帕金森病中反射性眨眼过度兴奋的解释。II. 中缝大核。

An explanation for reflex blink hyperexcitability in Parkinson's disease. II. Nucleus raphe magnus.

作者信息

Basso M A, Evinger C

机构信息

Department of Psychology, SUNY Stony Brook 11794-5230, USA.

出版信息

J Neurosci. 1996 Nov 15;16(22):7318-30. doi: 10.1523/JNEUROSCI.16-22-07318.1996.

DOI:10.1523/JNEUROSCI.16-22-07318.1996

PMID:8929438

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6578942/

Abstract

Hyperexcitable reflex blinks are a cardinal sign of Parkinson's disease. The first step in the circuit linking the basal ganglia and brainstem reflex blink circuits is the inhibitory nigrostriatal pathway (Basso et al., 1996). The current study reports the circuits linking the superior colliculus (SC) to trigeminal reflex blink circuits. Microstimulation of the deep layers of the SC suppresses subsequent reflex blinks at a latency of 5.4 msec. This microstimulation does not activate periaqueductal gray antinociceptive circuits. The brainstem structure linking SC to reflex blink circuits must suppress reflex blinks at a shorter latency than the SC and produce the same effect on reflex blink circuits as SC stimulation, and removal of the structure must block SC modulation of reflex blinks. Only the nucleus raphe magnus (NRM) meets these requirements. NRM microstimulation suppresses reflex blinks with a latency of 4.4 msec. Like SC stimulation, NRM microstimulation reduces the responsiveness of the spinal trigeminal nucleus. Finally, blocking the receptors for the NRM transmitter serotonin eliminates SC modulation of reflex blinks, and muscimol inactivation of the NRM transiently prevents SC modulation of reflex blinks. Thus, the circuit through which the basal ganglia modulates reflex blinking is (1) the substantia nigra pars reticulata inhibits SC neurons, (2) the SC excites tonically active NRM neurons, and (3) NRM neurons inhibit spinal trigeminal neurons involved in reflex blink circuits.

摘要

反射性眨眼亢进是帕金森病的主要体征。连接基底神经节和脑干反射性眨眼回路的神经回路的第一步是抑制性黑质纹状体通路（巴索等人，1996年）。本研究报告了上丘（SC）与三叉神经反射性眨眼回路之间的神经回路。对SC深层进行微刺激会在5.4毫秒的潜伏期抑制随后的反射性眨眼。这种微刺激不会激活导水管周围灰质的抗伤害感受回路。连接SC与反射性眨眼回路的脑干结构必须在比SC更短的潜伏期抑制反射性眨眼，并对反射性眨眼回路产生与SC刺激相同的效果，并且去除该结构必须阻断SC对反射性眨眼的调节。只有中缝大核（NRM）符合这些要求。对NRM进行微刺激会在4.4毫秒的潜伏期抑制反射性眨眼。与SC刺激一样，对NRM进行微刺激会降低脊髓三叉神经核的反应性。最后，阻断NRM递质5-羟色胺的受体可消除SC对反射性眨眼的调节，并且用蝇蕈醇使NRM失活可暂时阻止SC对反射性眨眼的调节。因此，基底神经节调节反射性眨眼的神经回路是：（1）黑质网状部抑制SC神经元；（2）SC兴奋持续活跃的NRM神经元；（3）NRM神经元抑制参与反射性眨眼回路的脊髓三叉神经神经元。

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本文引用的文献

An explanation for reflex blink hyperexcitability in Parkinson's disease. I. Superior colliculus.帕金森病反射性眨眼过度兴奋的解释。I. 上丘。

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