在乌龟脊髓的体外制备中,背角中的平台生成神经元。
Plateau-generating neurones in the dorsal horn in an in vitro preparation of the turtle spinal cord.
作者信息
Russo R E, Hounsgaard J
机构信息
Department of Medical Physiology, Panum Institute, University of Copenhagen, Denmark.
出版信息
J Physiol. 1996 May 15;493 ( Pt 1)(Pt 1):39-54. doi: 10.1113/jphysiol.1996.sp021363.
Abstract
- In transverse slices of the spinal cord of the turtle, intracellular recordings were used to characterize and analyse the responses to injected current and activation of primary afferents in dorsal horn neurones. 2. A subpopulation of neurones, with cell bodies located laterally in the deep dorsal horn and dendrites radiating towards the pial surface, was distinguished by the ability to generate plateau potentials. Activation of the plateau potential by a suprathreshold depolarizing current pulse produced an increasing firing frequency during the first few seconds and a sustained after-discharge. 3. The plateau potential was assumed to be mediated by L-type Ca2+ channels since it was blocked by Co2+ (3 mM) and nifedipine (10 microM) and enhanced by Bay K 8644 (0.5-2 microM). 4. The threshold for activating the plateau potential declined during the first few seconds of depolarization. The decline in threshold gradually subsided over 3-10 s after repolarization. 5. Frequency potentiation of the plateau potential contributed to wind-up of the response to depolarizing current pulses and primary afferent stimuli repeated at frequencies higher than 0.1-0.3 Hz. 6. The sustained after-discharge mediated by the plateau potential was curtailed by a slow after-hyperpolarization (sAHP) evoked by strong depolarizations. The relative strength of the plateau potential and sAHP varied among cells. In some cells the plateau potential and sAHP interacted to produce damped oscillations upon depolarization. The sAHP was mediated by both apamin and tetraethylammonium (TEA)-sensitive K+ channels. 7. Our findings suggest that basic properties of sensory integration may reside with the specialized intrinsic response properties of particular subtypes of neurones in the dorsal horn.
摘要
- 在乌龟脊髓的横向切片中,采用细胞内记录来表征和分析背角神经元对注入电流和初级传入纤维激活的反应。2. 一群神经元,其细胞体位于深背角的外侧,树突向软膜表面辐射,其特征是能够产生平台电位。由阈上去极化电流脉冲激活平台电位,在最初几秒内产生频率增加的放电,并伴有持续的后放电。3. 平台电位被认为是由L型Ca2+通道介导的,因为它被Co2+(3 mM)和硝苯地平(10 microM)阻断,并被Bay K 8644(0.5 - 2 microM)增强。4. 在去极化的最初几秒内,激活平台电位的阈值下降。复极化后,阈值下降在3 - 10秒内逐渐消退。5. 平台电位的频率增强导致对频率高于0.1 - 0.3 Hz重复的去极化电流脉冲和初级传入刺激的反应增强。6. 由平台电位介导的持续后放电被强去极化诱发的缓慢超极化后电位(sAHP)所抑制。平台电位和sAHP的相对强度在不同细胞中有所不同。在一些细胞中,平台电位和sAHP相互作用,在去极化时产生阻尼振荡。sAHP由蜂毒明肽和四乙铵(TEA)敏感的K+通道介导。
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