Distribution of mRNA for the exocytotic calcium sensor, synaptotagmin 9, in mouse brain

IF 2 Q3 NEUROSCIENCES

IBRO Neuroscience Reports Pub Date : 2025-04-02 DOI:10.1016/j.ibneur.2025.03.009

Kwadwo O. Boateng , Lucian D. Hadford , Kelly L. Stauch , Anthony E. Kincaid , Wallace B. Thoreson

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Abstract

The principal Ca^2 + sensors that control fusion of synaptic vesicles are synaptotagmins 1, 2 and 9. Synaptotagmin 9 (Syt9) has received the least attention. We applied RNAscope techniques to coronal sections of adult mouse brain to study the distribution of Syt9 mRNA. Our results showed weak Syt9 mRNA expression in many brain regions but elevated levels in a handful. Regions of strong expression were largely in limbic and sensory areas and included both excitatory and inhibitory neurons. Strongest expression in the brain was in the medial habenula. The interpeduncular nucleus that provides input to medial habenula and amygdala that receives medial habenula output also showed elevated Syt9 mRNA. Sensory regions with strong Syt9 mRNA expression included mitral and periglomerular cells in the olfactory bulb, thalamus, and sensory layers of the superior colliculus. A few putative layer 5 pyramidal cells in somatosensory, auditory and visual cortex were also strongly labeled. Neurons in motor regions including cortex did not generally show elevated expression with the exception of strong labeling of granular and molecular (but not Purkinje) cells in the cerebellum. Hippocampal neurons also showed only weak labeling.

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胞外钙传感器synaptotagmin 9 mRNA在小鼠脑内的分布

控制突触囊泡融合的主要Ca2 +传感器是突触塔敏蛋白1、2和9。Synaptotagmin 9 （Syt9）受到的关注最少。我们应用RNAscope技术对成年小鼠脑冠状面切片研究Syt9 mRNA的分布。我们的研究结果显示，Syt9 mRNA在许多脑区表达较弱，但在少数脑区表达水平升高。强表达区主要在边缘和感觉区，包括兴奋性和抑制性神经元。在大脑中表达最强的是内侧缰。向内侧链束提供输入的核间核和接受内侧链束输出的杏仁核也显示Syt9 mRNA升高。syt9mrna强烈表达的感觉区包括嗅球、丘脑和上丘感觉层的二尖瓣细胞和肾小球周围细胞。在体感觉、听觉和视觉皮层中，一些推测的第5层锥体细胞也被强烈标记。除了小脑颗粒细胞和分子细胞（但不包括浦肯野细胞）的强烈标记外，包括皮质在内的运动区域的神经元一般不表现出表达升高。海马体神经元也只显示出微弱的标记。

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