A Developmental Switch in Cholinergic Mechanisms of Modulation in the Medial Nucleus of the Trapezoid Body

S. Weimann, Chao Zhang, R. M. Burger
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Abstract

The medial nucleus of the trapezoid body (MNTB) has been intensively investigated as a primary source of inhibition in brainstem auditory circuitry. MNTB-derived inhibition plays a critical role in the computation of sound location, as temporal features of sounds are precisely conveyed through the calyx of Held/MNTB synapse. In adult gerbils, cholinergic signaling influences sound-evoked responses of MNTB neurons via nicotinic acetylcholine receptors (nAChRs) (Zhang et al., 2021) establishing a modulatory role for cholinergic input to this nucleus. However, the cellular mechanisms through which acetylcholine (ACh) mediates this modulation in the MNTB remain obscure. To investigate these mechanisms, we used whole-cell current and voltage-clamp recordings to examine cholinergic physiology in MNTB neurons from Mongolian gerbils(Merionas unguiculatis)of both sexes. Membrane excitability was assessed in brain slices, in pre- (p9-13) and post-hearing onset (p18-20) MNTB neurons during bath application of agonists and antagonists of nicotinic (nAChRs) and muscarinic receptors (mAChRs). Muscarinic activation induced a potent increase in excitability most prominently prior to hearing onset with nAChR modulation emerging at later time points. Pharmacological manipulations further demonstrated that the voltage gated K+channel KCNQ (Kv7) is the downstream effector of mAChR activation that impacts excitability early in development. Cholinergic modulation of Kv7 reduces outward K+conductance and depolarizes resting membrane potential. Immunolabeling revealed expression of Kv7 channels as well as mAChRs containing M1 and M3 subunits. Together, our results suggest that mAChR modulation is prominent but transient in the developing MNTB and that cholinergic modulation functions to shape auditory circuit development.Significance statementThis study is the first to examine downstream cellular mechanisms that underlie modulatory effects of acetylcholine (ACh) in MNTB neurons. The MNTB is a primary source of inhibition in the superior olive and features the calyx of Held, an intensively studied giant synapse that plays a pivotal role in precise encoding of acoustic cues. Recently, we discovered that ACh modulates MNTB responses in adult gerbils through nicotinic receptors. Here, we demonstrate that ACh has potent effects on membrane excitability prior to hearing onset primarily via muscarinic receptors and describe the expression of two muscarinic receptor subtypes. Our results suggest that developmentally transient cholinergic modulation of a voltage-gated K+conductance is poised to influence circuit development during the peri-hearing onset period.
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梯形体内侧核胆碱能调节机制的发育转换
梯形体内侧核(MNTB)作为脑干听觉回路抑制的主要来源已被深入研究。MNTB衍生的抑制在声音定位的计算中起着关键作用,因为声音的时间特征是通过Held/MNTB突触的花萼精确传递的。在成年沙鼠中,胆碱能信号通过尼古丁乙酰胆碱受体(nAChRs)影响MNTB神经元的声音诱发反应(Zhang等,2021),建立了对该核的胆碱能输入的调节作用。然而,乙酰胆碱(ACh)在MNTB中介导这种调节的细胞机制仍然不清楚。为了研究这些机制,我们使用全细胞电流和电压钳记录来检测蒙古沙鼠(Merionas unguiculatis)两种性别MNTB神经元的胆碱能生理。在烟碱受体(nAChRs)和毒碱受体(mAChRs)的激动剂和拮抗剂的浸泡过程中,在脑切片中,在听力发作前(p9-13)和听力发作后(p18-20) MNTB神经元中评估膜兴奋性。毒蕈碱激活诱导兴奋性显著增加,在听力发作前,nAChR调节出现在较晚的时间点。药理学操作进一步证明,电压门控K+通道KCNQ (Kv7)是mAChR激活的下游效应,影响发育早期的兴奋性。Kv7的胆碱能调节降低向外K+电导并使静息膜电位去极化。免疫标记显示Kv7通道以及含有M1和M3亚基的machr的表达。综上所述,我们的研究结果表明,在发展中的MNTB中,mAChR调节是突出的但短暂的,胆碱能调节对听觉回路的发育起作用。本研究首次研究了乙酰胆碱(ACh)在MNTB神经元中调节作用的下游细胞机制。MNTB是上橄榄抑制的主要来源,并以Held的花萼为特征,Held是一个被广泛研究的巨大突触,在声音信号的精确编码中起着关键作用。最近,我们发现ACh通过烟碱受体调节成年沙鼠的MNTB反应。在这里,我们证明了乙酰胆碱主要通过毒蕈碱受体对听力发作前的膜兴奋性有强有力的影响,并描述了两种毒蕈碱受体亚型的表达。我们的研究结果表明,电压门控K+电导的发育瞬态胆碱能调节可能会影响听力周围发病期的神经回路发育。
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