The histone demethylase dLsd1 regulates organ size by silencing transposable elements

Ines Selmi; Manuela Texier; Marion Aguirrenbegoa; Clementine Merce; Laurence Fraisse-lepourry; Bruno Mugat; Mourdas Mohamed; Severine Chambeyron; David Cribbs; Luisa Di Stefano

doi:10.1038/s42003-025-07724-6

The histone demethylase dLsd1 regulates organ size by silencing transposable elements

Ines Selmi
, Manuela Texier
, Marion Aguirrenbegoa
, Clementine Merce
, Laurence Fraisse-lepourry
, Bruno Mugat
, Mourdas Mohamed
, Severine Chambeyron
, David Cribbs
, Luisa Di Stefano

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

Abstract

The specific role of chromatin modifying factors in the timely execution of transcriptional changes in gene expression to regulate organ size remains largely unknown. Here, we report that in Drosophila melanogaster depletion of the histone demethylase dLsd1 results in the reduction of wing size. dLsd1 depletion affects cell proliferation and causes an increase in DNA damage and cell death. Mechanistically, we have identified Transposable Elements (TEs) as critical dLsd1 targets for organ size determination. We found that upon dLsd1 loss many TE families are upregulated, and new TE insertions appear. By blocking this new TE activity, we could rescue the wing size phenotype. Collectively, our results reveal that the histone demethylase dLsd1 and maintenance of TE homeostasis are required to ensure proper wing size.

Original language	English
Article number	272
Number of pages	12
Journal	Communications Biology
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s42003-025-07724-6
Publication status	Published - 20 Feb 2025

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title = "The histone demethylase dLsd1 regulates organ size by silencing transposable elements",

abstract = "The specific role of chromatin modifying factors in the timely execution of transcriptional changes in gene expression to regulate organ size remains largely unknown. Here, we report that in Drosophila melanogaster depletion of the histone demethylase dLsd1 results in the reduction of wing size. dLsd1 depletion affects cell proliferation and causes an increase in DNA damage and cell death. Mechanistically, we have identified Transposable Elements (TEs) as critical dLsd1 targets for organ size determination. We found that upon dLsd1 loss many TE families are upregulated, and new TE insertions appear. By blocking this new TE activity, we could rescue the wing size phenotype. Collectively, our results reveal that the histone demethylase dLsd1 and maintenance of TE homeostasis are required to ensure proper wing size.",

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AU - Selmi, Ines

AU - Texier, Manuela

AU - Aguirrenbegoa, Marion

AU - Merce, Clementine

AU - Fraisse-lepourry, Laurence

AU - Mugat, Bruno

AU - Mohamed, Mourdas

AU - Chambeyron, Severine

AU - Cribbs, David

AU - Di Stefano, Luisa

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N2 - The specific role of chromatin modifying factors in the timely execution of transcriptional changes in gene expression to regulate organ size remains largely unknown. Here, we report that in Drosophila melanogaster depletion of the histone demethylase dLsd1 results in the reduction of wing size. dLsd1 depletion affects cell proliferation and causes an increase in DNA damage and cell death. Mechanistically, we have identified Transposable Elements (TEs) as critical dLsd1 targets for organ size determination. We found that upon dLsd1 loss many TE families are upregulated, and new TE insertions appear. By blocking this new TE activity, we could rescue the wing size phenotype. Collectively, our results reveal that the histone demethylase dLsd1 and maintenance of TE homeostasis are required to ensure proper wing size.

AB - The specific role of chromatin modifying factors in the timely execution of transcriptional changes in gene expression to regulate organ size remains largely unknown. Here, we report that in Drosophila melanogaster depletion of the histone demethylase dLsd1 results in the reduction of wing size. dLsd1 depletion affects cell proliferation and causes an increase in DNA damage and cell death. Mechanistically, we have identified Transposable Elements (TEs) as critical dLsd1 targets for organ size determination. We found that upon dLsd1 loss many TE families are upregulated, and new TE insertions appear. By blocking this new TE activity, we could rescue the wing size phenotype. Collectively, our results reveal that the histone demethylase dLsd1 and maintenance of TE homeostasis are required to ensure proper wing size.

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The histone demethylase dLsd1 regulates organ size by silencing transposable elements

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