TY - JOUR
T1 - DiPRO1 distinctly reprograms muscle and mesenchymal cancer cells
AU - Rich, Jeremy
AU - Bennaroch, Melanie
AU - Notel, Laura
AU - Patalakh, Polina
AU - Alberola, Julien
AU - Issa, Fayez
AU - Opolon, Paule
AU - Bawa, Olivia
AU - Rondof, Windy
AU - Marchais, Antonin
AU - Dessen, Philippe
AU - Meurice, Guillaume
AU - Le-Gall, Morgane
AU - Polrot, Melanie
AU - Ser-Le Roux, Karine
AU - Mamchaoui, Kamel
AU - Droin, Nathalie
AU - Raslova, Hana
AU - Maire, Pascal
AU - Geoerger, Birgit
AU - Pirozhkova, Iryna
N1 - Publisher Copyright:
© The Author(s) 2024.
PY - 2024/8/12
Y1 - 2024/8/12
N2 - We have recently identified the uncharacterized ZNF555 protein as a component of a productive complex involved in the morbid function of the 4qA locus in facioscapulohumeral dystrophy. Subsequently named DiPRO1 (Death, Differentiation, and PROliferation related PROtein 1), our study provides substantial evidence of its role in the differentiation and proliferation of human myoblasts. DiPRO1 operates through the regulatory binding regions of SIX1, a master regulator of myogenesis. Its relevance extends to mesenchymal tumors, such as rhabdomyosarcoma (RMS) and Ewing sarcoma, where DiPRO1 acts as a repressor via the epigenetic regulators TIF1B and UHRF1, maintaining methylation of cis-regulatory elements and gene promoters. Loss of DiPRO1 mimics the host defense response to virus, awakening retrotransposable repeats and the ZNF/KZFP gene family. This enables the eradication of cancer cells, reprogramming the cellular decision balance towards inflammation and/or apoptosis by controlling TNF-α via NF-kappaB signaling. Finally, our results highlight the vulnerability of mesenchymal cancer tumors to si/shDiPRO1-based nanomedicines, positioning DiPRO1 as a potential therapeutic target.
AB - We have recently identified the uncharacterized ZNF555 protein as a component of a productive complex involved in the morbid function of the 4qA locus in facioscapulohumeral dystrophy. Subsequently named DiPRO1 (Death, Differentiation, and PROliferation related PROtein 1), our study provides substantial evidence of its role in the differentiation and proliferation of human myoblasts. DiPRO1 operates through the regulatory binding regions of SIX1, a master regulator of myogenesis. Its relevance extends to mesenchymal tumors, such as rhabdomyosarcoma (RMS) and Ewing sarcoma, where DiPRO1 acts as a repressor via the epigenetic regulators TIF1B and UHRF1, maintaining methylation of cis-regulatory elements and gene promoters. Loss of DiPRO1 mimics the host defense response to virus, awakening retrotransposable repeats and the ZNF/KZFP gene family. This enables the eradication of cancer cells, reprogramming the cellular decision balance towards inflammation and/or apoptosis by controlling TNF-α via NF-kappaB signaling. Finally, our results highlight the vulnerability of mesenchymal cancer tumors to si/shDiPRO1-based nanomedicines, positioning DiPRO1 as a potential therapeutic target.
KW - DiPRO1
KW - Mesenchymal Cancer
KW - Methylation
KW - Muscle
KW - Retrotransposable Repeats
UR - http://www.scopus.com/inward/record.url?scp=85198668933&partnerID=8YFLogxK
U2 - 10.1038/s44321-024-00097-z
DO - 10.1038/s44321-024-00097-z
M3 - Article
AN - SCOPUS:85198668933
SN - 1757-4676
VL - 16
SP - 1840
EP - 1885
JO - EMBO Molecular Medicine
JF - EMBO Molecular Medicine
IS - 8
ER -