A short-term memory trace persists for days in the mouse hippocampus

Authors

Maha E. Wally, The British University in EgyptFollow
Masanori Nomoto, University of Toyama
Kareem Abdou, University of Toyama
Emi Murayama, University of Toyama
Kaoru Inokuchi, University of Toyama

Document Type

Article

Publication Date

Fall 11-3-2022

Abstract

Active recall of short-term memory (STM) is known to last for a few hours, but whether STM has long-term functions is unknown. Here we show that STM can be optogenetically retrieved at a time point during which natural recall is not possible, uncovering the long-term existence of an STM engram. Moreover, re-training within 3 days led to natural long-term recall, indicating facilitated consolidation. Inhibiting offline CA1 activity during non-rapid eye movement (NREM) sleep, N-methyl-D-aspartate receptor (NMDAR) activity, or protein synthesis after first exposure to the STM-forming event impaired the future re-exposure-facilitated consolidation, which highlights a role of protein synthesis, NMDAR and NREM sleep in the long-term storage of an STM trace. These results provide evidence that STM is not completely lost within hours and demonstrates a possible two-step STM consolidation, first long-term storage as a behaviorally inactive engram, then transformation into an active state by recurrence within 3 days.

Recommended Citation

Wally, Maha E.; Nomoto, Masanori; Abdou, Kareem; Murayama, Emi; and Inokuchi, Kaoru, "A short-term memory trace persists for days in the mouse hippocampus" (2022). Pharmacy. 727.
https://buescholar.bue.edu.eg/pharmacy/727