Literature DB >> 29233476

E2F/DP Prevents Cell-Cycle Progression in Endocycling Fat Body Cells by Suppressing dATM Expression.

Ana Guarner1, Robert Morris1, Michael Korenjak1, Myriam Boukhali1, Maria Paula Zappia2, Capucine Van Rechem1, Johnathan R Whetstine1, Sridhar Ramaswamy1, Lee Zou1, Maxim V Frolov2, Wilhelm Haas1, Nicholas J Dyson3.   

Abstract

To understand the consequences of the complete elimination of E2F regulation, we profiled the proteome of Drosophila dDP mutants that lack functional E2F/DP complexes. The results uncovered changes in the larval fat body, a differentiated tissue that grows via endocycles. We report an unexpected mechanism of E2F/DP action that promotes quiescence in this tissue. In the fat body, dE2F/dDP limits cell-cycle progression by suppressing DNA damage responses. Loss of dDP upregulates dATM, allowing cells to sense and repair DNA damage and increasing replication of loci that are normally under-replicated in wild-type tissues. Genetic experiments show that ectopic dATM is sufficient to promote DNA synthesis in wild-type fat body cells. Strikingly, reducing dATM levels in dDP-deficient fat bodies restores cell-cycle control, improves tissue morphology, and extends animal development. These results show that, in some cellular contexts, dE2F/dDP-dependent suppression of DNA damage signaling is key for cell-cycle control and needed for normal development.
Copyright © 2017 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  ATM; DNA damage; DNA replication; DP; E2F; endocycle; quiescence; tefu; under-replication

Mesh:

Substances:

Year:  2017        PMID: 29233476      PMCID: PMC5901703          DOI: 10.1016/j.devcel.2017.11.008

Source DB:  PubMed          Journal:  Dev Cell        ISSN: 1534-5807            Impact factor:   12.270


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