Carpenter M B, Cowie R J
Brain Res. 1985 Jun 17;336(2):265-87. doi: 10.1016/0006-8993(85)90653-5.
Attempts were made to determine brainstem and cerebellar afferent and efferent projections of the superior vestibular nucleus (SVN) and cell group 'y' ('y') in the cat using axoplasmic tracers. Injections of HRP, WGA-HRP and [3H]amino acids were made into SVN and 'y' using two different infratentorial stereotaxic approaches. Controls were provided by unilateral HRP injections involving the oculomotor nuclear complex (OMC), the interstitial nucleus of Cajal (INC) and the deep cerebellar nuclei (DCN). Large injections of SVN almost invariably involved 'y' and dorsal parts of the lateral vestibular nucleus (LVN). Smaller injections involved central and ventral peripheral parts of SVN. Discrete injections of 'y' involved small dorsal parts of LVN. Afferents to SVN are derived mainly from the vestibular nuclei (VN) and parts of the vestibulocerebellum. SVN receives afferents: bilaterally from caudal portions of the medial (MVN) and inferior (IVN) vestibular nuclei and 'y'; contralaterally from ventral and lateral parts of SVN and rostral MVN; and ipsilaterally from the nodulus, uvula and medial parts of the flocculus. Purkinje cells (PC) in medial parts of the flocculus project to central regions of SVN, while PC in the nodulus and uvula appear to project mainly to dorsal peripheral regions of SVN. SVN receives sparse projections from the ipsilateral INC, the contralateral central cervical nucleus (CCN) and virtually no projections from the reticular formation. SVN projects via the medial longitudinal fasciculus (MLF) to the ipsilateral trochlear nucleus (TN), the inferior rectus subdivision of the OMC, the INC, the nucleus of Darkschewitsch (ND) and the rostral interstitial nucleus of the MLF (RiMLF). Contralateral projections of SVN cross in the ventral tegmentum caudal to most of the decussating fibers of the superior cerebellar peduncle and terminate in the dorsal rim of the TN and the superior rectus and inferior oblique subdivisions of the OMC; sparse crossed projections enter the INC and the ND. Cerebellar projections of SVN end as mossy fibers in the ipsilateral nodulus, uvula and in medial parts of the flocculus bilaterally. Retrograde transport from unilateral injections of the OMC indicate that afferents from SVN arise ipsilaterally from central and dorsal regions and contralaterally from dorsal peripheral regions. Ventral cell group 'y' receives small numbers of afferent fibers from caudal central parts of the ipsilateral flocculus. No fibers from ventral 'y' could be traced to other vestibular nuclei, the OMC or the cerebellum.(ABSTRACT TRUNCATED AT 400 WORDS)
研究人员尝试利用轴浆追踪剂来确定猫的上前庭核(SVN)和细胞群“y”(“y”)的脑干及小脑传入和传出投射。使用两种不同的幕下立体定位方法,将辣根过氧化物酶(HRP)、小麦胚芽凝集素 - 辣根过氧化物酶(WGA - HRP)和[³H]氨基酸注射到SVN和“y”中。通过单侧HRP注射动眼神经核复合体(OMC)、 Cajal间质核(INC)和小脑深部核团(DCN)作为对照。对SVN进行大剂量注射几乎总是会涉及“y”和外侧前庭核(LVN)的背侧部分。较小剂量的注射涉及SVN的中央和腹侧周边部分。对“y”进行离散注射涉及LVN的小背侧部分。SVN的传入纤维主要来自前庭核(VN)和部分前庭小脑。SVN接受传入纤维:双侧来自内侧前庭核(MVN)和下前庭核(IVN)的尾侧部分以及“y”;对侧来自SVN的腹侧和外侧部分以及MVN的嘴侧部分;同侧来自小结、蚓垂和绒球的内侧部分。绒球内侧部分的浦肯野细胞(PC)投射到SVN的中央区域,而小结和蚓垂中的PC似乎主要投射到SVN的背侧周边区域。SVN从同侧INC、对侧中央颈核(CCN)接受稀疏投射,几乎没有来自网状结构的投射。SVN通过内侧纵束(MLF)投射到同侧滑车神经核(TN)、OMC的下直肌亚核、INC、达克谢维奇核(ND)和MLF的嘴侧间质核(RiMLF)。SVN的对侧投射在小脑上脚大部分交叉纤维尾侧的腹侧被盖中交叉,并终止于TN的背缘以及OMC的上直肌和下斜肌亚核;稀疏的交叉投射进入INC和ND。SVN的小脑投射在同侧小结、蚓垂以及双侧绒球内侧部分以苔藓纤维的形式终止。来自OMC单侧注射的逆行运输表明,来自SVN的传入纤维同侧起源于中央和背侧区域,对侧起源于背侧周边区域。腹侧细胞群“y”从同侧绒球的尾侧中央部分接受少量传入纤维。没有纤维能从小腹侧“y”追踪到其他前庭核、OMC或小脑。(摘要截选至400字)
