FB2026_02 , released June 18, 2026
Reference Report
Open Close
Reference
Citation
Pérez-Aguilera, M., Ruiz-Losada, M., Gil Cortes, P., Benchaib, M., Rubio, C., Baena-López, L.A., Baonza, A., Estella, C. (2026). Transcription-dependent and -independent functions of Drosophila p53 isoforms in the induction of apoptosis and senescence-associated tumorigenesis.  Cell Death Dis. 17(1): 367.
FlyBase ID
FBrf0265037
Publication Type
Research paper
Abstract
The tumor suppressor p53 orchestrates critical cellular responses to stress, including cell cycle arrest, DNA repair, senescence, and apoptosis. While extensive research has elucidated many aspects of p53 function, the isoform-specific mechanisms governing cell fate decisions remain incompletely understood. Here, we leverage the simplified p53 gene architecture in Drosophila to systematically dissect the apoptotic and tumorigenic potential of individual p53 isoforms, uncovering fundamental differences in their function. Our findings indicate that whereas p53-A and p53-E pro-apoptotic activity strictly depends on the proliferative state of the cell, the full-length p53-B isoform -structurally analogous to vertebrate p53- induces apoptosis independently of cell cycle status. Furthermore, p53-B triggers apoptosis via transcription-independent mechanisms involving direct activation of the initiator caspase Dronc. We also show that all isoforms promote tumorigenesis by inducing the JNK pathway and the formation of senescent cells through distinct mechanisms in cells that are unable to complete the apoptosis program. Importantly, some of these findings are largely recapitulated by human versions of p53 when ectopically expressed in Drosophila cells. Together our data, reveal that p53 isoforms govern apoptosis and senescence-associated tumorigenesis through distinct molecular mechanisms, providing new insights into the complexity of p53-mediated cell fate determination.
PubMed ID
PubMed Central ID
PMC13039399 (PMC) (EuropePMC)
Associated Information
Comments
Associated Files
Other Information
Secondary IDs
    Language of Publication
    English
    Additional Languages of Abstract
    Parent Publication
    Publication Type
    Journal
    Abbreviation
    Cell Death Dis.
    Title
    Cell death & disease
    ISBN/ISSN
    2041-4889
    Data From Reference
    Genes (13)
    Human Disease Models (1)