Cholinergic signaling differentially regulates song premotor circuits to stabilize songs in songbirds

Ning Xu, Yutao Zhang, Yalun Sun, Xueqing Song, Yangyang Cao, Xinqi Yang, Songhua Wang, Wei Meng
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Abstract

Cholinergic modulation plays an important role in motor skill learning, including vocal learning. In songbirds, song premotor nucleus RA simultaneously receives inputs from song nuclei HVC and LMAN, and then its projection neurons (RAPNs) generate song motor control output. Using electrophysiological and pharmacological methods, we found that cholinergic signaling can enhance song stability by reducing HVC-RAPN excitatory synaptic transmission in adult male zebra finches, mediated by mAChRs. Although nAChRs are not effective overall, cholinergic signaling can also decrease LMAN-RAPN excitatory synaptic transmission induced by electrical stimulation via nAChRs, suggesting the potential role of cholinergic regulation in song behavior through LMAN-RA pathway. On the contrary, in adult female zebra finches, only LMAN-RAPN synaptic transmission was reduced by cholinergic signaling via mAChRs. The role of differential cholinergic regulation of song premotor circuits in songbirds' singing provides insights into the neural processes of motor skill learning.
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胆碱能信号在不同程度上调节鸣禽的鸣唱前运动回路以稳定鸣唱
胆碱能调节在运动技能学习(包括声乐学习)中发挥着重要作用。在鸣禽中,鸣唱前运动核RA同时接收来自鸣唱核HVC和LMAN的输入,然后其投射神经元(RAPN)产生鸣唱运动控制输出。利用电生理和药理学方法,我们发现胆碱能信号可以通过减少成年雄性斑马雀的 HVC-RAPN 兴奋性突触传递来提高鸣唱的稳定性,而这是由 mAChRs 介导的。虽然nAChRs总体上不起作用,但胆碱能信号也能通过nAChRs减少电刺激诱导的LMAN-RAPN兴奋性突触传递,这表明胆碱能通过LMAN-RA途径在鸣唱行为中发挥潜在的调节作用。相反,在成年雌性斑马雀中,只有LMAN-RAPN突触传递会因胆碱能信号通过mAChRs而降低。鸣禽鸣唱前运动回路的不同胆碱能调节作用为运动技能学习的神经过程提供了启示。
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