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投射至 superior salivatory nucleus 的孤束核神经元去抑制会导致脉络膜血管舒张:对脉络膜压力调节潜在机制的启示。

Disinhibition of neurons of the nucleus of solitary tract that project to the superior salivatory nucleus causes choroidal vasodilation: Implications for mechanisms underlying choroidal baroregulation.

作者信息

Li Chunyan, Fitzgerald Malinda E C, Del Mar Nobel, Reiner Anton

机构信息

Department of Anatomy and Neurobiology, University of Tennessee, Memphis, TN, 38163, United States.

Department of Anatomy and Neurobiology, University of Tennessee, Memphis, TN, 38163, United States; Department of Ophthalmology, University of Tennessee, Memphis, TN, 38163, United States; Department of Biology, Christian Brothers University, Memphis, TN, United States.

出版信息

Neurosci Lett. 2016 Oct 28;633:106-111. doi: 10.1016/j.neulet.2016.09.029. Epub 2016 Sep 20.

Abstract

Preganglionic neurons in the superior salivatory nucleus (SSN) that mediate parasympathetic vasodilation of choroidal blood vessels receive a major excitatory input from the baroresponsive part of the nucleus of the solitary tract (NTS). This input appears likely to mediate choroidal vasodilation during systemic hypotension, which prevents decreases in choroidal blood flow (ChBF) due to reduced perfusion pressure. It is uncertain, however, how low blood pressure signals to NTS from the aortic depressor nerve (ADN), which fires at a low rate during systemic hypotension, could yield increased firing in the NTS output to SSN. The simplest hypothesis is that SSN-projecting NTS neurons are under the inhibitory control of ADN-receptive GABAergic NTS neurons. As part of evaluating this hypothesis, we assessed if SSN-projecting NTS neurons, in fact, receive prominent inhibitory input and if blocking GABAergic modulation of them increases ChBF. We found that SSN-projecting NTS neuronal perikarya identified by retrograde labeling are densely coated with GABAergic terminals, but lightly coated with excitatory terminals. We also found that, infusion of the GABA-A receptor antagonist GABAzine into NTS increased ChBF. Our results are consistent with the possibility that low blood pressure signals from the ADN produce vasodilation in choroid by causing diminished activity in ADN-receptive NTS neurons that tonically suppress SSN-projecting NTS neurons.

摘要

介导脉络膜血管副交感神经舒张的上泌涎核(SSN)中的节前神经元,接受来自孤束核(NTS)压力感受性部分的主要兴奋性输入。这种输入可能在系统性低血压期间介导脉络膜血管舒张,从而防止由于灌注压力降低导致的脉络膜血流量(ChBF)减少。然而,尚不清楚在系统性低血压期间以低频率发放冲动的主动脉减压神经(ADN)向NTS传递的低血压信号,如何能使NTS向SSN的输出发放增加。最简单的假设是,投射到SSN的NTS神经元受接受ADN的GABA能NTS神经元的抑制性控制。作为评估这一假设的一部分,我们评估了投射到SSN的NTS神经元是否实际上接受显著的抑制性输入,以及阻断它们的GABA能调制是否会增加ChBF。我们发现,通过逆行标记鉴定的投射到SSN的NTS神经元胞体被GABA能终末密集覆盖,但被兴奋性终末轻度覆盖。我们还发现,向NTS内注入GABA-A受体拮抗剂荷包牡丹碱可增加ChBF。我们的结果与以下可能性一致:来自ADN的低血压信号通过使持续抑制投射到SSN的NTS神经元的接受ADN的NTS神经元的活动减弱,从而在脉络膜中产生血管舒张。

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