A Weakened Recurrent Circuit in the Hippocampus of Rett Syndrome Mice Disrupts Long-term Memory Representations

Overview

Journal Neuron

Publisher Cell Press

Specialty Neurology

Date 2022 Mar 15

PMID 35290792

Authors

Lingjie He

Matthew S Caudill

Junzhan Jing

Wei Wang

Yaling Sun

Jianrong Tang

Xiaolong Jiang

Huda Y Zoghbi

Affiliations

Soon will be listed here.

Abstract

Successful recall of a contextual memory requires reactivating ensembles of hippocampal cells that were allocated during memory formation. Altering the ratio of excitation-to-inhibition (E/I) during memory retrieval can bias cell participation in an ensemble and hinder memory recall. In the case of Rett syndrome (RTT), a neurological disorder with severe learning and memory deficits, the E/I balance is altered, but the source of this imbalance is unknown. Using in vivo imaging during an associative memory task, we show that during long-term memory retrieval, RTT CA1 cells poorly distinguish mnemonic context and form larger ensembles than wild-type mouse cells. Simultaneous multiple whole-cell recordings revealed that mutant somatostatin expressing interneurons (SOM) are poorly recruited by CA1 pyramidal cells and are less active during long-term memory retrieval in vivo. Chemogenetic manipulation revealed that reduced SOM activity underlies poor long-term memory recall. Our findings reveal a disrupted recurrent CA1 circuit contributing to RTT memory impairment.

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