Department of Cell Biology, Duke University School of Medicine, Durham, North Carolina; Department of Psychiatry, McLean Hospital, Harvard Medical School, Belmont, Massachusetts.
Department of Cell Biology, Duke University School of Medicine, Durham, North Carolina.
Biol Psychiatry. 2023 Aug 1;94(3):239-248. doi: 10.1016/j.biopsych.2023.01.009. Epub 2023 Jan 19.
The ability to correctly associate cues and contexts with threat is critical for survival, and the inability to do so can result in threat-related disorders such as posttraumatic stress disorder. The prefrontal cortex (PFC) and hippocampus are well known to play critical roles in cued and contextual threat memory processing. However, the circuits that mediate prefrontal-hippocampal modulation of context discrimination during cued threat processing are less understood. Here, we demonstrate the role of a previously unexplored projection from the ventromedial region of PFC (vmPFC) to the lateral entorhinal cortex (LEC) in modulating the gain of behavior in response to contextual information during threat retrieval and encoding.
We used optogenetics followed by in vivo calcium imaging in male C57/B6J mice to manipulate and monitor vmPFC-LEC activity in response to threat-associated cues in different contexts. We then investigated the inputs to, and outputs from, vmPFC-LEC cells using Rabies tracing and channelrhodopsin-assisted electrophysiology.
vmPFC-LEC cells flexibly and bidirectionally shaped behavior during threat expression, shaping sensitivity to contextual information to increase or decrease the gain of behavioral output in response to a threatening or neutral context, respectively.
Glutamatergic vmPFC-LEC cells are key players in behavioral gain control in response to contextual information during threat processing and may provide a future target for intervention in threat-based disorders.
正确地将线索和情境与威胁联系起来的能力对生存至关重要,而无法做到这一点可能会导致与威胁相关的障碍,如创伤后应激障碍。前额叶皮层(PFC)和海马体被认为在提示和情境威胁记忆处理中起着关键作用。然而,介导提示威胁处理过程中前额叶-海马调节的回路知之甚少。在这里,我们证明了来自 PFC 腹内侧区域(vmPFC)到外侧内嗅皮层(LEC)的一个以前未被探索的投射在调节行为对威胁检索和编码过程中情境信息的增益中的作用。
我们使用光遗传学,然后在雄性 C57/B6J 小鼠中进行体内钙成像,以操纵和监测威胁相关线索在不同情境下对 vmPFC-LEC 活动的影响。然后,我们使用狂犬病追踪和通道蛋白辅助电生理学研究了 vmPFC-LEC 细胞的输入和输出。
vmPFC-LEC 细胞在威胁表达过程中灵活地双向塑造行为,分别通过增加或减少对威胁或中性情境的行为输出的增益来调节对情境信息的敏感性。
谷氨酸能 vmPFC-LEC 细胞是威胁处理过程中对情境信息进行行为增益控制的关键参与者,可能为基于威胁的障碍的干预提供未来的目标。
