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未定带多巴胺能神经元编码觅食行为中的动机活力。

Zona incerta dopamine neurons encode motivational vigor in food seeking.

作者信息

Ye Qiying, Nunez Jeremiah, Zhang Xiaobing

出版信息

bioRxiv. 2023 Jun 29:2023.06.29.547060. doi: 10.1101/2023.06.29.547060.

DOI:10.1101/2023.06.29.547060
PMID:37425830
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10327402/
Abstract

UNLABELLED

Energy deprivation triggers food seeking to ensure homeostatic consumption, but the neural coding of motivational vigor in food seeking during physical hunger remains unknown. Here, we report that ablation of dopamine (DA) neurons in zona incerta (ZI) but not ventral tegmental area potently impaired food seeking after fasting. ZI DA neurons were quickly activated for food approach but inhibited during food consumption. Chemogenetic manipulation of ZI DA neurons bidirectionally regulated feeding motivation to control meal frequency but not meal size for food intake. In addition, activation of ZI DA neurons and their projections to paraventricular thalamus transited positive-valence signals to promote acquisition and expression of contextual food memory. Together, these findings reveal that ZI DA neurons encode motivational vigor in food seeking for homeostatic eating.

ONE SENTENCE SUMMARY

Activation of ZI DA neurons vigorously drives and maintains food-seeking behaviors to ensure food consumption triggered by energy deprivation through inhibitory DA transmissions that transit positive-valence signals associated with contextual food memory.

摘要

未标记

能量剥夺会引发觅食行为以确保稳态消耗,但身体饥饿时觅食动机活力的神经编码仍不清楚。在这里,我们报告,损毁未定带(ZI)而非腹侧被盖区的多巴胺(DA)神经元会显著损害禁食后的觅食行为。ZI DA神经元在接近食物时迅速被激活,但在进食时受到抑制。对ZI DA神经元进行化学遗传学操纵可双向调节摄食动机,以控制进食频率,但不影响进食量。此外,激活ZI DA神经元及其向室旁丘脑的投射可传递正价信号,以促进情境性食物记忆的获得和表达。总之,这些发现揭示了ZI DA神经元在为稳态进食而觅食过程中编码动机活力。

一句话总结

激活ZI DA神经元有力地驱动并维持觅食行为,以确保通过抑制性DA传递来消耗能量剥夺引发的食物,这种抑制性DA传递会传递与情境性食物记忆相关的正价信号。