Neurogenesis in the adult is involved in the formation of trace memories

Tracey J. Shors; George Miesegaes; Anna Beylin; Mingrui Zhao; Tracy Rydel; Elizabeth Gould

doi:https://doi.org/10.1038/35066584

Neurogenesis in the adult is involved in the formation of trace memories

Tracey J. Shors, George Miesegaes, Anna Beylin, Mingrui Zhao, Tracy Rydel, Elizabeth Gould

Rutgers, The State University, Princeton University

Research output: Contribution to journal › Article › peer-review

1659 Scopus citations

Abstract

The vertebrate brain continues to produce new neurons throughout life^1-12. In the rat hippocampus, several thousand are produced each day, many of which die within weeks¹³. Associative learning can enhance their survival ^13,14; however, until now it was unknown whether new neurons are involved in memory formation. Here we show that a substantial reduction in the number of newly generated neurons in the adult rat impairs hippocampal-dependent trace conditioning, a task in which an animal must associate stimuli that are separated in time¹⁵. A similar reduction did not affect learning when the same stimuli are not separated in time, a task that is hippocampal-independent^16,17. The reduction in neurogenesis did not induce death of mature hippocampal neurons or permanently alter neurophysiological properties of the CA1 region, such as long-term potentiation. Moreover, recovery of cell production was associated with the ability to acquire trace memories. These results indicate that newly generated neurons in the adult are not only affected by the formation of a hippocampal-dependent memory¹³, but also participate in it.

Original language	American English
Pages (from-to)	372-376
Number of pages	5
Journal	Nature
Volume	410
Issue number	6826
DOIs	https://doi.org/10.1038/35066584
State	Published - Mar 15 2001

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title = "Neurogenesis in the adult is involved in the formation of trace memories",

abstract = "The vertebrate brain continues to produce new neurons throughout life1-12. In the rat hippocampus, several thousand are produced each day, many of which die within weeks13. Associative learning can enhance their survival 13,14; however, until now it was unknown whether new neurons are involved in memory formation. Here we show that a substantial reduction in the number of newly generated neurons in the adult rat impairs hippocampal-dependent trace conditioning, a task in which an animal must associate stimuli that are separated in time15. A similar reduction did not affect learning when the same stimuli are not separated in time, a task that is hippocampal-independent16,17. The reduction in neurogenesis did not induce death of mature hippocampal neurons or permanently alter neurophysiological properties of the CA1 region, such as long-term potentiation. Moreover, recovery of cell production was associated with the ability to acquire trace memories. These results indicate that newly generated neurons in the adult are not only affected by the formation of a hippocampal-dependent memory13, but also participate in it.",

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AU - Shors, Tracey J.

AU - Miesegaes, George

AU - Beylin, Anna

AU - Zhao, Mingrui

AU - Rydel, Tracy

AU - Gould, Elizabeth

PY - 2001/3/15

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N2 - The vertebrate brain continues to produce new neurons throughout life1-12. In the rat hippocampus, several thousand are produced each day, many of which die within weeks13. Associative learning can enhance their survival 13,14; however, until now it was unknown whether new neurons are involved in memory formation. Here we show that a substantial reduction in the number of newly generated neurons in the adult rat impairs hippocampal-dependent trace conditioning, a task in which an animal must associate stimuli that are separated in time15. A similar reduction did not affect learning when the same stimuli are not separated in time, a task that is hippocampal-independent16,17. The reduction in neurogenesis did not induce death of mature hippocampal neurons or permanently alter neurophysiological properties of the CA1 region, such as long-term potentiation. Moreover, recovery of cell production was associated with the ability to acquire trace memories. These results indicate that newly generated neurons in the adult are not only affected by the formation of a hippocampal-dependent memory13, but also participate in it.

AB - The vertebrate brain continues to produce new neurons throughout life1-12. In the rat hippocampus, several thousand are produced each day, many of which die within weeks13. Associative learning can enhance their survival 13,14; however, until now it was unknown whether new neurons are involved in memory formation. Here we show that a substantial reduction in the number of newly generated neurons in the adult rat impairs hippocampal-dependent trace conditioning, a task in which an animal must associate stimuli that are separated in time15. A similar reduction did not affect learning when the same stimuli are not separated in time, a task that is hippocampal-independent16,17. The reduction in neurogenesis did not induce death of mature hippocampal neurons or permanently alter neurophysiological properties of the CA1 region, such as long-term potentiation. Moreover, recovery of cell production was associated with the ability to acquire trace memories. These results indicate that newly generated neurons in the adult are not only affected by the formation of a hippocampal-dependent memory13, but also participate in it.

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Neurogenesis in the adult is involved in the formation of trace memories

Abstract

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