Innovations present in the primate interneuron repertoire

Fenna M. Krienen; Melissa Goldman; Qiangge Zhang; Ricardo C. H. del Rosario; Marta Florio; Robert Machold; Arpiar Saunders; Kirsten Levandowski; Heather Zaniewski; Benjamin Schuman; Carolyn Wu; Alyssa Lutservitz; Christopher D. Mullally; Nora Reed; Elizabeth Bien; Laura Bortolin; Marian Fernandez-Otero; Jessica D. Lin; Alec Wysoker; James Nemesh; David Kulp; Monika Burns; Victor Tkachev; Richard Smith; Christopher A. Walsh; Jordane Dimidschstein; Bernardo Rudy; Leslie S. Kean; Sabina Berretta; Gord Fishell; Guoping Feng; Steven A. McCarroll

doi:10.1038/s41586-020-2781-z

Innovations present in the primate interneuron repertoire

Fenna M. Krienen^*, Melissa Goldman, Qiangge Zhang, Ricardo C. H. del Rosario, Marta Florio, Robert Machold, Arpiar Saunders, Kirsten Levandowski, Heather Zaniewski, Benjamin Schuman, Carolyn Wu, Alyssa Lutservitz, Christopher D. Mullally, Nora Reed, Elizabeth Bien, Laura Bortolin, Marian Fernandez-Otero, Jessica D. Lin, Alec Wysoker, James NemeshDavid Kulp, Monika Burns, Victor Tkachev, Richard Smith, Christopher A. Walsh, Jordane Dimidschstein, Bernardo Rudy, Leslie S. Kean, Sabina Berretta, Gord Fishell, Guoping Feng, Steven A. McCarroll

^*Corresponding author for this work

Pharmacology

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Abstract

Primates and rodents, which descended from a common ancestor around 90 million years ago¹, exhibit profound differences in behaviour and cognitive capacity; the cellular basis for these differences is unknown. Here we use single-nucleus RNA sequencing to profile RNA expression in 188,776 individual interneurons across homologous brain regions from three primates (human, macaque and marmoset), a rodent (mouse) and a weasel (ferret). Homologous interneuron types—which were readily identified by their RNA-expression patterns—varied in abundance and RNA expression among ferrets, mice and primates, but varied less among primates. Only a modest fraction of the genes identified as ‘markers’ of specific interneuron subtypes in any one species had this property in another species. In the primate neocortex, dozens of genes showed spatial expression gradients among interneurons of the same type, which suggests that regional variation in cortical contexts shapes the RNA expression patterns of adult neocortical interneurons. We found that an interneuron type that was previously associated with the mouse hippocampus—the ‘ivy cell’, which has neurogliaform characteristics—has become abundant across the neocortex of humans, macaques and marmosets but not mice or ferrets. We also found a notable subcortical innovation: an abundant striatal interneuron type in primates that had no molecularly homologous counterpart in mice or ferrets. These interneurons expressed a unique combination of genes that encode transcription factors, receptors and neuropeptides and constituted around 30% of striatal interneurons in marmosets and humans.

Original language	English (US)
Pages (from-to)	262-269
Number of pages	8
Journal	Nature
Volume	586
Issue number	7828
DOIs	https://doi.org/10.1038/s41586-020-2781-z
State	Published - Oct 8 2020

Funding

Acknowledgements This work was supported by the Broad Institute’s Stanley Center for Psychiatric Research, by Brain Initiative grant U01MH114819 to G. Feng and S.A.M., by the Dean’s Innovation Award (Harvard Medical School) to G. Fishell and S.A.M., and by the Hock E. Tan and K. Lisa Yang Center for Autism Research at MIT, the Poitras Center for Psychiatric Disorders Research at MIT and the McGovern Institute for Brain Research at MIT (G. Feng) and the NINDS RO1NS032457 (C.A.W.). C.A.W. is an Investigator of the Howard Hughes Medical Institute. We thank R. Borges-Monroy for sharing the ferret transcriptome reference; M. W. Baldwin, A. D. Bell, S. Burger, C. Patil and R. L. Buckner for comments on manuscript drafts; C. Mayer for analysis advice; and C. Usher for assistance with manuscript preparation.

