2018
DOI: 10.1038/s41586-018-0459-6
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Integrating time from experience in the lateral entorhinal cortex

Abstract: The encoding of time and its binding to events are crucial for episodic memory, but how these processes are carried out in hippocampal-entorhinal circuits is unclear. Here we show in freely foraging rats that temporal information is robustly encoded across time scales from seconds to hours within the overall population state of the lateral entorhinal cortex. Similarly pronounced encoding of time was not present in the medial entorhinal cortex or in hippocampal areas CA3-CA1. When animals' experiences were cons… Show more

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Cited by 440 publications
(568 citation statements)
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References 54 publications
(78 reference statements)
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“…Intriguingly, recent fMRI work in humans suggests that while hippocampal processes contribute to subjective mnemonic representations of time, lateral entorhinal cortex activity reflects the objective amount of time that has elapsed between events (Bellmund, Deuker, & Doeller, ; also see Montchal et al, ). In a similar finding, evidence in rodents suggests that the lateral entorhinal cortex, in particular, is important for encoding temporal information across short and long timescales (seconds‐to‐hours; Tsao et al, ). In the coming years, we expect that these convergent findings will ignite great interest in the entorhinal cortex's role in processing and organizing temporal information in memory.…”
Section: Mechanisms For Separating Memories Across Timementioning
confidence: 72%
“…Intriguingly, recent fMRI work in humans suggests that while hippocampal processes contribute to subjective mnemonic representations of time, lateral entorhinal cortex activity reflects the objective amount of time that has elapsed between events (Bellmund, Deuker, & Doeller, ; also see Montchal et al, ). In a similar finding, evidence in rodents suggests that the lateral entorhinal cortex, in particular, is important for encoding temporal information across short and long timescales (seconds‐to‐hours; Tsao et al, ). In the coming years, we expect that these convergent findings will ignite great interest in the entorhinal cortex's role in processing and organizing temporal information in memory.…”
Section: Mechanisms For Separating Memories Across Timementioning
confidence: 72%
“…Specific optogenetic stimulation of thirst-sensing neurons in sated mice was sufficient to recover activity along this thirsty state mode in a rapid and reversible manner and to restore the sub-sequent sensory- and behavior-related activity throughout the brain. Brain regions that did not fully represent the maximal level of thirst representation upon optogenetic stimulation could additionally be recipients of contextual or memory information on water consumption, visceral signals that normally cause animals to terminate drinking upon satiation [such as those relayed by oxytocin receptor–expressing neurons in the parabrachial nucleus (42)], or other slowly changing variables such as the passage of time (43). …”
Section: Discussionmentioning
confidence: 99%
“…Mechanisms of decaying persistent firing have also been observed in other structures such as hippocampus (Knauer, Jochems, Valero‐Aracama, & Yoshida, ) and prefrontal cortex (Haj‐Dahmane & Andrade, ). In addition, there are in vivo recordings showing a spectrum of timescales across cortex (Bernacchia, Seo, Lee, & Wang, ; Meister & Buffalo, ; Murray et al, ; Tsao et al, ).…”
Section: Discussionmentioning
confidence: 99%