局部场电位
前额叶皮质
神经科学
神经编码
电生理学
神经活动
海马体
神经解码
心理学
编码(社会科学)
神经集成
解码方法
编码(内存)
社会神经科学
刺激(心理学)
判别式
信息处理
意识的神经相关物
生物
脑电图
人工神经网络
颞叶皮质
大脑活动与冥想
计算机科学
认知心理学
运动前神经元活动
神经影像学
作者
Xinnian Wang,Zheng Ma,Yifan Luo,Yechao Han,Chuanzan Zhan,Yulin Ouyang,Yang Zhan
标识
DOI:10.1073/pnas.2516279122
摘要
Social information processing involves coordinated neural activity across distributed brain circuits, with the ventral hippocampus (vHPC) and medial prefrontal cortex (mPFC) playing pivotal roles. However, whether these regions employ distinct coding strategies for different social stimuli remains unclear. Using in vivo electrophysiological recordings in freely interacting mice, we show that although both regions respond to social cues, they engage divergent neural coding mechanisms. During social interaction, the mPFC predominately recruits high gamma oscillations with amplitudes modulated by the phase of theta oscillations, whereas the vHPC primarily depends on low gamma activity phase-locked to theta rhythms. Information-theoretic and machine learning analyses demonstrate that neural populations in the mPFC encode social information more robustly than those in the vHPC. Moreover, integrating spiking activity with local field potential oscillations enhances decoding accuracy compared to spike-only models. Neural manifold analysis showed greater signal-noise angle in the mPFC compared to the vHPC, indicating more discriminative and stable social representations in the mPFC. Our findings demonstrate distinct engagement of neuronal populations and gamma oscillations in the vHPC and mPFC during social information processing.
科研通智能强力驱动
Strongly Powered by AbleSci AI