Hippocampal granule cells opt for early retirement

C. B. Alme, R. A. Buzzetti, D. F. Marrone, J. K. Leutgeb, M. K. Chawla, M. J. Schaner, J. D. Bohanick, T. Khoboko, S. Leutgeb, E. I. Moser, M. B. Moser, B. L. McNaughton, C. A. Barnes

Research output: Contribution to journalArticlepeer-review

135 Scopus citations


Increased excitability and plasticity of adult-generated hippocampal granule cells during a critical period suggests that they may "orthogonalize" memories according to time. One version of this "temporal tag" hypothesis suggests that young granule cells are particularly responsive during a specific time period after their genesis, allowing them to play a significant role in sculpting CA3 representations, after which they become much less responsive to any input. An alternative possibility is that the granule cells active during their window of increased plasticity, and excitability become selectively tuned to events that occurred during that time and participate in later reinstatement of those experiences, to the exclusion of other cells. To discriminate between these possibilities, rats were exposed to different environments at different times over many weeks, and cell activation was subsequently assessed during a single session in which all environments were revisited. Dispersing the initial experiences in time did not lead to the increase in total recruitment at reinstatement time predicted by the selective tuning hypothesis. The data indicate that, during a given time frame, only a very small number of granule cells participate in many experiences, with most not participating significantly in any. Based on these and previous data, the small excitable population of granule cells probably correspond to the most recently generated cells. It appears that, rather than contributing to the recollection of long past events, most granule cells, possibly 90-95%, are effectively "retired." If granule cells indeed sculpt CA3 representations (which remains to be shown), then a possible consequence of having a new set of granule cells participate when old memories are reinstated is that new representations of these experiences might be generated in CA3. Whatever the case, the present data may be interpreted to undermine the standard "orthogonalizer" theory of the role of the dentate gyrus in memory.

Original languageEnglish (US)
Pages (from-to)1109-1123
Number of pages15
Issue number10
StatePublished - Oct 2010


  • CatFISH
  • Dentate gyrus
  • Immediate early genes
  • Place cells
  • Spatial behavior

ASJC Scopus subject areas

  • Cognitive Neuroscience


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