Huangfu D, Schreihofer M, Guyenet P G
Department of Pharmacology, University of Virginia, Charlottesville 22908, USA.
Am J Physiol. 1997 Jan;272(1 Pt 2):R249-58. doi: 10.1152/ajpregu.1997.272.1.R249.
Cholinergic inputs to the rostral ventrolateral medulla (RVLM) may contribute to sympathetic tone generation. The present study analyzes the response of RVLM neurons to cholinergic agonists. In chloralose-anesthetized rats iontophoresis of carbachol excited RVLM sympathoexcitatory neurons (+69% from resting level of 11.9 +/- 2 spikes/s; n = 28). This effect was reduced 85% by iontophoresis of methylatropine and abolished by intravenous scopolamine. Iontophoresis of nicotine or hexamethonium was ineffective. In contrast, most RVLM respiratory units were inhibited by carbachol. Whole cell recordings of bulbospinal RVLM neurons were made in neonatal rat brain slices (54 cells, 24 C1 adrenergic neurons). In current-clamp recordings (without tetrodotoxin) carbachol produced depolarization, increased postsynaptic potential frequency, and decreased input resistance. In voltage-clamp recording (-50 to -60 mV; 1 microM tetrodotoxin) carbachol produced inward current [50% effective concentration (EC50): 10 +/- 1 microM; 12.6 +/- 2 pA at 30 microM; n = 16] that persisted in low Ca2+/high Mg2+ (n = 6). Muscarine (30 microM) caused smaller inward currents (2.6 +/- 0.6 pA; n = 16). The carbachol-induced current was reduced 46% by 5 microM methylatropine (n = 15) and 84% by 200 microM hexamethonium (n = 9). The current was linear as a function of the holding potential (extrapolated reversal potential: -22 +/- 2 mV). In conclusion, carbachol exerts both pre- and postsynaptic effects on C1 and other putative sympathoexcitatory RVLM neurons. In vitro the postsynaptic effect of carbachol has a mixed nicotinic and muscarinic pharmacology. In vivo, iontophoretically applied carbachol produces muscarinic excitation of barosensitive RVLM neurons.
延髓头端腹外侧区(RVLM)的胆碱能输入可能参与交感神经紧张性的产生。本研究分析了RVLM神经元对胆碱能激动剂的反应。在水合氯醛麻醉的大鼠中,通过离子电泳施加卡巴胆碱可兴奋RVLM交感兴奋神经元(相对于静息水平11.9±2个峰/秒增加69%;n = 28)。通过离子电泳施加甲基阿托品,这种效应降低了85%,静脉注射东莨菪碱则可消除该效应。离子电泳施加尼古丁或六甲铵无效。相反,大多数RVLM呼吸单位受到卡巴胆碱的抑制。在新生大鼠脑片中对延髓脊髓RVLM神经元进行全细胞记录(54个细胞,24个C1肾上腺素能神经元)。在电流钳记录(无河豚毒素)中,卡巴胆碱产生去极化,增加突触后电位频率,并降低输入电阻。在电压钳记录(-50至-60 mV;1 μM河豚毒素)中,卡巴胆碱产生内向电流[50%有效浓度(EC50):10±1 μM;30 μM时为12.6±2 pA;n = 16],在低钙/高镁环境中该电流持续存在(n = 6)。毒蕈碱(30 μM)引起较小的内向电流(2.6±0.6 pA;n = 16)。5 μM甲基阿托品使卡巴胆碱诱导的电流降低46%(n = 15),200 μM六甲铵使其降低84%(n = 9)。该电流与钳制电位呈线性关系(外推反转电位:-22±2 mV)。总之,卡巴胆碱对C1和其他假定的交感兴奋RVLM神经元发挥突触前和突触后效应。在体外实验中,卡巴胆碱的突触后效应具有混合的烟碱样和毒蕈碱样药理学特性。在体内,通过离子电泳施加的卡巴胆碱对压力敏感的RVLM神经元产生毒蕈碱样兴奋作用。
