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Suppressed prefrontal neuronal firing variability and impaired social representation in IRSp53-mutant mice

Woohyun Kim, Jae Jin Shin, Yu Jin Jeong, Kyungdeok Kim, Jung Won Bae, Young Woo Noh, Seungjoon Lee, Woochul Choi, Se‐Bum Paik, Min Whan Jung, Eunee Lee, Eunjoon Kim

2022eLife27 citationsDOIOpen Access PDF

Abstract

Social deficit is a major feature of neuropsychiatric disorders, including autism spectrum disorders, schizophrenia, and attention-deficit/hyperactivity disorder, but its neural mechanisms remain unclear. Here, we examined neuronal discharge characteristics in the medial prefrontal cortex (mPFC) of IRSp53/Baiap2-mutant mice, which show social deficits, during social approach. We found a decrease in the proportion of IRSp53-mutant excitatory mPFC neurons encoding social information, but not that encoding non-social information. In addition, the firing activity of IRSp53-mutant neurons was less differential between social and non-social targets. IRSp53-mutant excitatory mPFC neurons displayed an increase in baseline neuronal firing, but decreases in the variability and dynamic range of firing as well as burst firing during social and non-social target approaches compared to wild-type controls. Treatment of memantine, an NMDA receptor antagonist that rescues social deficit in IRSp53-mutant mice, alleviates the reduced burst firing of IRSp53-mutant pyramidal mPFC neurons. These results suggest that suppressed neuronal activity dynamics and burst firing may underlie impaired cortical encoding of social information and social behaviors in IRSp53-mutant mice.

Topics & Concepts

Prefrontal cortexNeuroscienceExcitatory postsynaptic potentialMutantAutismAutism spectrum disorderNMDA receptorInhibitory postsynaptic potentialPsychologyBiologyReceptorDevelopmental psychologyGeneticsGeneCognitionNeuroscience and Neuropharmacology ResearchNeuroendocrine regulation and behaviorNeurogenesis and neuroplasticity mechanisms
Suppressed prefrontal neuronal firing variability and impaired social representation in IRSp53-mutant mice | Litcius