INSERM U894, Centre of Psychiatry and Neurosciences, Paris, France.
Sorbonne Université, INSERM, UMRS1158, Neurophysiologie Respiratoire, Expérimentale et Clinique, Paris, France.
Br J Pharmacol. 2021 Apr;178(8):1819-1835. doi: 10.1111/bph.15406.
Activation of the defence reaction inhibits the baroreflex response via the intermediate rostro-ventromedial medulla (B3 raphé) and nucleus tractus solitarius (NTS). Our aim was to determine whether and how baroreflex inhibition, induced by the disinhibition of the rostral cuneiform nucleus (part of the defence pathway), involves 5-HT neurons in B3 and 5-HT receptors in the NTS.
We performed immunohistochemistry and anatomical experiments to determine whether raphé 5-HT cells expressing Fos were directly targeted by the rostral cuneiform nucleus. The effect of blocking raphé 5-HT neurotransmission and NTS 5-HT receptors on cuneiform-induced inhibition of the baroreflex cardiac response were also analysed.
Bicuculline, microinjected into the rostral cuneiform nucleus, induced an increase of double-labelled Fos-5-HT-IR cells in both the lateral paragigantocellular nucleus (LPGi) and raphé magnus. The anterograde tracer Phaseolus vulgaris leucoaggutinin injected into the rostral cuneiform nucleus revealed a dense projection to the LPGi but not raphé magnus. Cuneiform-induced baroreflex inhibition was prevented by B3 injection of 8-OH-DPAT, a selective 5-HT receptor agonist. Cuneiform disinhibition also failed to inhibit the baroreflex bradycardia after NTS microinjection of the 5-HT receptor antagonist granisetron and in 5-HT receptor knockout mice.
The rostral cuneiform nucleus participates in the defence inhibition of the baroreflex bradycardia via direct activation of the LPGi and via a projection to the raphé magnus to activate NTS 5-HT receptors and inhibit second-order baroreflex neurons. These data bring new insights in primary and secondary mechanisms involved in vital baroreflex prevention during stress.
防御反应的激活通过中脑头端腹内侧(B3 中缝核)和孤束核(NTS)中间抑制压力反射反应。我们的目的是确定通过抑制头端楔束核(防御途径的一部分)引起的压力反射抑制是否涉及 B3 中的 5-HT 神经元和 NTS 中的 5-HT 受体,以及涉及的方式。
我们进行了免疫组织化学和解剖学实验,以确定表达 Fos 的中缝核 5-HT 细胞是否直接被头端楔束核靶向。还分析了阻断中缝核 5-HT 神经传递和 NTS 5-HT 受体对头端楔束核诱导的压力反射心脏反应抑制的影响。
微注射到头端楔束核的荷包牡丹碱诱导了外侧巨细胞旁核(LPGi)和中缝大核中双标记 Fos-5-HT-IR 细胞的增加。注入头端楔束核的顺行示踪剂菜豆白细胞凝集素显示出与 LPGi 而不是中缝大核的密集投射。B3 注射 5-HT 受体激动剂 8-OH-DPAT 可预防楔束核诱导的压力反射抑制。在 NTS 微注射 5-HT 受体拮抗剂格兰色林后,或在 5-HT 受体敲除小鼠中,楔束核去抑制也未能抑制压力反射心动过缓。
头端楔束核通过直接激活 LPGi 以及通过投射到中缝大核激活 NTS 5-HT 受体并抑制二级压力反射神经元,参与防御抑制压力反射心动过缓。这些数据为应激过程中基本和次要的压力反射预防机制提供了新的见解。
