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估计脑岛皮层的当前和未来生理状态。

Estimation of Current and Future Physiological States in Insular Cortex.

机构信息

Division of Endocrinology, Diabetes and Metabolism, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, MA 02215, USA.

Division of Endocrinology, Diabetes and Metabolism, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, MA 02215, USA; Program in Neuroscience, Harvard Medical School, Boston, MA 02115, USA.

出版信息

Neuron. 2020 Mar 18;105(6):1094-1111.e10. doi: 10.1016/j.neuron.2019.12.027. Epub 2020 Jan 16.

DOI:10.1016/j.neuron.2019.12.027
PMID:31955944
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7083695/
Abstract

Interoception, the sense of internal bodily signals, is essential for physiological homeostasis, cognition, and emotions. While human insular cortex (InsCtx) is implicated in interoception, the cellular and circuit mechanisms remain unclear. We imaged mouse InsCtx neurons during two physiological deficiency states: hunger and thirst. InsCtx ongoing activity patterns reliably tracked the gradual return to homeostasis but not changes in behavior. Accordingly, while artificial induction of hunger or thirst in sated mice via activation of specific hypothalamic neurons (AgRP or SFO) restored cue-evoked food- or water-seeking, InsCtx ongoing activity continued to reflect physiological satiety. During natural hunger or thirst, food or water cues rapidly and transiently shifted InsCtx population activity to the future satiety-related pattern. During artificial hunger or thirst, food or water cues further shifted activity beyond the current satiety-related pattern. Together with circuit-mapping experiments, these findings suggest that InsCtx integrates visceral-sensory signals of current physiological state with hypothalamus-gated amygdala inputs that signal upcoming ingestion of food or water to compute a prediction of future physiological state.

摘要

内感受,即对内部身体信号的感知,对于生理稳态、认知和情绪至关重要。尽管人类脑岛皮层(InsCtx)与内感受有关,但细胞和回路机制仍不清楚。我们在两种生理缺乏状态下对小鼠的 InsCtx 神经元进行了成像:饥饿和口渴。InsCtx 的持续活动模式可靠地跟踪了逐渐恢复到稳态的过程,但不能反映行为的变化。因此,虽然通过激活特定下丘脑神经元(AgRP 或 SFO)在饱食的小鼠中人为诱导饥饿或口渴会恢复线索诱发的食物或水寻求,但 InsCtx 的持续活动仍然反映了生理饱足。在自然饥饿或口渴时,食物或水线索会迅速而短暂地将 InsCtx 群体活动转移到未来与饱腹感相关的模式。在人为饥饿或口渴时,食物或水线索会进一步将活动转移到当前与饱腹感相关的模式之外。结合回路映射实验,这些发现表明 InsCtx 将当前生理状态的内脏感觉信号与由下丘脑控制的杏仁核输入整合在一起,以计算对未来生理状态的预测,从而进行摄入食物或水的信号。

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