Reactivation of developmentally silenced globin genes through forced linear recruitment of remote enhancers

Anna-Karina Felder; Sjoerd J D Tjalsma; Han J M P Verhagen; Rezin Majied; Marjon J A M Verstegen; Thijs C J Verheul; Jeffrey van Haren; Rebecca Mohnani; Richard Gremmen; Peter H L Krijger; Sjaak Philipsen; Emile van den Akker; Wouter de Laat

doi:10.1182/blood.2024028128

Reactivation of developmentally silenced globin genes through forced linear recruitment of remote enhancers

Anna-Karina Felder, Sjoerd J D Tjalsma, Han J M P Verhagen, Rezin Majied, Marjon J A M Verstegen, Thijs C J Verheul, Jeffrey van Haren, Rebecca Mohnani, Richard Gremmen, Peter H L Krijger, Sjaak Philipsen, Emile van den Akker, Wouter de Laat^*

^*Corresponding author for this work

Cell biology

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

Abstract

The human genome contains regulatory DNA elements, enhancers, that can activate gene transcription over long chromosomal distances. Here, we show that enhancer distance can be critical for gene silencing. We demonstrate that linear recruitment of the normally distal strong HBB enhancer to developmentally silenced embryonic HBE or fetal HBG promoters, through deletion or inversion of intervening DNA sequences, results in their strongly reactivated expression in adult erythroid cells and ex vivo differentiated hematopoietic stem and progenitor cells. A similar observation is made in the HBA locus, where deletion-to-recruit of the distal enhancer strongly reactivates embryonic HBZ expression. Overall, our work assigns function to seemingly non-regulatory genomic segments: by providing linear separation they may support genes to autonomously control their transcriptional response to distal enhancers.

Original language	English
Journal	Blood
DOIs	https://doi.org/10.1182/blood.2024028128
Publication status	E-pub ahead of print - 2 Jun 2025

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10.1182/blood.2024028128

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Reactivation of developmentally silenced globin genes through forced linear recruitment of remote enhancers
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Felder, A.-K., Tjalsma, S. J. D., Verhagen, H. J. M. P., Majied, R., Verstegen, M. J. A. M., Verheul, T. C. J., van Haren, J., Mohnani, R., Gremmen, R., Krijger, P. H. L., Philipsen, S., van den Akker, E., & de Laat, W. (2025). Reactivation of developmentally silenced globin genes through forced linear recruitment of remote enhancers. Blood. Advance online publication. https://doi.org/10.1182/blood.2024028128

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title = "Reactivation of developmentally silenced globin genes through forced linear recruitment of remote enhancers",

abstract = "The human genome contains regulatory DNA elements, enhancers, that can activate gene transcription over long chromosomal distances. Here, we show that enhancer distance can be critical for gene silencing. We demonstrate that linear recruitment of the normally distal strong HBB enhancer to developmentally silenced embryonic HBE or fetal HBG promoters, through deletion or inversion of intervening DNA sequences, results in their strongly reactivated expression in adult erythroid cells and ex vivo differentiated hematopoietic stem and progenitor cells. A similar observation is made in the HBA locus, where deletion-to-recruit of the distal enhancer strongly reactivates embryonic HBZ expression. Overall, our work assigns function to seemingly non-regulatory genomic segments: by providing linear separation they may support genes to autonomously control their transcriptional response to distal enhancers.",

author = "Anna-Karina Felder and Tjalsma, {Sjoerd J D} and Verhagen, {Han J M P} and Rezin Majied and Verstegen, {Marjon J A M} and Verheul, {Thijs C J} and {van Haren}, Jeffrey and Rebecca Mohnani and Richard Gremmen and Krijger, {Peter H L} and Sjaak Philipsen and {van den Akker}, Emile and {de Laat}, Wouter",

note = "Copyright {\textcopyright} 2025 American Society of Hematology.",

year = "2025",

month = jun,

day = "2",

doi = "10.1182/blood.2024028128",

language = "English",

journal = "Blood",

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T1 - Reactivation of developmentally silenced globin genes through forced linear recruitment of remote enhancers

AU - Felder, Anna-Karina

AU - Tjalsma, Sjoerd J D

AU - Verhagen, Han J M P

AU - Majied, Rezin

AU - Verstegen, Marjon J A M

AU - Verheul, Thijs C J

AU - van Haren, Jeffrey

AU - Mohnani, Rebecca

AU - Gremmen, Richard

AU - Krijger, Peter H L

AU - Philipsen, Sjaak

AU - van den Akker, Emile

AU - de Laat, Wouter

PY - 2025/6/2

Y1 - 2025/6/2

N2 - The human genome contains regulatory DNA elements, enhancers, that can activate gene transcription over long chromosomal distances. Here, we show that enhancer distance can be critical for gene silencing. We demonstrate that linear recruitment of the normally distal strong HBB enhancer to developmentally silenced embryonic HBE or fetal HBG promoters, through deletion or inversion of intervening DNA sequences, results in their strongly reactivated expression in adult erythroid cells and ex vivo differentiated hematopoietic stem and progenitor cells. A similar observation is made in the HBA locus, where deletion-to-recruit of the distal enhancer strongly reactivates embryonic HBZ expression. Overall, our work assigns function to seemingly non-regulatory genomic segments: by providing linear separation they may support genes to autonomously control their transcriptional response to distal enhancers.

AB - The human genome contains regulatory DNA elements, enhancers, that can activate gene transcription over long chromosomal distances. Here, we show that enhancer distance can be critical for gene silencing. We demonstrate that linear recruitment of the normally distal strong HBB enhancer to developmentally silenced embryonic HBE or fetal HBG promoters, through deletion or inversion of intervening DNA sequences, results in their strongly reactivated expression in adult erythroid cells and ex vivo differentiated hematopoietic stem and progenitor cells. A similar observation is made in the HBA locus, where deletion-to-recruit of the distal enhancer strongly reactivates embryonic HBZ expression. Overall, our work assigns function to seemingly non-regulatory genomic segments: by providing linear separation they may support genes to autonomously control their transcriptional response to distal enhancers.

U2 - 10.1182/blood.2024028128

DO - 10.1182/blood.2024028128

M3 - Article

C2 - 40456162

SN - 0006-4971

JO - Blood

JF - Blood

ER -

Reactivation of developmentally silenced globin genes through forced linear recruitment of remote enhancers

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