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下丘脑中的一个近似线吸引子编码攻击性状态
作者:小柯机器人 发布时间:2023/1/7 15:30:49

美国霍华德休斯医学研究所Ann Kennedy等研究人员合作发现,下丘脑中的一个近似线吸引子编码攻击性状态。这一研究成果于2023年1月5日发表在国际学术期刊《细胞》上。

据研究人员介绍,下丘脑调控先天的社会行为,包括交配和攻击行为。这些行为可以通过光遗传学刺激MPOA和VMHvl内的特定神经元亚群来诱发。
 
研究人员对这些核团在社会行为中的群体神经元活动进行了动态系统建模。在VMHvl中,无监督分析确定了一个具有大时间常数(>50秒)的神经活动的主导维度,在神经状态空间中产生了一个近似的线吸引子。沿着这个吸引子神经轨迹的进展与攻击性行为的升级相关,这表明它可能编码了一个可扩展的攻击性状态。与此相一致,整合维度时间常数量级的个体差异与攻击性的差异密切相关。相反,在交配期间,在MPOA中没有观察到近似的线吸引子;相反,具有快速动态的神经元被调谐到特定的行动。因此,不同的下丘脑核采用不同的神经群体编码来表示类似的社会行为。
 
附:英文原文

Title: An approximate line attractor in the hypothalamus encodes an aggressive state

Author: Aditya Nair, Tomomi Karigo, Bin Yang, Surya Ganguli, Mark J. Schnitzer, Scott W. Linderman, David J. Anderson, Ann Kennedy

Issue&Volume: 2023/01/05

Abstract: The hypothalamus regulates innate social behaviors, including mating and aggression. These behaviors can be evoked by optogenetic stimulation of specific neuronal subpopulations within MPOA and VMHvl, respectively. Here, we perform dynamical systems modeling of population neuronal activity in these nuclei during social behaviors. In VMHvl, unsupervised analysis identified a dominant dimension of neural activity with a large time constant (>50 s), generating an approximate line attractor in neural state space. Progression of the neural trajectory along this attractor was correlated with an escalation of agonistic behavior, suggesting that it may encode a scalable state of aggressiveness. Consistent with this, individual differences in the magnitude of the integration dimension time constant were strongly correlated with differences in aggressiveness. In contrast, approximate line attractors were not observed in MPOA during mating; instead, neurons with fast dynamics were tuned to specific actions. Thus, different hypothalamic nuclei employ distinct neural population codes to represent similar social behaviors.

DOI: 10.1016/j.cell.2022.11.027

Source: https://www.cell.com/cell/fulltext/S0092-8674(22)01471-4

期刊信息
Cell:《细胞》,创刊于1974年。隶属于细胞出版社,最新IF:66.85
官方网址:https://www.cell.com/