobox gene Gsx2.

Septal contributions to olfactory bulb interneuron diversity in the embryonic mouse telencephalon: role of the homeobox gene Gsx2.

Septal contributions to olfactory bulb interneuron diversity in the embryonic mouse telencephalon: role of the homeobox gene Gsx2.

Background: Olfactory bulb (OB) interneurons are known to represent diverse neuronal subtypes, which are thought to originate from a number of telencephalic regions including the embryonic dorsal lateral ganglionic eminence (dLGE) and septum. These cells migrate rostrally toward the OB, where they then radially migrate to populate different OB layers including the granule cell layer (GCL) and the outer glomerular layer (GL). Although previous studies have attempted to investigate regional contributions to OB interneuron diversity, few genetic tools have been used to address this question at embryonic time points when the earliest populations are specified.

Methods: In this study, we utilized Zic3-lacZ and Gsx2e-CIE transgenic mice as genetic fate-mapping tools to study OB interneuron contributions derived from septum and LGE, respectively. Moreover, to address the regional (i.e. septal) requirements of the homeobox gene Gsx2 for OB interneuron diversity, we conditionally inactivated Gsx2 in the septum, leaving it largely intact in the dLGE, by recombining the Gsx2 floxed allele using Olig2 Cre/+ mice.

Results: Our fate mapping studies demonstrated that the dLGE and septum gave rise to OB interneuron subtypes differently. Notably, the embryonic septum was found to give rise largely to the calretinin+ (CR+) GL subtype, while the dLGE was more diverse, generating all major GL subpopulations as well as many GCL interneurons. Moreover, Gsx2 conditional mutants (cKOs), with septum but not dLGE recombination, showed impaired generation of CR+ interneurons within the OB GL. These Gsx2 cKOs exhibited reduced proliferation within the septal subventricular zone (SVZ), which correlated well with the reduced number of CR+ interneurons observed.

Conclusions: Our findings indicate that the septum and LGE contribute differently to OB interneuron diversity. While the dLGE provides a wide range of OB interneuron subtypes, the septum is more restricted in its contribution to the CR+ subtype. Gsx2 is required in septal progenitors for the correct expansion of SVZ progenitors specified toward the CR+ subtype. Finally, the septum has been suggested to be the exclusive source of CR+ interneurons in postnatal studies. Our results here demonstrate that dLGE progenitors in the embryo also contribute to this OB neuronal subtype.

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来源期刊
Neural Development
Neural Development 生物-发育生物学
CiteScore
6.60
自引率
0.00%
发文量
11
审稿时长
>12 weeks
期刊介绍: Neural Development is a peer-reviewed open access, online journal, which features studies that use molecular, cellular, physiological or behavioral methods to provide novel insights into the mechanisms that underlie the formation of the nervous system. Neural Development aims to discover how the nervous system arises and acquires the abilities to sense the world and control adaptive motor output. The field includes analysis of how progenitor cells form a nervous system during embryogenesis, and how the initially formed neural circuits are shaped by experience during early postnatal life. Some studies use well-established, genetically accessible model systems, but valuable insights are also obtained from less traditional models that provide behavioral or evolutionary insights.
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