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