Developmental maturation of presynaptic ribbon numbers in chicken basilar-papilla hair cells and its perturbation by long-term overexpression of Wnt9a

IF 2.7 4区 医学 Q2 DEVELOPMENTAL BIOLOGY
M. Queralt Caus Capdevila, Ulrike J. Sienknecht, Christine Köppl
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引用次数: 1

Abstract

The avian basilar papilla is a valuable model system for exploring the developmental determination and differentiation of sensory hair cells and their innervation. In the mature basilar papilla, hair cells form a well-known continuum between two extreme types—tall and short hair cells—that differ strikingly in their innervation. Previous work identified Wnt9a as a crucial factor in this differentiation. Here, we quantified the number and volume of immunolabelled presynaptic ribbons in tall and short hair cells of chickens, from developmental stages shortly after ribbons first appear to the mature posthatching condition. Two longitudinal locations were sampled, responding to best frequencies of approximately 1 kHz and approximately 5.5 kHz when mature. We found significant reductions of ribbon number during normal development in the tall-hair-cell domains, but stable, low numbers in the short-hair-cell domains. Exposing developing hair cells to continuous, excessive Wnt9a levels (through virus-mediated overexpression) led to transiently abnormal high numbers of ribbons and a delayed reduction of ribbon numbers at all sampled locations. Thus, (normally) short-hair-cell domains also showed tall-hair-cell like behaviour, confirming previous findings (Munnamalai et al., 2017). However, at 3 weeks posthatching, ribbon numbers had decreased to the location-specific typical values of control hair cells at all sampled locations. Furthermore, as shown previously, mature hair cells at the basal, high-frequency location harboured larger ribbons than more apically located hair cells. This was true for both normal and Wnt9a-overexposed basilar papillae.

Abstract Image

鸡基底乳头毛细胞突触前带数量的发育成熟及长期过表达Wnt9a对其的扰动
鸟类基底乳头是研究感觉毛细胞发育决定、分化及其神经支配的一个有价值的模型系统。在成熟的基底乳头中,毛细胞在两种极端类型——高毛细胞和短毛细胞之间形成了众所周知的连续体,它们的神经支配显著不同。先前的研究发现Wnt9a是这种分化的关键因素。在这里,我们量化了鸡高毛细胞和短毛细胞中免疫标记的突触前条带的数量和体积,从条带首次出现后不久的发育阶段到成熟的育后状态。对两个纵向位置进行采样,响应最佳频率约为1 kHz,成熟时约为5.5 kHz。我们发现在正常发育过程中,高毛细胞结构域的条带数量显著减少,但在短毛细胞结构域的条带数量稳定而低。将发育中的毛细胞暴露于持续过量的Wnt9a水平(通过病毒介导的过表达)会导致所有采样位置的条带数量短暂异常高,条带数量延迟减少。因此,(通常情况下)短毛细胞结构域也表现出类似于高毛细胞的行为,证实了之前的发现(Munnamalai等,2017)。然而,在草后3周,条带数量在所有采样位置都减少到对照毛细胞的位置特异性典型值。此外,如前所示,成熟毛细胞在基部,高频位置比位于顶端的毛细胞拥有更大的带状。对于正常和过度暴露的wnt9a基底乳头都是如此。
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来源期刊
Developmental Neurobiology
Developmental Neurobiology 生物-发育生物学
CiteScore
6.50
自引率
0.00%
发文量
45
审稿时长
4-8 weeks
期刊介绍: Developmental Neurobiology (previously the Journal of Neurobiology ) publishes original research articles on development, regeneration, repair and plasticity of the nervous system and on the ontogeny of behavior. High quality contributions in these areas are solicited, with an emphasis on experimental as opposed to purely descriptive work. The Journal also will consider manuscripts reporting novel approaches and techniques for the study of the development of the nervous system as well as occasional special issues on topics of significant current interest. We welcome suggestions on possible topics from our readers.
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