Abstract
53BP1 contributes to activation of the G2/M checkpoint downstream of ATM and MDC1 in response to ionizing radiation and promotes nonhomologous end-joining (NHEJ) in mammalian cells. In order to determine whether the cellular activities of 53BP1 are conserved in the model organism C. elegans, we analyzed the function of its homolog, HSR-9 in response to DNA damage. Deletion or Mos1-insertion in hsr-9 did not affect the sensitivity of worms to double strand DNA breaks (DSBs), as reflected in embryonic survival and larval development. Nevertheless, the hsr-9 mutations, as well as a lig-4 deletion, reversed the hypersensitivity of rad-54-deficient worms to DSBs. In addition, oocyte chromosomal aberrations, which were increased by rad-54 knockdown in response to DSBs, were also reduced by the hsr-9 mutations. The hsr-9 mutations did not prevent the cell cycle arrest induced by DSBs in mitotically proliferating germ cells. However, they attenuated apoptosis induced by DSBs, but not when CEP-1 (a p53 ortholog) was absent, suggesting that HSR-9 functions in the same pathway as CEP-1. We concluded that the 53BP1 homolog in C. elegans is not directly involved in cell cycle arrest in response to DSBs, but that it promotes apoptosis and also a form of NHEJ that occurs only when rad-54 is deficient.
Highlights
53BP1 (p53 binding protein 1) was discovered as a p53-binding protein and its primary role was initially thought to be stabilizing p53 in response to ionizing radiation [1,2]
The nuclear level of HSR-9 protein increased after UV treatment and DNA replication inhibition using hydroxyurea (Figure S1 in File S1), which suggests a role in response to various types of DNA damage
We found that C. elegans mutants of the 53BP1 homolog, HSR-9, were not hypersensitive to DSBs as measured by embryonic survival and larval growth after c-ray treatment (Figures 1 and 2)
Summary
More important roles in cell cycle checkpoints and DNA repair were identified later. When double-strand DNA breaks (DSBs) are formed, ATM is activated with the help of the Mre11/Rad50/ NBS1 (MRN) complex and phosphorylates histone H2AX, MDC1, and 53BP1 [3,4]. In addition to its role in cell cycle arrest, 53BP1 promotes nonhomologous end-joining (NHEJ) and suppresses homologous recombination (HR) [7]. The upstream checkpoint protein, MDC1, mediates homologous recombination [7]. It has been suggested that this rescue occurs because 53BP1 inhibits DNA-end resection by CtIP in Brca1-deficient cells, suppressing homologous recombination and permitting NHEJ.
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