A novel environment-evoked transcriptional signature predicts reactivity in single dentate granule neurons

Baptiste N. Jaeger; Sara B. Linker; Sarah L. Parylak; Jerika J. Barron; Iryna S. Gallina; Christian D. Saavedra; Conor Fitzpatrick; Christina K. Lim; Simon T. Schafer; Benjamin Lacar; Sebastian Jessberger; Fred H. Gage

doi:10.1038/s41467-018-05418-8

A novel environment-evoked transcriptional signature predicts reactivity in single dentate granule neurons

Baptiste N. Jaeger, Sara B. Linker, Sarah L. Parylak, Jerika J. Barron, Iryna S. Gallina, Christian D. Saavedra, Conor Fitzpatrick, Christina K. Lim, Simon T. Schafer, Benjamin Lacar, Sebastian Jessberger, Fred H. Gage

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57 Scopus citations

Abstract

Activity-induced remodeling of neuronal circuits is critical for memory formation. This process relies in part on transcription, but neither the rate of activity nor baseline transcription is equal across neuronal cell types. In this study, we isolated mouse hippocampal populations with different activity levels and used single nucleus RNA-seq to compare their transcriptional responses to activation. One hour after novel environment exposure, sparsely active dentate granule (DG) neurons had a much stronger transcriptional response compared to more highly active CA1 pyramidal cells and vasoactive intestinal polypeptide (VIP) interneurons. Activity continued to impact transcription in DG neurons up to 5 h, with increased heterogeneity. By re-exposing the mice to the same environment, we identified a unique transcriptional signature that selects DG neurons for reactivation upon re-exposure to the same environment. These results link transcriptional heterogeneity to functional heterogeneity and identify a transcriptional correlate of memory encoding in individual DG neurons.

Original language	English
Article number	3084
Journal	Nature Communications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41467-018-05418-8
State	Published - 1 Dec 2018
Externally published	Yes

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Jaeger, B. N., Linker, S. B., Parylak, S. L., Barron, J. J., Gallina, I. S., Saavedra, C. D., Fitzpatrick, C., Lim, C. K., Schafer, S. T., Lacar, B., Jessberger, S., & Gage, F. H. (2018). A novel environment-evoked transcriptional signature predicts reactivity in single dentate granule neurons. Nature Communications, 9(1), Article 3084. https://doi.org/10.1038/s41467-018-05418-8

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abstract = "Activity-induced remodeling of neuronal circuits is critical for memory formation. This process relies in part on transcription, but neither the rate of activity nor baseline transcription is equal across neuronal cell types. In this study, we isolated mouse hippocampal populations with different activity levels and used single nucleus RNA-seq to compare their transcriptional responses to activation. One hour after novel environment exposure, sparsely active dentate granule (DG) neurons had a much stronger transcriptional response compared to more highly active CA1 pyramidal cells and vasoactive intestinal polypeptide (VIP) interneurons. Activity continued to impact transcription in DG neurons up to 5 h, with increased heterogeneity. By re-exposing the mice to the same environment, we identified a unique transcriptional signature that selects DG neurons for reactivation upon re-exposure to the same environment. These results link transcriptional heterogeneity to functional heterogeneity and identify a transcriptional correlate of memory encoding in individual DG neurons.",

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AU - Jaeger, Baptiste N.

AU - Linker, Sara B.

AU - Parylak, Sarah L.

AU - Barron, Jerika J.

AU - Gallina, Iryna S.

AU - Saavedra, Christian D.

AU - Fitzpatrick, Conor

AU - Lim, Christina K.

AU - Schafer, Simon T.

AU - Lacar, Benjamin

AU - Jessberger, Sebastian

AU - Gage, Fred H.

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N2 - Activity-induced remodeling of neuronal circuits is critical for memory formation. This process relies in part on transcription, but neither the rate of activity nor baseline transcription is equal across neuronal cell types. In this study, we isolated mouse hippocampal populations with different activity levels and used single nucleus RNA-seq to compare their transcriptional responses to activation. One hour after novel environment exposure, sparsely active dentate granule (DG) neurons had a much stronger transcriptional response compared to more highly active CA1 pyramidal cells and vasoactive intestinal polypeptide (VIP) interneurons. Activity continued to impact transcription in DG neurons up to 5 h, with increased heterogeneity. By re-exposing the mice to the same environment, we identified a unique transcriptional signature that selects DG neurons for reactivation upon re-exposure to the same environment. These results link transcriptional heterogeneity to functional heterogeneity and identify a transcriptional correlate of memory encoding in individual DG neurons.

AB - Activity-induced remodeling of neuronal circuits is critical for memory formation. This process relies in part on transcription, but neither the rate of activity nor baseline transcription is equal across neuronal cell types. In this study, we isolated mouse hippocampal populations with different activity levels and used single nucleus RNA-seq to compare their transcriptional responses to activation. One hour after novel environment exposure, sparsely active dentate granule (DG) neurons had a much stronger transcriptional response compared to more highly active CA1 pyramidal cells and vasoactive intestinal polypeptide (VIP) interneurons. Activity continued to impact transcription in DG neurons up to 5 h, with increased heterogeneity. By re-exposing the mice to the same environment, we identified a unique transcriptional signature that selects DG neurons for reactivation upon re-exposure to the same environment. These results link transcriptional heterogeneity to functional heterogeneity and identify a transcriptional correlate of memory encoding in individual DG neurons.

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A novel environment-evoked transcriptional signature predicts reactivity in single dentate granule neurons

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