Department of Molecular and Systems Biology, Geisel School of Medicine at Dartmouth College, Hanover, NH, United States.
Front Neural Circuits. 2018 Jan 18;12:2. doi: 10.3389/fncir.2018.00002. eCollection 2018.
Serotonin (5-HT) selectively excites subpopulations of pyramidal neurons in the neocortex via activation of 5-HT (2A) receptors coupled to G subtype G-protein alpha subunits. G-mediated excitatory responses have been attributed primarily to suppression of potassium conductances, including those mediated by K7 potassium channels (i.e., the M-current), or activation of non-specific cation conductances that underlie calcium-dependent afterdepolarizations (ADPs). However, 2A-dependent excitation of cortical neurons has not been extensively studied, and no consensus exists regarding the underlying ionic effector(s) involved. In layer 5 of the mouse medial prefrontal cortex, we tested potential mechanisms of serotonergic excitation in commissural/callosal (COM) projection neurons, a subpopulation of pyramidal neurons that exhibits 2A-dependent excitation in response to 5-HT. In baseline conditions, 5-HT enhanced the rate of action potential generation in COM neurons experiencing suprathreshold somatic current injection. This serotonergic excitation was occluded by activation of muscarinic acetylcholine (ACh) receptors, confirming that 5-HT acts via the same G-signaling cascades engaged by ACh. Like ACh, 5-HT promoted the generation of calcium-dependent ADPs following spike trains. However, calcium was not necessary for serotonergic excitation, as responses to 5-HT were enhanced (by >100%), rather than reduced, by chelation of intracellular calcium with 10 mM BAPTA. This suggests intracellular calcium negatively regulates additional ionic conductances gated by 2A receptors. Removal of extracellular calcium had no effect when intracellular calcium signaling was intact, but suppressed 5-HT response amplitudes, by about 50%, when BAPTA was included in patch pipettes. This suggests that 2A excitation involves activation of a non-specific cation conductance that is both calcium-sensitive and calcium-permeable. M-current suppression was found to be a third ionic effector, as blockade of K7 channels with XE991 (10 μM) reduced serotonergic excitation by ∼50% in control conditions, and by ∼30% with intracellular BAPTA present. Together, these findings demonstrate a role for at least three distinct ionic effectors, including K7 channels, a calcium-sensitive and calcium-permeable non-specific cation conductance, and the calcium-dependent ADP conductance, in mediating serotonergic excitation of COM neurons.
血清素(5-HT)通过激活与 G 型 G 蛋白α亚单位偶联的 5-HT(2A)受体,选择性地兴奋新皮层中的锥体神经元亚群。G 介导的兴奋性反应主要归因于钾电流的抑制,包括由 K7 钾通道(即 M 电流)介导的电流,或激活非特异性阳离子电流,这些电流构成钙依赖性后去极化(ADP)的基础。然而,2A 依赖性的皮层神经元兴奋尚未得到广泛研究,并且对于涉及的潜在离子效应物(s)也没有共识。在小鼠内侧前额叶皮层的第 5 层中,我们测试了 5-HT 对联络/胼胝体(COM)投射神经元兴奋的潜在机制,COM 投射神经元是一种表现出对 5-HT 依赖的 2A 兴奋的锥体神经元亚群。在基线条件下,5-HT 增强了在经历超阈值体电流注射的 COM 神经元中动作电位产生的速率。这种血清素兴奋被激活毒蕈碱乙酰胆碱(ACh)受体所阻断,证实 5-HT 通过与 ACh 相同的 G 信号级联作用。与 ACh 一样,5-HT 促进了钙依赖性 ADP 的产生,继之以尖峰列车。然而,钙不是血清素兴奋所必需的,因为对 5-HT 的反应增强(>100%),而不是减少,通过用 10 mM BAPTA 螯合细胞内钙。这表明细胞内钙负调节由 2A 受体门控的其他离子电流。当细胞内钙信号完好无损时,去除细胞外钙没有影响,但当 BAPTA 包含在贴壁式管中时,5-HT 反应幅度被抑制约 50%。这表明 2A 兴奋涉及激活一种既是钙敏感又是钙通透的非特异性阳离子电流。发现 M 电流抑制是第三种离子效应物,因为用 XE991(10 μM)阻断 K7 通道将 5-HT 兴奋减少约 50%,而在存在细胞内 BAPTA 的情况下减少约 30%。总之,这些发现表明至少有三种不同的离子效应物,包括 K7 通道、钙敏感和钙通透的非特异性阳离子电流以及钙依赖性 ADP 电流,在介导 COM 神经元的血清素兴奋中起作用。
