Jacquin T, Champagnat J, Madamba S, Denavit-Saubié M, Siggins G R
Laboratoire de Physiologie Nerveuse, Centre National de la Recherche Scientifique, Gif-sur-Yvette, France.
Proc Natl Acad Sci U S A. 1988 Feb;85(3):948-52. doi: 10.1073/pnas.85.3.948.
The synaptic function of somatostatin-containing fibers in the nervous system is controversial. Therefore, we used a slice preparation of the rat brain stem to test the electrophysiological effects of prosomatostatin-derived peptides on neurons of the solitary tract complex, which contains an abundance of somatostatin-containing fibers and cell bodies. Superfusion of both somatostatin-14 and somatostatin-28 (the precursor for somatostatin-14), but not somatostatin-28-(1-12) or -(1-10), predominantly inhibited spontaneous spike and subthreshold (probably synaptic) activity. In intracellular recordings, somatostatin-14 and -28 hyperpolarized most neurons in association with a slight (10-35%) but reproducible decrease in input resistance. These hyperpolarizing responses were augmented in depolarized cells and persisted in cells in which spontaneous inhibitory postsynaptic potentials became depolarizing after Cl- injection. These data suggest that somatostatin receptors regulate a K+ conductance. In voltage-clamp studies, somatostatin-28 and -14 induced a steady outward current and augmented the voltage-dependent, nonactivating outward K+ conductance (IM) shown to be blocked by activation of muscarinic cholinergic receptors. These results suggest (i) that somatostatin-containing elements in the solitary tract complex play an inhibitory role through the activation of postsynaptic permeability to potassium ions and (ii) that the same ion channel type may be coregulated by two neurotransmitter candidates, somatostatin and acetylcholine, through a reciprocal control mechanism.
神经系统中含生长抑素纤维的突触功能存在争议。因此,我们使用大鼠脑干切片标本,来测试前生长抑素衍生肽对孤束复合体神经元的电生理效应,该复合体含有大量含生长抑素的纤维和细胞体。生长抑素 -14 和生长抑素 -28(生长抑素 -14 的前体)的灌流主要抑制了自发动作电位和阈下(可能是突触性的)活动,而生长抑素 -28-(1 - 12) 或 -(1 - 10) 则无此作用。在细胞内记录中,生长抑素 -14 和 -28 使大多数神经元超极化,同时伴有输入电阻轻微(10 - 35%)但可重复的降低。这些超极化反应在去极化细胞中增强,并在注射 Cl⁻ 后自发抑制性突触后电位变为去极化的细胞中持续存在。这些数据表明生长抑素受体调节钾离子电导。在电压钳研究中,生长抑素 -28 和 -14 诱导出稳定的外向电流,并增强了电压依赖性、非激活外向钾离子电导(IM),已知该电导可被毒蕈碱型胆碱能受体激活所阻断。这些结果表明:(i)孤束复合体中含生长抑素的成分通过激活突触后对钾离子的通透性发挥抑制作用;(ii)同一离子通道类型可能受生长抑素和乙酰胆碱这两种神经递质候选物通过相互控制机制共同调节。