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青蛙颈部和前肢运动神经元的前庭和视觉输入的功能组织

Functional organization of vestibular and visual inputs to neck and forelimb motoneurons in the frog.

作者信息

Maeda M, Magherini P C, Precht W

出版信息

J Neurophysiol. 1977 Mar;40(2):225-43. doi: 10.1152/jn.1977.40.2.225.

DOI:10.1152/jn.1977.40.2.225
PMID:191572
Abstract
  1. Intracellular responses in neck and forelimb motoneurons to electrical stimulation of the vestibular nerve, the optic tectum, and the optic nerve were studied in frog. 2. Stimulation of the anterior branch of the vestibular nerve typically produced EPSPs, bilaterally, in neck, shoulder (DOR), and forelimb extensor (TRI, RAD) motoneurons, and bilateral IPSPs in forelimb adductor (PED) and flexor (ULN, COR) motoneurons. 3. Latencies of PSPs recorded in neck, shoulder, and proximal extensor motoneurons (TRI) were mostly in the disynaptic range, whereas many of those recorded in distal extensor (RAD) and in adductor and flexor motoneurons involved three synapses. 4. Lesion of the vestibulospinal fibers greatly reduced the vestibular nerve-evoked field potentials in the spinal cord and the occurrence of PSPs in forelimb motoneurons. These results as well as the latency measurements suggest that the pathway linking vestibular nerve and forelimb motoneurons mainly consists of vestibulospinal fibers, though involvement of other structures for production of later PSPs could not be completely ruled out. Hemisection of the brain stem at its most caudal level showed that the pathway to the contralateral motoneurons crosses at the level of brain stem as well as in the spinal cord. 5. Stimulation of the optic tectum produced EPSPs, IPSPs, and a mixture of EPSPs and IPSPs in neck, shoulder, and forelimb motoneurons, bilaterally. Most frequently, a combination of an excitation and inhibition was observed. The pathway from the optic tectum to neck and limb motoneurons is at least dysnaptic in nature. 6. Stimulation of the optic nerve produced IPSPs and a mixture of EPSPs and IPSPs in neck and forelimb motoneurons. Impulses originating from the optic nerve descend as far as to lumbar motoneurons producing EPSP-IPSP sequences bilaterally. 7. Interaction studies suggested that the vestibular and optic pathways to neck and forelimb motoneurons are separate from each other so that the site of integration of vestibular and visual input occurs at the level of motoneurons. 8. Evidence for electronic coupling among forelimb motoneurons and electrical synaptic transmission in th pathway linking vestibular nerve and forelimb motoneurons is presented.
摘要
  1. 在青蛙中研究了颈部和前肢运动神经元对前庭神经、视顶盖和视神经电刺激的细胞内反应。2. 刺激前庭神经前支通常会在颈部、肩部(背阔肌)和前肢伸肌(肱三头肌、桡侧腕长伸肌)运动神经元双侧产生兴奋性突触后电位(EPSP),在前肢内收肌(耻骨肌)和屈肌(尺侧腕屈肌、指浅屈肌)运动神经元双侧产生抑制性突触后电位(IPSP)。3. 在颈部、肩部和近端伸肌运动神经元(肱三头肌)记录到的PSP潜伏期大多处于双突触范围内,而在远端伸肌(桡侧腕长伸肌)以及内收肌和屈肌运动神经元记录到的许多PSP涉及三个突触。4. 前庭脊髓纤维损伤极大地降低了脊髓中前庭神经诱发的场电位以及前肢运动神经元中PSP的出现。这些结果以及潜伏期测量表明,连接前庭神经和前肢运动神经元的通路主要由前庭脊髓纤维组成,尽管不能完全排除其他结构参与后期PSP产生的可能性。在脑干最尾端水平进行半横切显示,通向对侧运动神经元的通路在脑干水平以及脊髓中交叉。5. 刺激视顶盖在颈部、肩部和前肢运动神经元双侧产生EPSP、IPSP以及EPSP和IPSP的混合电位。最常见的是观察到兴奋和抑制的组合。从视顶盖到颈部和肢体运动神经元的通路本质上至少是多突触的。6. 刺激视神经在颈部和前肢运动神经元中产生IPSP以及EPSP和IPSP的混合电位。源自视神经的冲动下行至腰段运动神经元,双侧产生EPSP - IPSP序列。7. 相互作用研究表明,通向颈部和前肢运动神经元的前庭和视觉通路相互独立,因此前庭和视觉输入的整合部位发生在运动神经元水平。8. 提供了前肢运动神经元之间电耦合以及连接前庭神经和前肢运动神经元通路中电突触传递的证据。

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