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脑前区渗透压增高刺激下丘脑室旁核,选择性增加张力型血管运动性交感神经活动。

Activation of the hypothalamic paraventricular nucleus by forebrain hypertonicity selectively increases tonic vasomotor sympathetic nerve activity.

机构信息

Department of Physiology and.

Department of Physiology and Center for Biomedical Neuroscience, University of Texas Health Science Center at San Antonio, San Antonio, Texas

出版信息

Am J Physiol Regul Integr Comp Physiol. 2015 Mar 1;308(5):R351-9. doi: 10.1152/ajpregu.00460.2014. Epub 2014 Dec 17.

DOI:10.1152/ajpregu.00460.2014
PMID:25519737
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4346755/
Abstract

We recently reported that mean arterial pressure (MAP) is maintained in water-deprived rats by an irregular tonic component of vasomotor sympathetic nerve activity (SNA) that is driven by neuronal activity in the hypothalamic paraventricular nucleus (PVN). To establish whether generation of tonic SNA requires time-dependent (i.e., hours or days of dehydration) neuroadaptive responses or can be abruptly generated by even acute circuit activation, forebrain sympathoexcitatory osmosensory inputs to PVN were stimulated by infusion (0.1 ml/min, 10 min) of hypertonic saline (HTS; 1.5 M NaCl) through an internal carotid artery (ICA). Whereas isotonic saline (ITS; 0.15 M NaCl) had no effect (n = 5), HTS increased (P < 0.001; n = 6) splanchnic SNA (sSNA), phrenic nerve activity (PNA), and MAP. Bilateral PVN injections of muscimol (n = 6) prevented HTS-evoked increases of integrated sSNA and PNA (P < 0.001) and attenuated the accompanying pressor response (P < 0.01). Blockade of PVN NMDA receptors with d-(2R)-amino-5-phosphonovaleric acid (AP5; n = 6) had similar effects. Analysis of respiratory rhythmic bursting of sSNA revealed that ICA HTS increased mean voltage (P < 0.001) without affecting the amplitude of inspiratory or expiratory bursts. Analysis of cardiac rhythmic sSNA likewise revealed that ICA HTS increased mean voltage. Cardiac rhythmic sSNA oscillation amplitude was also increased, which is consistent with activation of arterial baroreceptor during the accompanying pressor response. Increased mean sSNA voltage by HTS was blocked by prior PVN inhibition (muscimol) and blockade of PVN NMDA receptors (AP5). We conclude that even acute glutamatergic activation of PVN (i.e., by hypertonicity) is sufficient to selectively increase a tonic component of vasomotor SNA.

摘要

我们最近报道称,在缺水的大鼠中,平均动脉压 (MAP) 通过血管运动性交感神经活动 (SNA) 的不规则紧张成分得以维持,该紧张成分由下丘脑室旁核 (PVN) 的神经元活动驱动。为了确定紧张性 SNA 的产生是否需要时间依赖性(即脱水数小时或数天)的神经适应性反应,或者是否可以通过急性电路激活突然产生,我们通过颈内动脉 (ICA) 输注(0.1ml/min,10min)高渗盐水 (HTS; 1.5M NaCl) 来刺激对 PVN 的前脑交感兴奋性渗透压传入。虽然等渗盐水 (ITS; 0.15M NaCl) 没有作用 (n=5),但 HTS 增加了 (P<0.001;n=6) 内脏 SNA (sSNA)、膈神经活动 (PNA) 和 MAP。双侧 PVN 注射毒蕈碱 (n=6) 可防止 HTS 引起的整合 sSNA 和 PNA 增加 (P<0.001),并减轻伴随的升压反应 (P<0.01)。用 d-(2R)-氨基-5-膦戊酸 (AP5; n=6) 阻断 PVN NMDA 受体也有类似作用。sSNA 呼吸节律性爆发的分析表明,ICA HTS 增加了平均电压 (P<0.001),而不影响吸气或呼气爆发的幅度。对心脏节律性 sSNA 的分析同样表明,ICA HTS 增加了平均电压。心脏节律性 sSNA 振荡幅度也增加了,这与伴随的升压反应期间动脉压力感受器的激活一致。HTS 引起的平均 sSNA 电压增加被 PVN 抑制 (毒蕈碱) 和 PVN NMDA 受体阻断 (AP5) 所阻断。我们的结论是,即使是 PVN 的急性谷氨酸能激活(即通过高渗性)也足以选择性地增加血管运动性 SNA 的紧张成分。

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Intracarotid hypertonic sodium chloride differentially modulates sympathetic nerve activity to the heart and kidney.高渗氯化钠经颈动脉内给药可调节心脏和肾脏的交感神经活性。
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