运动与感觉整合。孤束核的作用。

Exercise and sensory integration. Role of the nucleus tractus solitarius.

作者信息

Potts J T

机构信息

Department of Physiology, Wayne State University School of Medicine, 540 East Canfield Avenue, Detroit, Michigan 48201, USA.

出版信息

Ann N Y Acad Sci. 2001 Jun;940:221-36.

PMID:11458680

Abstract

Since NTS neurons receive synaptic input from many sensory modalities, it is crucial to understand the neuronal mechanisms involved in synaptic processing. We have proposed that GABA-containing neurons in the NTS are the primary target for somatic afferent fibers activated by skeletal muscle contraction. In our model, local inhibition of baroreceptor signaling is necessary to counteract the increase in baroreceptor input such that NTS output is normalized and baroreflex sensitivity is maintained during exercise. This GABAergic mechanism, in conjunction with sympathoexcitation evoked by somatic afferents, preserves reflex sensitivity and resets the baroreflex, respectively. Unfortunately, there is insufficient data to date to support or refute the proposed role for GABA on baroreflex function during exercise. However, we feel that this model will be useful in formulating future experiments to explore these synaptic interactions.

摘要

由于孤束核（NTS）神经元接收来自多种感觉模态的突触输入，了解突触处理过程中涉及的神经元机制至关重要。我们提出，NTS中含γ-氨基丁酸（GABA）的神经元是骨骼肌收缩激活的躯体传入纤维的主要靶点。在我们的模型中，局部抑制压力感受器信号对于抵消压力感受器输入的增加是必要的，这样在运动过程中NTS输出得以正常化且压力感受性反射敏感性得以维持。这种GABA能机制，与躯体传入神经引起的交感神经兴奋一起，分别保持反射敏感性并重置压力感受性反射。不幸的是，迄今为止尚无足够的数据支持或反驳所提出的GABA在运动期间对压力感受性反射功能的作用。然而，我们认为该模型将有助于制定未来的实验来探索这些突触相互作用。

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运动与感觉整合。孤束核的作用。

Exercise and sensory integration. Role of the nucleus tractus solitarius.

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