Cellular architecture and transmitter phenotypes of neurons of the mouse median raphe region
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- 作者:Katalin E. Sos ; Márton I. Mayer ; Csaba Cserép…
- 关键词:Median raphe ; Paramedian raphe ; Stereology ; Serotonin ; 5 ; HT ; ePET ; PET ; 1 ; VGLUT3 ; VGAT ; Immunohistochemistry
- 刊名:Brain Structure and Function
- 出版年:2017
- 出版时间:January 2017
- 年:2017
- 卷:222
- 期:1
- 页码:287-299
- 全文大小:3541KB
- 刊物主题:Neurosciences; Cell Biology; Neurology;
- 出版者:Springer Berlin Heidelberg
- ISSN:1863-2661
- 卷排序:222
文摘
The median raphe region (MRR, which consist of MR and paramedian raphe regions) plays a crucial role in regulating cortical as well as subcortical network activity and behavior, while its malfunctioning may lead to disorders, such as schizophrenia, major depression, or anxiety. Mouse MRR neurons are classically identified on the basis of their serotonin (5-HT), vesicular glutamate transporter type 3 (VGLUT3), and gamma-aminobutyric acid (GABA) contents; however, the exact cellular composition of MRR regarding transmitter phenotypes is still unknown. Using an unbiased stereological method, we found that in the MR, 8.5 % of the neurons were 5-HT, 26 % were VGLUT3, and 12.8 % were 5-HT and VGLUT3 positive; whereas 37.2 % of the neurons were GABAergic, and 14.4 % were triple negative. In the whole MRR, 2.1 % of the neurons were 5-HT, 7 % were VGLUT3, and 3.6 % were 5-HT and VGLUT3 positive; whereas 61 % of the neurons were GABAergic. Surprisingly, 25.4 % of the neurons were triple negative and were only positive for the neuronal marker NeuN. PET-1/ePET-Cre transgenic mouse lines are widely used to specifically manipulate only 5-HT containing neurons. Interestingly, however, using the ePET-Cre transgenic mice, we found that far more VGLUT3 positive cells expressed ePET than 5-HT positive cells, and about 38 % of the ePET cells contained only VGLUT3, while more than 30 % of 5-HT cells were ePET negative. These data should facilitate the reinterpretation of PET-1/ePET related data in the literature and the identification of the functional role of a putatively new type of triple-negative neuron in the MRR.