Expression and Neurotransmitter Association of the Synaptic Calcium Sensor Synaptotagmin in the Avian Auditory Brain Stem.

IF 2.4 3区 医学 Q3 NEUROSCIENCES
Katrina M MacLeod, Sangeeta Pandya
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引用次数: 2

Abstract

In the avian auditory brain stem, acoustic timing and intensity cues are processed in separate, parallel pathways via the two divisions of the cochlear nucleus, nucleus angularis (NA) and nucleus magnocellularis (NM). Differences in excitatory and inhibitory synaptic properties, such as release probability and short-term plasticity, contribute to differential processing of the auditory nerve inputs. We investigated the distribution of synaptotagmin, a putative calcium sensor for exocytosis, via immunohistochemistry and double immunofluorescence in the embryonic and hatchling chick brain stem (Gallus gallus). We found that the two major isoforms, synaptotagmin 1 (Syt1) and synaptotagmin 2 (Syt2), showed differential expression. In the NM, anti-Syt2 label was strong and resembled the endbulb terminals of the auditory nerve inputs, while anti-Syt1 label was weaker and more punctate. In NA, both isoforms were intensely expressed throughout the neuropil. A third isoform, synaptotagmin 7 (Syt7), was largely absent from the cochlear nuclei. In nucleus laminaris (NL, the target nucleus of NM), anti-Syt2 and anti-Syt7 strongly labeled the dendritic lamina. These patterns were established by embryonic day 18 and persisted to postnatal day 7. Double-labeling immunofluorescence showed that Syt1 and Syt2 were associated with vesicular glutamate transporter 2 (VGluT2), but not vesicular GABA transporter (VGAT), suggesting that these Syt isoforms were localized to excitatory, but not inhibitory, terminals. These results suggest that Syt2 is the major calcium binding protein underlying excitatory neurotransmission in the timing pathway comprising NM and NL, while Syt2 and Syt1 regulate excitatory transmission in the parallel intensity pathway via cochlear nucleus NA.

Abstract Image

鸟听觉脑干突触钙传感器突触塔蛋白的表达及神经递质关联。
在鸟类听觉脑干中,声音时间和强度信号通过耳蜗核的两个分支——角核(NA)和大细胞核(NM),在不同的平行通路上被处理。兴奋性和抑制性突触特性的差异,如释放概率和短期可塑性,导致了听觉神经输入的不同处理。利用免疫组织化学和双免疫荧光技术,研究了胚胎和幼雏鸡脑干(Gallus Gallus)中突触塔素(synaptotagmin)的分布。我们发现两种主要亚型synaptotagmin 1 (Syt1)和synaptotagmin 2 (Syt2)表现出差异表达。在NM中,抗syt2标记较强,与听神经输入的终末球末梢相似,而抗syt1标记较弱,呈点状分布。在NA中,这两种亚型在整个神经细胞中都强烈表达。第三种异构体突触蛋白7 (Syt7)在耳蜗核中基本缺失。在层状核(NL, NM的靶核)中,抗syt2和抗syt7强烈标记树突层。这些模式在胚胎第18天建立,并持续到出生后第7天。双标记免疫荧光显示,Syt1和Syt2与水疱性谷氨酸转运蛋白2 (VGluT2)相关,而与水疱性GABA转运蛋白(VGAT)无关,表明这些Syt亚型定位于兴奋性末端,而非抑制性末端。这些结果表明,Syt2是由NM和NL组成的时间通路中兴奋性神经传递的主要钙结合蛋白,而Syt2和Syt1通过耳蜗核NA调节平行强度通路中的兴奋性神经传递。
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来源期刊
CiteScore
4.10
自引率
12.50%
发文量
57
审稿时长
6-12 weeks
期刊介绍: JARO is a peer-reviewed journal that publishes research findings from disciplines related to otolaryngology and communications sciences, including hearing, balance, speech and voice. JARO welcomes submissions describing experimental research that investigates the mechanisms underlying problems of basic and/or clinical significance. Authors are encouraged to familiarize themselves with the kinds of papers carried by JARO by looking at past issues. Clinical case studies and pharmaceutical screens are not likely to be considered unless they reveal underlying mechanisms. Methods papers are not encouraged unless they include significant new findings as well. Reviews will be published at the discretion of the editorial board; consult the editor-in-chief before submitting.
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