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大鼠蓝斑核神经元对耳蜗核的去甲肾上腺素能神经支配。

Norepinephrine innervation of the cochlear nuclei by locus coeruleus neurons in the rat.

作者信息

Kromer L F, Moore R Y

出版信息

Anat Embryol (Berl). 1980;158(2):227-44. doi: 10.1007/BF00315908.

DOI:10.1007/BF00315908
PMID:6986826
Abstract

The cochlear nuclei (CN) contain a moderate concentration of norepinephrine (445 +/- 20 ng/g tissue) with dopamine levels (46 +/- 14 ng/g) that are low and within the precursor range expected for a norepinephrine (NE) terminal system. Lesion and horseradish peroxidase (HRP) experiments indicate that this innervation is bilateral and arises from fusiform and multipolar neurons in the locus coeruleus. Autoradiographic and fluorescence histochemical experiments demonstate that locus coeruleus fibers reach the ipsilateral ventral cochlear nuclei via a rostral pathway that projects from the rostral locus coeruleus laterally through the brain stem to the rostral tip of the ventral nuclei. This pathway is located dorsal to the motor and spinal trigeminal nuclei and ventral to the middle cerebellar peduncle. Descending coeruleo-cochlear fibers travel between the fourth ventricle and the vestibular nuclei to enter the acoustic striae. These fibers innervate both the dorsal and ventral nuclei. Contralateral locus fibers reach the CN by crossing in the pontine central gray at the rostral border of the fourth ventricle and by decussating with the fibers of the mesencephalic trigeminal nucleus ventral to the medial longitudinal fasciculus. The bilateral locus coeruleus innervation of the cochlear nuclei comprises a highly collateralized network of varicose axons which are not topographically organized. Unlike the cochlear nerve fibers in the CN which form specific projections, the locus coeruleus afferents to these sensory nuclei are diffuse and non-specific.

摘要

耳蜗核(CN)中去甲肾上腺素浓度适中(445±20 ng/g组织),多巴胺水平较低(46±14 ng/g),处于去甲肾上腺素(NE)终末系统预期的前体范围内。损伤和辣根过氧化物酶(HRP)实验表明,这种神经支配是双侧性的,起源于蓝斑中的梭形和多极神经元。放射自显影和荧光组织化学实验表明,蓝斑纤维通过一条从蓝斑前部向外侧穿过脑干到达腹侧核前端的前部通路到达同侧腹侧耳蜗核。该通路位于运动核和三叉神经脊髓核的背侧,小脑中间脚的腹侧。下行的蓝斑-耳蜗纤维在第四脑室和前庭核之间穿行,进入听纹。这些纤维支配背侧核和腹侧核。对侧蓝斑纤维通过在第四脑室前部边界的脑桥中央灰质交叉,并与内侧纵束腹侧的中脑三叉神经核纤维交叉,到达耳蜗核。耳蜗核的双侧蓝斑神经支配由高度分支的曲张轴突网络组成,这些轴突没有拓扑组织。与耳蜗核中形成特定投射的耳蜗神经纤维不同,这些感觉核的蓝斑传入纤维是弥散的且非特异性的。

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