Human SNM1B/Apollo is involved in the cellular response to DNA-damage, however, its precise role is unknown. Recent reports have implicated hSNM1B in the protection of telomeres. We have found hSNM1B to interact with TRF2, a protein which functions in telomere protection and in an early response to ionizing radiation. Here we show that endogenous hSNM1B forms foci which colocalize at telomeres with TRF1 and TRF2. However, we observed that additional hSNM1B foci could be induced upon exposure to ionizing radiation (IR). In live-cell-imaging experiments, hSNM1B localized to photoinduced double-strand breaks (DSBs) within 10s post-induction. Further supporting a role for hSNM1B in the early stages of the cellular response to DSBs, we observed that autophosphorylation of ATM, as well as the phosphorylation of ATM target proteins in response to IR, was attenuated in cells depleted of hSNM1B. These observations suggest an important role for hSNM1B in the response to IR damage, a role that may be, in part, upstream of the central player in maintenance of genome integrity, ATM.
The hSNM1B/Apollo protein is involved in the cellular response to DNA-damage as well as in the maintenance of telomeres during S-phase. TRF2 has been shown to interact physically with hSNM1B. As a core component of shelterin, TRF2 functions in organization and protection of telomeres. However, TRF2 was also shown to have a role in the early DNA-damage response, suggesting that hSNM1B and TRF2 cooperate in this dual function.Here we have used Tandem-Affinity-Purification in combination with mass spectrometry to identify additional binding partners of hSNM1B. This revealed HSC70, HSP72, HSP60 and β-Tubulin to be hSNM1B-interactors. We have confirmed the interaction of hSNM1B and HSP70 in co-immunoprecipitation assays and found that hSNM1B binds to a C-terminal fragment of HSP72, known to contain the substrate binding domain. Depletion of HSP72 in human fibroblasts resulted in a significant reduction of nuclear hSNM1B foci. We also found the phosphorylation of CHK1 at serine 317 to be attenuated in response to UVC irradiation as a consequence of hSNM1B depletion, a result which extends our previous findings on the DNA-damage response function of hSNM1B.HSP70 chaperones have been implicated in the maintenance of genome stability and their expression is often aberrant in cancer. Our results presented here, suggest that the role in genome stability might not be specific to HSP70 but rather can be attributed, at least in part, to hSNM1B. This, together with its stimulating effect on ATM and ATR substrate phosphorylation in response to DNA-damage qualify hSNM1B as a putative target in cancer therapy.
BackgroundThe NBN gene codes for the protein nibrin, which is involved in the detection and repair of DNA double strand breaks (DSBs). The NBN gene is essential in mammals.Methodology/Principal FindingsWe have used a conditional null mutant mouse model in a proteomics approach to identify proteins with modified expression levels after 4 Gy ionizing irradiation in the absence of nibrin in vivo. Altogether, amongst ∼8,000 resolved proteins, 209 were differentially expressed in homozygous null mutant mice in comparison to control animals. One group of proteins significantly altered in null mutant mice were those involved in oxidative stress and cellular redox homeostasis (p<0.0001). In substantiation of this finding, analysis of Nbn null mutant fibroblasts indicated an increased production of reactive oxygen species following induction of DSBs.Conclusions/SignificanceIn humans, biallelic hypomorphic mutations in NBN lead to Nijmegen breakage syndrome (NBS), an autosomal recessive genetic disease characterised by extreme radiosensitivity coupled with growth retardation, immunoinsufficiency and a very high risk of malignancy. This particularly high cancer risk in NBS may be attributable to the compound effect of a DSB repair defect and oxidative stress.
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