急性光遗传诱导 CA1 过度活跃的前驱期内型会导致精神分裂症相关的认知和显著性归因缺陷。

IF 3 Q2 PSYCHIATRY
Sampath K T Kapanaiah, Christina Grimm, Dennis Kätzel
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引用次数: 0

摘要

据报道,人类前部海马的过度活跃会在首发精神病发病前后从CA1亚区扩散到亚脑室,并可能成为精神分裂症前驱期早期治疗干预的细胞靶点。然而,CA1过度活跃究竟会在多大程度上导致精神分裂症相关症状仍是未知数。在这里,我们通过直接光遗传激活小鼠同源区域腹侧 CA1(vCA1)的兴奋细胞来模拟这种内表型,并评估其在多种精神分裂症相关行为测试中的后果。我们发现,vCA1的过度活跃会导致过度运动以及空间和物体相关的短期习惯(空间新奇偏好和新奇物体识别记忆)和空间工作记忆受损,而社会交往、空间探索和焦虑则保持不变。相反,刺激腹侧亚脑只增加了运动和探索。总之,CA1过度活跃可能是前驱认知症状和导致精神病的异常显著性分配的直接驱动因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Acute optogenetic induction of the prodromal endophenotype of CA1 hyperactivity causes schizophrenia-related deficits in cognition and salience attribution.

Hyperactivity of the human anterior hippocampus has been reported to spread from its CA1 subfield to the subiculum around the onset of first-episode psychosis and could be a cellular target for early therapeutic intervention in the schizophrenia prodrome. However, to what extent CA1 hyperactivity actually causes schizophrenia-related symptoms remains unknown. Here, we mimic this endophenotype by direct optogenetic activation of excitatory cells in the homologous mouse region, ventral CA1 (vCA1) and assess its consequence in multiple schizophrenia-related behavioural tests. We find that hyperactivity of vCA1 causes hyperlocomotion and impairments of spatial and object-related short-term habituation (spatial novelty-preference and novel-object recognition memory) and spatial working memory, whereas social interaction, spatial exploration, and anxiety remain unaltered. Stimulation of the ventral subiculum, in contrast, only increased locomotion and exploration. In conclusion, CA1 hyperactivity may be a direct driver of prodromal cognitive symptoms and of aberrant salience assignment leading to psychosis.

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