Isabella Horton scite author profile

Isabella Horton

3Publications

5Citation Statements Received

299Citation Statements Given

How they've been cited

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189

295

Affiliations

University of Colorado Boulder, University of Colorado System

Publications

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Mouse B2 SINE elements function as IFN-inducible enhancers

Horton

Kelly

Dziulko

et al. 2023

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Regulatory networks underlying innate immunity continually face selective pressures to adapt to new and evolving pathogens. Transposable elements (TEs) can affect immune gene expression as a source of inducible regulatory elements, but the significance of these elements in facilitating evolutionary diversification of innate immunity remains largely unexplored. Here, we investigated the mouse epigenomic response to type II interferon (IFN) signaling and discovered that elements from a subfamily of B2 SINE (B2_Mm2) contain STAT1 binding sites and function as IFN-inducible enhancers. CRISPR deletion experiments in mouse cells demonstrated that a B2_Mm2 element has been co-opted as an enhancer driving IFN-inducible expression of Dicer1. The rodent-specific B2 SINE family is highly abundant in the mouse genome and elements have been previously characterized to exhibit promoter, insulator, and non-coding RNA activity. Our work establishes a new role for B2 elements as inducible enhancer elements that influence mouse immunity, and exemplifies how lineage-specific TEs can facilitate evolutionary turnover and divergence of innate immune regulatory networks.

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Mouse B2 SINE elements function as IFN-inducible enhancers

Horton

Kelly

Simpson

et al. 2022

Preprint

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Regulatory networks underlying innate immunity continually face selective pressures to adapt to new and evolving pathogens. Transposable elements (TEs) can affect immune gene expression as a source of inducible regulatory elements, but the significance of these elements in facilitating evolutionary diversification of innate immunity remains largely unexplored. Here, we investigated the mouse epigenomic response to type II interferon (IFN) signaling and discovered that elements from a subfamily of B2 SINE (B2_Mm2) contain STAT1 binding sites and function as IFN-inducible enhancers. CRISPR deletion experiments in mouse cells demonstrated that a B2_Mm2 element has been co-opted as an IFN-inducible enhancer of Dicer1 and the nearby Serpina3f and Serpina3g genes. The rodent-specific B2 SINE family is highly abundant in the mouse genome and elements have been previously characterized to exhibit promoter, insulator, and non-coding RNA activity. Our work establishes a new role for B2 elements as inducible enhancer elements that influence mouse immunity and exemplifies how lineage-specific TEs can facilitate evolutionary divergence of innate immune regulatory networks.

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Author response: Mouse B2 SINE elements function as IFN-inducible enhancers

Horton

Kelly

Dziulko

et al. 2023

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Isabella Horton

Mouse B2 SINE elements function as IFN-inducible enhancers

Mouse B2 SINE elements function as IFN-inducible enhancers

Author response: Mouse B2 SINE elements function as IFN-inducible enhancers

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