The mRNA expression profile of glycine receptor subunits alpha 1, alpha 2, alpha 4 and beta in female and male mice.

IF 2.6 3区医学 Q3 NEUROSCIENCES

Molecular and Cellular Neuroscience Pub Date : 2024-11-21 DOI:10.1016/j.mcn.2024.103976

Mikaela M Ceder, Kajsa A Magnusson, Hannah M Weman, Katharina Henriksson, Linn Andréasson, Teresa Lindström, Oskar Wiggins, Malin C Lagerström

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Abstract

Glycine receptors are ligand-gated chloride-selective channels that control excitability in the central nervous system (CNS). Herein, we have investigated the mRNA expression of the glycine receptor alpha 1 (Glra1), alpha 2 (Glra2), alpha 4 (Glra4) and beta (Glrb) subunits, in adult female and male mice. Single-cell RNA sequencing data re-analysis of the Zeisel et al. (2018) dataset indicated widespread expression of Glra1, Glra2 and Glrb in the CNS, while only a few cells in the cortex, striatum, thalamus, midbrain and spinal cord expressed Glra4. Highest occurrence of Glra1, Glra2 and Glrb were found in the brainstem. Moreover, Glra1 and Glrb were revealed to have the highest occurrences in the spinal cord of the investigated subunits. However, both Glra2 and Glrb had a more widespread expression in the CNS compared with Glra1 and Glra4. Bulk quantitative real-time-PCR (qRT-PCR) analysis revealed Glra1 expression in the hypothalamus, thalamus, brainstem and the spinal cord, and widespread, but low, Glra2 and Glrb expression in the CNS. Moreover, Glrb could be detected in a few visceral organs. Additionally, females and males were found to express Glra1, Glra2 and Glrb differently in certain brain areas such as the brainstem. Expression levels of Glra4 were too low to be detected using qRT-PCR. Lastly, RNAscope spatially validated the expression of Glra1, Glra2 and Glrb in the areas indicated by the single-cell and bulk analyses, and further revealed that Glra4 can be detected in the cortex, amygdala, hypothalamus, thalamus, brainstem, especially the cochlear nucleus, and in the spinal cord.

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雌性和雄性小鼠甘氨酸受体亚基 alpha 1、alpha 2、alpha 4 和 beta 的 mRNA 表达谱。

甘氨酸受体是配体门控的氯离子选择性通道，可控制中枢神经系统（CNS）的兴奋性。在此，我们研究了成年雌性和雄性小鼠甘氨酸受体α1（Glra1）、α2（Glra2）、α4（Glra4）和β（Glrb）亚基的 mRNA 表达。对Zeisel等人（2018年）数据集进行的单细胞RNA测序数据再分析表明，Glra1、Glra2和Glrb在中枢神经系统中广泛表达，而皮层、纹状体、丘脑、中脑和脊髓中只有少数细胞表达Glra4。Glra1、Glra2和Glrb在脑干的出现率最高。此外，在所研究的亚单位中，Glra1 和 Glrb 在脊髓中的出现率最高。不过，与 Glra1 和 Glra4 相比，Glra2 和 Glrb 在中枢神经系统中的表达更为广泛。大量实时定量 PCR（qRT-PCR）分析显示，Glra1 在下丘脑、丘脑、脑干和脊髓中表达，Glra2 和 Glrb 在中枢神经系统中广泛表达，但表达量较低。此外，在一些内脏器官中也能检测到 Glrb。此外，还发现雌性和雄性在某些脑区（如脑干）的Glra1、Glra2和Glrb表达量不同。Glra4 的表达水平太低，无法通过 qRT-PCR 检测到。最后，RNAscope 从空间上验证了 Glra1、Glra2 和 Glrb 在单细胞和大块分析所显示区域的表达，并进一步发现在大脑皮层、杏仁核、下丘脑、丘脑、脑干（尤其是耳蜗核）和脊髓中可以检测到 Glra4。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular and Cellular Neuroscience 医学-神经科学

CiteScore

5.60

自引率

0.00%

发文量

审稿时长

37 days

期刊介绍： Molecular and Cellular Neuroscience publishes original research of high significance covering all aspects of neurosciences indicated by the broadest interpretation of the journal''s title. In particular, the journal focuses on synaptic maintenance, de- and re-organization, neuron-glia communication, and de-/regenerative neurobiology. In addition, studies using animal models of disease with translational prospects and experimental approaches with backward validation of disease signatures from human patients are welcome.