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Krienen, F. M., Goldman, M., Zhang, Q., C. H. del Rosario, R., Florio, M., Machold, R., Saunders, A., Levandowski, K., Zaniewski, H., Schuman, B., Wu, C., Lutservitz, A., Mullally, C. D., Reed, N., Bien, E., Bortolin, L., Fernandez-Otero, M., Lin, J. D., Wysoker, A., ... McCarroll, S. A. (2020). Innovations present in the primate interneuron repertoire. Nature, 586(7828), 262-269. https://doi.org/10.1038/s41586-020-2781-z

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title = "Innovations present in the primate interneuron repertoire",

abstract = "Primates and rodents, which descended from a common ancestor around 90 million years ago1, exhibit profound differences in behaviour and cognitive capacity; the cellular basis for these differences is unknown. Here we use single-nucleus RNA sequencing to profile RNA expression in 188,776 individual interneurons across homologous brain regions from three primates (human, macaque and marmoset), a rodent (mouse) and a weasel (ferret). Homologous interneuron types—which were readily identified by their RNA-expression patterns—varied in abundance and RNA expression among ferrets, mice and primates, but varied less among primates. Only a modest fraction of the genes identified as {\textquoteleft}markers{\textquoteright} of specific interneuron subtypes in any one species had this property in another species. In the primate neocortex, dozens of genes showed spatial expression gradients among interneurons of the same type, which suggests that regional variation in cortical contexts shapes the RNA expression patterns of adult neocortical interneurons. We found that an interneuron type that was previously associated with the mouse hippocampus—the {\textquoteleft}ivy cell{\textquoteright}, which has neurogliaform characteristics—has become abundant across the neocortex of humans, macaques and marmosets but not mice or ferrets. We also found a notable subcortical innovation: an abundant striatal interneuron type in primates that had no molecularly homologous counterpart in mice or ferrets. These interneurons expressed a unique combination of genes that encode transcription factors, receptors and neuropeptides and constituted around 30% of striatal interneurons in marmosets and humans.",

author = "Krienen, {Fenna M.} and Melissa Goldman and Qiangge Zhang and {C. H. del Rosario}, Ricardo and Marta Florio and Robert Machold and Arpiar Saunders and Kirsten Levandowski and Heather Zaniewski and Benjamin Schuman and Carolyn Wu and Alyssa Lutservitz and Mullally, {Christopher D.} and Nora Reed and Elizabeth Bien and Laura Bortolin and Marian Fernandez-Otero and Lin, {Jessica D.} and Alec Wysoker and James Nemesh and David Kulp and Monika Burns and Victor Tkachev and Richard Smith and Walsh, {Christopher A.} and Jordane Dimidschstein and Bernardo Rudy and {S. Kean}, Leslie and Sabina Berretta and Gord Fishell and Guoping Feng and McCarroll, {Steven A.}",

note = "Publisher Copyright: {\textcopyright} 2020, The Author(s), under exclusive licence to Springer Nature Limited.",

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doi = "10.1038/s41586-020-2781-z",

language = "English (US)",

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Krienen, FM, Goldman, M, Zhang, Q, C. H. del Rosario, R, Florio, M, Machold, R, Saunders, A, Levandowski, K, Zaniewski, H, Schuman, B, Wu, C, Lutservitz, A, Mullally, CD, Reed, N, Bien, E, Bortolin, L, Fernandez-Otero, M, Lin, JD, Wysoker, A, Nemesh, J, Kulp, D, Burns, M, Tkachev, V, Smith, R, Walsh, CA, Dimidschstein, J, Rudy, B, S. Kean, L, Berretta, S, Fishell, G, Feng, G & McCarroll, SA 2020, 'Innovations present in the primate interneuron repertoire', Nature, vol. 586, no. 7828, pp. 262-269. https://doi.org/10.1038/s41586-020-2781-z

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T1 - Innovations present in the primate interneuron repertoire

AU - Krienen, Fenna M.

