Tattersall J E, Cervero F, Lumb B M
J Neurophysiol. 1986 Nov;56(5):1411-23. doi: 10.1152/jn.1986.56.5.1411.
Single-unit electrical activity has been recorded from 95 viscerosomatic neurons in the T9 and T11 segments of the cat's spinal cord. These neurons were excited by electrical and/or natural stimulation of visceral and somatic afferent fibers. The excitatory and inhibitory effects on these neurons of volleys in somatic and visceral afferent fibers and of electrical and chemical stimulation of the nucleus raphe magnus (NRM) and adjacent areas of the reticular formation (Ret. F.) have been studied. Electrical stimulation of the splanchnic nerve produced, after the initial excitation of the neurons, a period of inhibition lasting for up to 1 s. This inhibition reduced the responsiveness of the neurons to all inputs, somatic and visceral, and was still present after spinalization of the animals with cold block, which indicates a segmental organization of the inhibition. Electrical stimulation of afferent fibers within the somatic receptive field of the neurons produced, after the initial excitation, a period of inhibition similar to that induced by visceral afferent volleys. During this period of inhibition all inputs to the neurons were reduced. Reversible spinalization of the animals with cold block did not abolish this inhibition. On the basis of the effects of reversible spinalization on the visceral input to viscerosomatic neurons, two types of neurons were distinguished: 1) neurons whose visceral responses increased in the spinal state (neurons under tonic descending inhibition) and 2) neurons whose visceral responses were decreased or abolished in the spinal state (neurons subject to descending excitation). Neurons under tonic descending inhibition were inhibited by electrical stimulation of locations within the NRM and Ret. F. This inhibition lasted for less than 100 ms and could be evoked at intensities of stimulation of 100 microA or less. Neurons under descending excitation were also inhibited by electrical stimulation in the NRM and Ret. F. but, in addition, the inhibition was preceded by an excitation in 75% of these neurons. Chemical stimulation with DL-homocysteic acid (DLH) of locations within the NRM and Ret. F. was used to activate cell bodies, but not axons, located in these brain stem sites. The only effect observed following injections of DLH into the NRM and Ret. F. was inhibition of viscerosomatic neurons including those with descending excitation as well as those with descending inhibition.(ABSTRACT TRUNCATED AT 400 WORDS)
已记录了猫脊髓T9和T11节段中95个内脏躯体神经元的单单位电活动。这些神经元可被内脏和躯体传入纤维的电刺激和/或自然刺激所兴奋。研究了躯体和内脏传入纤维的冲动以及中缝大核(NRM)和网状结构相邻区域(Ret.F.)的电刺激和化学刺激对这些神经元的兴奋和抑制作用。刺激内脏神经在神经元最初兴奋后会产生长达1秒的抑制期。这种抑制降低了神经元对所有躯体和内脏输入的反应性,在用冷阻断法使动物脊髓横断后该抑制仍然存在,这表明该抑制具有节段性组织。在神经元的躯体感受野内刺激传入纤维,在最初兴奋后会产生一段类似于内脏传入冲动所诱导的抑制期。在这段抑制期内,神经元的所有输入都减少。用冷阻断法使动物可逆性脊髓横断并没有消除这种抑制。根据可逆性脊髓横断对内脏躯体神经元内脏输入的影响,区分出两种类型的神经元:1)其内脏反应在脊髓状态下增强的神经元(处于紧张性下行抑制的神经元)和2)其内脏反应在脊髓状态下减弱或消失的神经元(接受下行兴奋的神经元)。处于紧张性下行抑制的神经元会被NRM和Ret.F.内部位的电刺激所抑制。这种抑制持续时间不到100毫秒,在刺激强度为100微安或更低时即可诱发。接受下行兴奋的神经元也会被NRM和Ret.F.内的电刺激所抑制,但此外,在这些神经元中有75%在抑制之前会出现兴奋。用DL-高半胱氨酸(DLH)对NRM和Ret.F.内部位进行化学刺激,用于激活位于这些脑干部位的细胞体而非轴突。向NRM和Ret.F.内注射DLH后观察到的唯一效应是抑制内脏躯体神经元,包括那些接受下行兴奋以及接受下行抑制的神经元。(摘要截选至400字)
