Ubiquitous L1 mosaicism in hippocampal neurons

Kyle R. Upton; Daniel J. Gerhardt; J. Samuel Jesuadian; Sandra R. Richardson; Francisco J. Sánchez-Luque; Gabriela O. Bodea; Adam D. Ewing; Carmen Salvador-Palomeque; Marjo S. van der Knaap; Paul M. Brennan; Adeline Vanderver; Geoffrey J. Faulkner

doi:https://doi.org/10.1016/j.cell.2015.03.026

Ubiquitous L1 mosaicism in hippocampal neurons

Kyle R. Upton, Daniel J. Gerhardt, J. Samuel Jesuadian, Sandra R. Richardson, Francisco J. Sánchez-Luque, Gabriela O. Bodea, Adam D. Ewing, Carmen Salvador-Palomeque, Marjo S. van der Knaap, Paul M. Brennan, Adeline Vanderver, Geoffrey J. Faulkner

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

236 Citations (Scopus)

Abstract

Somatic LINE-1 (L1) retrotransposition during neurogenesis is a potential source of genotypic variation among neurons. As a neurogenic niche, the hippocampus supports pronounced L1 activity. However, the basal parameters and biological impact of L1-driven mosaicism remain unclear. Here, we performed single-cell retrotransposon capture sequencing (RC-seq) on individual human hippocampal neurons and glia, as well as cortical neurons. An estimated 13.7 somatic L1 insertions occurred per hippocampal neuron and carried the sequence hallmarks of target-primed reverse transcription. Notably, hippocampal neuron L1 insertions were specifically enriched in transcribed neuronal stem cell enhancers and hippocampus genes, increasing their probability of functional relevance. In addition, bias against intronic L1 insertions sense oriented relative to their host gene was observed, perhaps indicating moderate selection against this configuration in vivo. These experiments demonstrate pervasive L1 mosaicism at genomic loci expressed in hippocampal neurons

Original language	English
Pages (from-to)	228-239
Journal	Cell
Volume	161
Issue number	2
DOIs	https://doi.org/10.1016/j.cell.2015.03.026
Publication status	Published - 2015

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https://doi.org/10.1016/j.cell.2015.03.026

Cite this

@article{d3d14b9e1264417fb9dfa46a42a902fa,

title = "Ubiquitous L1 mosaicism in hippocampal neurons",

abstract = "Somatic LINE-1 (L1) retrotransposition during neurogenesis is a potential source of genotypic variation among neurons. As a neurogenic niche, the hippocampus supports pronounced L1 activity. However, the basal parameters and biological impact of L1-driven mosaicism remain unclear. Here, we performed single-cell retrotransposon capture sequencing (RC-seq) on individual human hippocampal neurons and glia, as well as cortical neurons. An estimated 13.7 somatic L1 insertions occurred per hippocampal neuron and carried the sequence hallmarks of target-primed reverse transcription. Notably, hippocampal neuron L1 insertions were specifically enriched in transcribed neuronal stem cell enhancers and hippocampus genes, increasing their probability of functional relevance. In addition, bias against intronic L1 insertions sense oriented relative to their host gene was observed, perhaps indicating moderate selection against this configuration in vivo. These experiments demonstrate pervasive L1 mosaicism at genomic loci expressed in hippocampal neurons",

author = "Upton, {Kyle R.} and Gerhardt, {Daniel J.} and Jesuadian, {J. Samuel} and Richardson, {Sandra R.} and S{\'a}nchez-Luque, {Francisco J.} and Bodea, {Gabriela O.} and Ewing, {Adam D.} and Carmen Salvador-Palomeque and {van der Knaap}, {Marjo S.} and Brennan, {Paul M.} and Adeline Vanderver and Faulkner, {Geoffrey J.}",

year = "2015",

doi = "https://doi.org/10.1016/j.cell.2015.03.026",

language = "English",

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T1 - Ubiquitous L1 mosaicism in hippocampal neurons

AU - Upton, Kyle R.

AU - Gerhardt, Daniel J.

AU - Jesuadian, J. Samuel

AU - Richardson, Sandra R.

AU - Sánchez-Luque, Francisco J.

AU - Bodea, Gabriela O.

AU - Ewing, Adam D.

AU - Salvador-Palomeque, Carmen

AU - van der Knaap, Marjo S.

AU - Brennan, Paul M.

AU - Vanderver, Adeline

AU - Faulkner, Geoffrey J.

PY - 2015

Y1 - 2015

N2 - Somatic LINE-1 (L1) retrotransposition during neurogenesis is a potential source of genotypic variation among neurons. As a neurogenic niche, the hippocampus supports pronounced L1 activity. However, the basal parameters and biological impact of L1-driven mosaicism remain unclear. Here, we performed single-cell retrotransposon capture sequencing (RC-seq) on individual human hippocampal neurons and glia, as well as cortical neurons. An estimated 13.7 somatic L1 insertions occurred per hippocampal neuron and carried the sequence hallmarks of target-primed reverse transcription. Notably, hippocampal neuron L1 insertions were specifically enriched in transcribed neuronal stem cell enhancers and hippocampus genes, increasing their probability of functional relevance. In addition, bias against intronic L1 insertions sense oriented relative to their host gene was observed, perhaps indicating moderate selection against this configuration in vivo. These experiments demonstrate pervasive L1 mosaicism at genomic loci expressed in hippocampal neurons

AB - Somatic LINE-1 (L1) retrotransposition during neurogenesis is a potential source of genotypic variation among neurons. As a neurogenic niche, the hippocampus supports pronounced L1 activity. However, the basal parameters and biological impact of L1-driven mosaicism remain unclear. Here, we performed single-cell retrotransposon capture sequencing (RC-seq) on individual human hippocampal neurons and glia, as well as cortical neurons. An estimated 13.7 somatic L1 insertions occurred per hippocampal neuron and carried the sequence hallmarks of target-primed reverse transcription. Notably, hippocampal neuron L1 insertions were specifically enriched in transcribed neuronal stem cell enhancers and hippocampus genes, increasing their probability of functional relevance. In addition, bias against intronic L1 insertions sense oriented relative to their host gene was observed, perhaps indicating moderate selection against this configuration in vivo. These experiments demonstrate pervasive L1 mosaicism at genomic loci expressed in hippocampal neurons

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