AU - Goldman, Melissa

AU - Zhang, Qiangge

AU - C. H. del Rosario, Ricardo

AU - Florio, Marta

AU - Machold, Robert

AU - Saunders, Arpiar

AU - Levandowski, Kirsten

AU - Zaniewski, Heather

AU - Schuman, Benjamin

AU - Wu, Carolyn

AU - Lutservitz, Alyssa

AU - Mullally, Christopher D.

AU - Reed, Nora

AU - Bien, Elizabeth

AU - Bortolin, Laura

AU - Fernandez-Otero, Marian

AU - Lin, Jessica D.

AU - Wysoker, Alec

AU - Nemesh, James

AU - Kulp, David

AU - Burns, Monika

AU - Tkachev, Victor

AU - Smith, Richard

AU - Walsh, Christopher A.

AU - Dimidschstein, Jordane

AU - Rudy, Bernardo

AU - S. Kean, Leslie

AU - Berretta, Sabina

AU - Fishell, Gord

AU - Feng, Guoping

AU - McCarroll, Steven A.

PY - 2020/10/8

Y1 - 2020/10/8

N2 - Primates and rodents, which descended from a common ancestor around 90 million years ago1, exhibit profound differences in behaviour and cognitive capacity; the cellular basis for these differences is unknown. Here we use single-nucleus RNA sequencing to profile RNA expression in 188,776 individual interneurons across homologous brain regions from three primates (human, macaque and marmoset), a rodent (mouse) and a weasel (ferret). Homologous interneuron types—which were readily identified by their RNA-expression patterns—varied in abundance and RNA expression among ferrets, mice and primates, but varied less among primates. Only a modest fraction of the genes identified as ‘markers’ of specific interneuron subtypes in any one species had this property in another species. In the primate neocortex, dozens of genes showed spatial expression gradients among interneurons of the same type, which suggests that regional variation in cortical contexts shapes the RNA expression patterns of adult neocortical interneurons. We found that an interneuron type that was previously associated with the mouse hippocampus—the ‘ivy cell’, which has neurogliaform characteristics—has become abundant across the neocortex of humans, macaques and marmosets but not mice or ferrets. We also found a notable subcortical innovation: an abundant striatal interneuron type in primates that had no molecularly homologous counterpart in mice or ferrets. These interneurons expressed a unique combination of genes that encode transcription factors, receptors and neuropeptides and constituted around 30% of striatal interneurons in marmosets and humans.

AB - Primates and rodents, which descended from a common ancestor around 90 million years ago1, exhibit profound differences in behaviour and cognitive capacity; the cellular basis for these differences is unknown. Here we use single-nucleus RNA sequencing to profile RNA expression in 188,776 individual interneurons across homologous brain regions from three primates (human, macaque and marmoset), a rodent (mouse) and a weasel (ferret). Homologous interneuron types—which were readily identified by their RNA-expression patterns—varied in abundance and RNA expression among ferrets, mice and primates, but varied less among primates. Only a modest fraction of the genes identified as ‘markers’ of specific interneuron subtypes in any one species had this property in another species. In the primate neocortex, dozens of genes showed spatial expression gradients among interneurons of the same type, which suggests that regional variation in cortical contexts shapes the RNA expression patterns of adult neocortical interneurons. We found that an interneuron type that was previously associated with the mouse hippocampus—the ‘ivy cell’, which has neurogliaform characteristics—has become abundant across the neocortex of humans, macaques and marmosets but not mice or ferrets. We also found a notable subcortical innovation: an abundant striatal interneuron type in primates that had no molecularly homologous counterpart in mice or ferrets. These interneurons expressed a unique combination of genes that encode transcription factors, receptors and neuropeptides and constituted around 30% of striatal interneurons in marmosets and humans.

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Innovations present in the primate interneuron repertoire

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