Histamine interferes with the early visual processing in mice

Matteo Tripodi, Hiroki Asari
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Abstract

Sensory processing is dynamically modulated by an animal's behavior and internal states. Growing evidence suggests that such modulation starts from early stages, even at the retina, but the underlying mechanisms remain elusive. Combining pharmacological and chemogenetic tools with single-unit extracellular recordings in awake head-fixed mice, here we identified that the visual responses of retinal ganglion cells and the lateral geniculate nucleus were both made weaker and slower by histaminergic projections from the tuberomammillary nucleus of the posterior hypothalamus. The observed changes in the visual responses were, however, not directly linked with histaminergic modulation of pupil dynamics or locomotion behavior. Our computational modelling analysis instead suggests neuronal circuit effects, such as gain modulation via the histamine H1 receptors in the retina. As nocturnal animals, facilitation of visual processing at low histamine level is ethologically beneficial for mice to respond faster to visual threats when animals are less active during daytime.
组胺会干扰小鼠的早期视觉处理能力
感官处理受动物行为和内部状态的动态调节。越来越多的证据表明,这种调节从早期阶段就开始了,甚至在视网膜上也是如此,但其潜在机制仍然难以捉摸。在此,我们将药理学和化学遗传学工具与清醒头固定小鼠的单细胞外记录相结合,发现视网膜神经节细胞和外侧膝状核的视觉反应在下丘脑后部结节哺乳核的组胺能投射作用下会变弱和变慢。然而,观察到的视觉反应变化与组胺能对瞳孔动态或运动行为的调节没有直接联系。我们的计算模型分析表明,这可能是神经元回路的作用,例如通过视网膜上的组胺 H1 受体调节增益。作为夜行性动物,当小鼠在白天活动较少时,低组胺水平对视觉处理的促进作用在伦理上有利于它们对视觉威胁做出更快的反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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