Hermanson O, Blomqvist A
Department of Cell Biology, Faculty of Health Sciences, University of Linköping, Sweden.
J Comp Neurol. 1996 Apr 22;368(1):45-56. doi: 10.1002/(SICI)1096-9861(19960422)368:1<45::AID-CNE4>3.0.CO;2-K.
The effect of noxious stimulation on the expression of FOS-like immunoreactivity (FOS-LI) in neurons of the parabrachial nucleus (PB) was studied in awake, freely moving rats. In one series of experiments, the rats were subjected to noxious mechanical stimulation (pinch) of either the nape of the neck or the base of the tail for 20 seconds every 5 minutes for 90 minutes, and then they were killed by transcardial perfusion after 45-210 minutes. Control animals received innocuous mechanical stimulation (brush) of the tail. Noxious stimuli resulted in FOS-LI in neurons in the dorsal part of the lateral PB, with heavy labeling in the superior lateral (PBsl) and the dorsal lateral (PBdl) subnuclei. FOS-LI was also elicited in the central lateral subnucleus (PBcl) and, although much more sparsely, in the external lateral subnucleus and the Kölliker-Fuse nucleus. Tail and neck stimulation resulted in similar labeling patterns, but more neurons, particularly in PBsl, expressed FOS-LI after pinch of the tail than of the neck. In another series of experiments, rats received injection of 5% formalin into one hindpaw. After 75-90 minutes, FOS-LI was seen in the same parts of PB as after noxious mechanical stimulation. The heaviest labeling was seen on the side contralateral to the injection side, with statistically significant (P < 0.05) side differences present in PBsl and PBdl. In a third series of experiments, rats were hemisected at low cervical-upper thoracic segments, allowed 2 weeks to recover, and then given formalin injections in both hindpaws. Significantly more neurons were FOS-labeled in PBdl, PBsl, and PBcl on the side contralateral to the hemisection than on the ipsilateral side. These observations are discussed in relation to the organization of the spinal afferent input and the efferent connections of PB. It is concluded that the FOS-LI expression in PBdl and PBsl and probably also in PBcl, to a large extent, is evoked by the ascending spinal nociceptive input to PB. Because these subnuclei project to several hypothalamic regions, it is suggested that neurons in PB that express FOS after noxious mechanical and chemical stimulation primarily are involved in autonomic and homeostatic responses to behavioral situations that involve tissue-damaging stimuli.
在清醒、自由活动的大鼠中,研究了伤害性刺激对臂旁核(PB)神经元中FOS样免疫反应性(FOS-LI)表达的影响。在一系列实验中,每隔5分钟对大鼠的颈部或尾基部进行20秒的伤害性机械刺激(捏),持续90分钟,然后在45 - 210分钟后通过心脏灌注处死。对照动物接受对尾巴的无害机械刺激(刷)。伤害性刺激导致外侧PB背侧神经元出现FOS-LI,在外侧上核(PBsl)和外侧背核(PBdl)中有大量标记。中央外侧亚核(PBcl)也出现FOS-LI,并且在外侧外侧亚核和 Kölliker-Fuse 核中虽然标记稀疏得多,但也有出现。尾巴和颈部刺激导致相似的标记模式,但捏尾巴后比捏颈部后有更多神经元,特别是在PBsl中,表达FOS-LI。在另一系列实验中,给大鼠的一只后爪注射5%福尔马林。75 - 90分钟后,在PB的相同部位观察到FOS-LI,与伤害性机械刺激后情况相同。在注射侧对侧观察到最强烈的标记,在PBsl和PBdl中存在统计学上显著的(P < 0.05)侧别差异。在第三系列实验中,在大鼠的颈下部 - 胸上部节段进行半横切术,让其恢复2周,然后在双侧后爪注射福尔马林。半横切术对侧的PBdl、PBsl和PBcl中FOS标记的神经元明显多于同侧。结合脊髓传入输入的组织和PB的传出连接对这些观察结果进行了讨论。得出的结论是,PBdl和PBsl以及可能还有PBcl中的FOS-LI表达在很大程度上是由脊髓向PB的伤害性传入输入所诱发的。由于这些亚核投射到几个下丘脑区域,因此表明在伤害性机械和化学刺激后表达FOS的PB神经元主要参与对涉及组织损伤性刺激的行为情境的自主和稳态反应。
