Flexible Adjustment of Oxytocin Neuron Activity in Mother Mice Revealed by Microendoscopy

Kasane Yaguchi, Kazunari Miyamichi, Gen-ichi Tasaka
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Abstract

Oxytocin (OT) neurons in the hypothalamic paraventricular nucleus (PVH) play an important role in a range of physiological and behavioral processes, including the initiation of milk ejection and the regulation of parental behaviors in mothers. However, their activity patterns at the single-cell level remain poorly understood. Using microendoscopic Ca2+ imaging in freely moving mother mice, we demonstrate highly correlated pulsatile activity among individual OT neurons during lactation. The number of OT neurons engaged in the pulsatile activity, along with the characteristics of individual waveforms, was dynamically modulated by lactation and weaning experiences. Notably, only approximately 10% of the imaged OT neurons exhibited a significantly elevated response during pup retrieval, a hallmark of maternal behaviors, with a magnitude 18 times smaller than that observed during lactation. Collectively, these findings demonstrate the utility of microendoscopic imaging for PVH OT neurons and highlight the flexible adjustments of their individual activity patterns in freely behaving mother mice.
显微内窥镜揭示母鼠催产素神经元活动的灵活调节性
下丘脑室旁核(PVH)中的催产素(OT)神经元在一系列生理和行为过程中发挥着重要作用,包括启动母亲的排乳和调节父母行为。然而,人们对它们在单细胞水平上的活动模式仍然知之甚少。通过对自由活动的母鼠进行微内窥镜 Ca2+ 成像,我们证明了泌乳期间单个 OT 神经元之间高度相关的脉冲活动。参与脉动活动的 OT 神经元数量以及单个波形的特征受哺乳和断奶经历的动态调节。值得注意的是,只有约 10% 的成像 OT 神经元在幼崽找回过程中表现出显著的升高反应,这是母性行为的标志,其幅度比哺乳期观察到的小 18 倍。总之,这些研究结果证明了显微内窥镜成像对 PVH OT 神经元的实用性,并强调了它们在行为自由的母鼠体内灵活调整各自的活动模式。
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