Wang S, Redgrave P
Department of Psychology, University of Sheffield, U.K.
Neuroscience. 1997 Dec;81(4):967-88. doi: 10.1016/s0306-4522(97)00191-7.
An important reaction in rodent models of persistent pain is for the animal to turn and bite/lick the source of discomfort (autotomy). Comparatively little is known about the supraspinal pathways which mediate this reaction. Since autotomy requires co-ordinated control of the head and mouth, it is possible that basal ganglia output via the superior colliculus may be involved; previously this projection has been implicated in the control of orienting and oral behaviour. The purpose of the present study was therefore, to test whether the striato-nigro-tectal projection plays a significant role in oral responses elicited by subcutaneous injections of formalin. Behavioural output from this system is normally associated with the release of collicular projection neurons from tonic inhibitory input from substantia nigra pars reticulata. Therefore, in the present study normal disinhibitory signals from the basal ganglia were blocked by injecting the GABA agonist muscimol into different regions of the rat superior colliculus. c-Fos immunohistochemistry was used routinely to provide regional estimates of the suppressive effects of muscimol on neuronal activity. Biting and licking directed to the site of a subcutaneous injection of formalin (50 microliters of 4%) into the hind-paw were suppressed in a dose-related manner by bilateral microinjections of muscimol into the lateral superior colliculus (10-50 ng; 0.5 microliter/side); injections into the medial superior colliculus had little effect. Bilateral injections of muscimol 20 ng into lateral colliculus caused formalin-treated animals to re-direct their attention and activity from lower to upper regions of space. Muscimol injected unilaterally into lateral superior colliculus elicited ipsilateral turning irrespective of which hind-paw was injected with formalin. Oral behaviour was blocked when the muscimol and formalin injections were contralaterally opposed; this was also true for formalin injections into the front foot. Interestingly, when formalin was injected into the perioral region, injections of muscimol into the lateral superior colliculus had no effect on the ability of animals to make appropriate contralaterally directed head and body movements to facilitate localization of the injected area with either front- or hind-paw. These findings suggest that basal ganglia output via the lateral superior colliculus is critical for responses to noxious stimuli which entail the mouth moving to and acting on the foot, but not when the foot is the active agent applied to the mouth. The data also suggest that pain produces a spatially non-specific facilitation of units throughout collicular maps, which can be converted into a spatially inappropriate signal by locally suppressing parts of the map with the muscimol.
在持续性疼痛的啮齿动物模型中,一个重要反应是动物转身并咬/舔不适源(自切行为)。关于介导这种反应的脊髓上通路,人们了解得相对较少。由于自切行为需要对头和嘴进行协调控制,基底神经节通过上丘的输出可能参与其中;此前该投射已被认为与定向和口腔行为的控制有关。因此,本研究的目的是测试纹状体 - 黑质 - 顶盖投射在皮下注射福尔马林引发的口腔反应中是否起重要作用。该系统的行为输出通常与上丘投射神经元从黑质网状部的紧张性抑制输入中释放有关。因此,在本研究中,通过向大鼠上丘的不同区域注射GABA激动剂蝇蕈醇,阻断了来自基底神经节的正常去抑制信号。常规使用c-Fos免疫组织化学来提供蝇蕈醇对神经元活动抑制作用的区域估计。双侧向上丘外侧微量注射蝇蕈醇(10 - 50纳克;每侧0.5微升),以剂量相关的方式抑制了对后爪皮下注射福尔马林(50微升4%)部位的咬和舔行为;向上丘内侧注射几乎没有效果。双侧向上丘外侧注射20纳克蝇蕈醇使经福尔马林处理的动物将注意力和活动从空间的下部重新引导到上部。单侧向上丘外侧注射蝇蕈醇会引发同侧转身,无论哪只后爪注射了福尔马林。当蝇蕈醇和福尔马林注射在对侧相对时,口腔行为被阻断;前爪注射福尔马林时也是如此。有趣的是,当福尔马林注射到口周区域时,向上丘外侧注射蝇蕈醇对动物用前爪或后爪进行适当的对侧定向头部和身体运动以促进注射区域定位的能力没有影响。这些发现表明,基底神经节通过上丘外侧的输出对于涉及嘴移向足部并作用于足部的有害刺激反应至关重要,但当足部是作用于嘴的主动部位时则不然。数据还表明,疼痛会在整个上丘图谱中对神经元产生空间非特异性的易化作用,通过用蝇蕈醇局部抑制图谱的部分区域,这种易化作用可转化为空间不适当的信号。
