Targeting EphA2 under DNA damage causes mitotic bypass via p21 induction
Ayuka Nakamura, Junna Tanaka, Ryuzaburo Yuki, Yuji Nakayama

TL;DR
This study shows that suppressing EphA2 after DNA damage causes cells to bypass mitosis and form tetraploid cells, reducing cancer cell proliferation.
Contribution
The novel finding is that EphA2 suppression leads to p21-dependent mitotic bypass and tetraploidization, offering a new therapeutic strategy.
Findings
EphA2 suppression after DNA damage causes mitotic bypass and tetraploidization.
p21 upregulation is crucial for EphA2 knockdown-induced mitotic bypass in cervical cancer cells.
Combining EphA2 inhibition with DNA-damaging agents may enhance anti-cancer effects.
Abstract
EphA2, a receptor tyrosine kinase, is overexpressed in various cancers. Its ligand-independent non-canonical signaling is pro-tumorigenic, and elevated EphA2 expression is associated with poor prognosis in patients. Although preclinical and clinical studies targeting EphA2 have been conducted as cancer therapeutics, its role in the DNA damage response remains elusive. This study examined the role of EphA2 in cell cycle progression in Adriamycin (ADR)-treated cells. ADR treatment transcriptionally upregulated EphA2 expression in a p53-independent manner. Suppression of EphA2 upregulation abrogated G2 arrest, as evidenced by reductions in both cyclin B1 accumulation and Wee1 inhibition-driven cell division. However, the 2N-G1 cell population remained low, with increased tetraploid cells. Time-lapse imaging revealed that tetraploid formation resulted from mitotic bypass rather than mitotic…
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Taxonomy
TopicsAxon Guidance and Neuronal Signaling · Hippo pathway signaling and YAP/TAZ · Developmental Biology and Gene Regulation
