Bayliss D A, Li Y W, Talley E M
Department of Pharmacology, University of Virginia, Charlottesville 22908, USA.
J Neurophysiol. 1997 Mar;77(3):1349-61. doi: 10.1152/jn.1997.77.3.1349.
We used whole cell current- and voltage-clamp recording in neonatal rat brain stem slices to characterize firing properties and effects of serotonin (5-HT) on neurons (n = 225) in raphe pallidus (RPa) and raphe obscurus (ROb). Of a sample of 51 Lucifer yellow-filled neurons recovered after immunohistochemical processing to detect tryptophan hydroxylase (TPH), 34 were found to be TPH immunoreactive (i.e., serotonergic). Serotonergic neurons had long-duration action potentials and fired spontaneously at low frequency (approximately 1 Hz) in a pattern that was often irregular; at higher firing frequencies the discharge became more regular. These neurons displayed spike frequency adaptation, with maximal steady-state firing rates of < 4 Hz. The overwhelming majority of identified serotonergic neurons was hyperpolarized by bath-applied 5-HT (94%; n = 32 of 34); conversely, most cells in this sample that were hyperpolarized by 5-HT were serotonergic (78%; n= 32 of 41). TPH-immunonegative neurons were separated into two populations. One group had properties that were indistinguishable from those of serotonergic caudal raphe neurons. The other group was truly distinct; those neurons had more hyperpolarized resting membrane potentials, were not spontaneously active, had shorter-duration action potentials, and were depolarized by 5-HT. Caudal raphe neurons responded to 5-HT (1-5 microM) with membrane hyperpolarization in current clamp (-13.4 +/- 1.1 mV, mean +/- SE) or with outward current in voltage clamp (16.0 +/- 1.4 pA). The current induced by 5-HT was inwardly rectifying and associated with an increase in peak conductance and was highly selective for K+. It was completely blocked by 0.2 mM Ba2+ but not by glibenclamide, an inhibitor of ATP-sensitive K+ channels. Effects of 5-HT were dose dependent, with an EC50 of 0.1-0.3 microM. The 5-HT1A agonist 8-OH-DPAT mimicked, and the 5-HT1A antagonists (+)WAY 10,0135 and NAN 190 blocked, effects of 5-HT. The 5-HT2A/C antagonist ketanserin did not inhibit the effects of 5-HT. Fewer 5-HT-responsive neurons were encountered in slices exposed acutely to pertussis toxin (approximately 13%) than in adjacent control slices not exposed to pertussis toxin (approximately 85%). In addition, in neurons recorded with pipettes containing GTP gamma S (0.1 mM), 5-HT induced an inwardly rectifying current that did not reverse on washing. In many cells recorded with GTP gamma S, a current developed in the absence of agonist that had properties identical to those of the 5-HT-sensitive current; when followed for extended periods, the agonist-independent GTP gamma S-induced conductance desensitized, returning toward control levels with a time constant of approximately 18 min. Together these results indicate that serotonergic neurons of ROb and RPa are spontaneously active in a neonatal rat brain stem slice preparation and that hyperpolarization of those neurons by 5-HT1A receptor stimulation is due to pertussis toxin-sensitive G protein-mediated activation of an inwardly rectifying K+ conductance. In addition, we identified a group of nonserotonergic medullary raphe neurons that had distinct electrophysiological properties and that was depolarized by 5-HT.
我们采用新生大鼠脑干切片的全细胞电流钳和电压钳记录技术,来表征中缝苍白核(RPa)和中缝隐核(ROb)中神经元(n = 225)的放电特性以及5-羟色胺(5-HT)对这些神经元的影响。在对51个经免疫组织化学处理以检测色氨酸羟化酶(TPH)后回收的荧光黄填充神经元样本中,发现34个为TPH免疫反应阳性(即5-羟色胺能)。5-羟色胺能神经元具有长时程动作电位,且以低频(约1Hz)自发放电,放电模式通常不规则;在较高放电频率时,放电变得更规则。这些神经元表现出动作电位频率适应性,最大稳态放电频率<4Hz。绝大多数已鉴定的5-羟色胺能神经元被浴加的5-HT超极化(94%;n = 34中的32个);相反,该样本中大多数被5-HT超极化的细胞是5-羟色胺能的(78%;n = 41中的32个)。TPH免疫阴性神经元分为两类。一类神经元的特性与5-羟色胺能的尾侧中缝神经元无法区分。另一类则真正不同;那些神经元具有更超极化的静息膜电位,无自发活动,动作电位时程较短,且被5-HT去极化。尾侧中缝神经元在电流钳中对5-HT(1 - 5μM)产生膜超极化反应(-13.4±1.1mV,平均值±标准误),在电压钳中产生外向电流(16.0±1.4pA)。5-HT诱导的电流呈内向整流,且与峰值电导增加相关,对K⁺具有高度选择性。它完全被0.2mM Ba²⁺阻断,但不被ATP敏感性K⁺通道抑制剂格列本脲阻断。5-HT的作用呈剂量依赖性,半数有效浓度(EC50)为0.1 - 0.3μM。5-HT1A激动剂8-OH-DPAT模拟了5-HT的作用,5-HT1A拮抗剂(+)WAY 10,0135和NAN 190阻断了5-HT的作用。5-HT2A/C拮抗剂酮色林不抑制5-HT的作用。与未暴露于百日咳毒素的相邻对照切片(约85%)相比,急性暴露于百日咳毒素的切片中5-HT反应性神经元较少(约13%)。此外,在用含GTPγS(0.1mM)电极记录的神经元中,5-HT诱导了一种内向整流电流,冲洗后该电流不反转。在许多用GTPγS记录的细胞中,在无激动剂时产生了一种电流,其特性与5-HT敏感电流相同;长时间记录时,与激动剂无关的GTPγS诱导的电导脱敏,以约18分钟的时间常数恢复到对照水平。这些结果共同表明,在新生大鼠脑干切片制备中,ROb和RPa的5-羟色胺能神经元具有自发活动,且5-HT1A受体刺激使这些神经元超极化是由于百日咳毒素敏感的G蛋白介导内向整流K⁺电导的激活。此外,我们鉴定出一组非5-羟色胺能的延髓中缝神经元,它们具有独特的电生理特性,且被5-HT去极化。
