Targeting DNA2 overcomes metabolic reprogramming in multiple myeloma
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Published:2024-02-08
Issue:1
Volume:15
Page:
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ISSN:2041-1723
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Container-title:Nature Communications
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language:en
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Short-container-title:Nat Commun
Author:
Thongon Natthakan, Ma FeiyangORCID, Baran NataliaORCID, Lockyer Pamela, Liu JintanORCID, Jackson Christopher, Rose Ashley, Furudate KenORCID, Wildeman Bethany, Marchesini Matteo, Marchica Valentina, Storti PaolaORCID, Todaro Giannalisa, Ganan-Gomez IreneORCID, Adema VeraORCID, Rodriguez-Sevilla Juan Jose, Qing Yun, Ha Min Jin, Fonseca RodrigoORCID, Stein Caleb, Class CalebORCID, Tan Lin, Attanasio Sergio, Garcia-Manero GuillermoORCID, Giuliani NicolaORCID, Berrios Nolasco David, Santoni Andrea, Cerchione Claudio, Bueso-Ramos CarlosORCID, Konopleva Marina, Lorenzi PhilipORCID, Takahashi KoichiORCID, Manasanch Elisabet, Sammarelli Gabriella, Kanagal-Shamanna RashmiORCID, Viale Andrea, Chesi MartaORCID, Colla SimonaORCID
Abstract
AbstractDNA damage resistance is a major barrier to effective DNA-damaging therapy in multiple myeloma (MM). To discover mechanisms through which MM cells overcome DNA damage, we investigate how MM cells become resistant to antisense oligonucleotide (ASO) therapy targeting Interleukin enhancer binding factor 2 (ILF2), a DNA damage regulator that is overexpressed in 70% of MM patients whose disease has progressed after standard therapies have failed. Here, we show that MM cells undergo adaptive metabolic rewiring to restore energy balance and promote survival in response to DNA damage activation. Using a CRISPR/Cas9 screening strategy, we identify the mitochondrial DNA repair protein DNA2, whose loss of function suppresses MM cells’ ability to overcome ILF2 ASO−induced DNA damage, as being essential to counteracting oxidative DNA damage. Our study reveals a mechanism of vulnerability of MM cells that have an increased demand for mitochondrial metabolism upon DNA damage activation.
Funder
U.S. Department of Health & Human Services | NIH | Center for Scientific Review
Publisher
Springer Science and Business Media LLC
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