Histone H2AX Is Involved in FoxO3a-Mediated Transcriptional Responses to Ionizing Radiation to Maintain Genome Stability
Histone H2AX plays a crucial role in molecular and cellular responses to DNA damage and in the maintenance of genome stability. It is downstream of ataxia telangiectasia mutated (ATM) damage signaling pathway and there is an emerging role of the transcription factor FoxO3a, a regulator of a variety...
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MDPI AG
2015-12-01
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| Series: | International Journal of Molecular Sciences |
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| Online Access: | http://www.mdpi.com/1422-0067/16/12/26216 |
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doaj-213cb3f287d7403da5d4e55ade7934e22020-11-24T21:08:03ZengMDPI AGInternational Journal of Molecular Sciences1422-00672015-12-011612299963001410.3390/ijms161226216ijms161226216Histone H2AX Is Involved in FoxO3a-Mediated Transcriptional Responses to Ionizing Radiation to Maintain Genome StabilityStephane Tarrade0Tanya Bhardwaj1Matthew Flegal2Lindsey Bertrand3Ilya Velegzhaninov4Alexey Moskalev5Dmitry Klokov6Canadian Nuclear Laboratories, Stn 51, Chalk River, ON K0J 1P0, CanadaCanadian Nuclear Laboratories, Stn 51, Chalk River, ON K0J 1P0, CanadaCanadian Nuclear Laboratories, Stn 51, Chalk River, ON K0J 1P0, CanadaCanadian Nuclear Laboratories, Stn 51, Chalk River, ON K0J 1P0, CanadaInstitute of Biology, Komi Science Center of RAS, 28b Kommunisticheskaya St, Syktyvkar 167982, RussiaInstitute of Biology, Komi Science Center of RAS, 28b Kommunisticheskaya St, Syktyvkar 167982, RussiaCanadian Nuclear Laboratories, Stn 51, Chalk River, ON K0J 1P0, CanadaHistone H2AX plays a crucial role in molecular and cellular responses to DNA damage and in the maintenance of genome stability. It is downstream of ataxia telangiectasia mutated (ATM) damage signaling pathway and there is an emerging role of the transcription factor FoxO3a, a regulator of a variety of other pathways, in activating this signaling. We asked whether H2AX may feedback to FoxO3a to affect respective FoxO3a-dependent pathways. We used a genetically matched pair of mouse embryonic fibroblast H2AX+/+ and H2AX−/− cell lines to carry out comprehensive time-course and dose-response experiments and to show that the expression of several FoxO3a-regulated genes was altered in H2AX−/− compared to H2AX+/+ cells at both basal and irradiated conditions. Hspa1b and Gadd45a were down-regulated four- to five-fold and Ddit3, Cdkn1a and Sod2 were up-regulated 2–3-fold in H2AX−/− cells. Using the luciferase reporter assay, we directly demonstrated that transcriptional activity of FoxoO3a was reduced in H2AX−/− cells. FoxO3a localization within the nuclear phospho-ATM (Ser1981) foci in irradiated cells was affected by the H2AX status, as well as its posttranslational modification (phospho-Thr32). These differences were associated with genomic instability and radiosensitivity in H2AX−/− cells. Finally, knockdown of H2AX in H2AX+/+ cells resulted in FoxO3a-dependent gene expression patterns and increased radiosensitivity that partially mimicked those found in H2AX−/− cells. Taken together, our data suggest a role for FoxO3a in the maintenance of genome integrity in response to DNA damage that is mediated by H2AX via yet unknown mechanisms.http://www.mdpi.com/1422-0067/16/12/26216H2AXFoxO3aionizing radiationstress responseDNA damage signalinggenome stability |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Stephane Tarrade Tanya Bhardwaj Matthew Flegal Lindsey Bertrand Ilya Velegzhaninov Alexey Moskalev Dmitry Klokov |
| spellingShingle |
Stephane Tarrade Tanya Bhardwaj Matthew Flegal Lindsey Bertrand Ilya Velegzhaninov Alexey Moskalev Dmitry Klokov Histone H2AX Is Involved in FoxO3a-Mediated Transcriptional Responses to Ionizing Radiation to Maintain Genome Stability International Journal of Molecular Sciences H2AX FoxO3a ionizing radiation stress response DNA damage signaling genome stability |
| author_facet |
Stephane Tarrade Tanya Bhardwaj Matthew Flegal Lindsey Bertrand Ilya Velegzhaninov Alexey Moskalev Dmitry Klokov |
| author_sort |
Stephane Tarrade |
| title |
Histone H2AX Is Involved in FoxO3a-Mediated Transcriptional Responses to Ionizing Radiation to Maintain Genome Stability |
| title_short |
Histone H2AX Is Involved in FoxO3a-Mediated Transcriptional Responses to Ionizing Radiation to Maintain Genome Stability |
| title_full |
Histone H2AX Is Involved in FoxO3a-Mediated Transcriptional Responses to Ionizing Radiation to Maintain Genome Stability |
| title_fullStr |
Histone H2AX Is Involved in FoxO3a-Mediated Transcriptional Responses to Ionizing Radiation to Maintain Genome Stability |
| title_full_unstemmed |
Histone H2AX Is Involved in FoxO3a-Mediated Transcriptional Responses to Ionizing Radiation to Maintain Genome Stability |
| title_sort |
histone h2ax is involved in foxo3a-mediated transcriptional responses to ionizing radiation to maintain genome stability |
| publisher |
MDPI AG |
| series |
International Journal of Molecular Sciences |
| issn |
1422-0067 |
| publishDate |
2015-12-01 |
| description |
Histone H2AX plays a crucial role in molecular and cellular responses to DNA damage and in the maintenance of genome stability. It is downstream of ataxia telangiectasia mutated (ATM) damage signaling pathway and there is an emerging role of the transcription factor FoxO3a, a regulator of a variety of other pathways, in activating this signaling. We asked whether H2AX may feedback to FoxO3a to affect respective FoxO3a-dependent pathways. We used a genetically matched pair of mouse embryonic fibroblast H2AX+/+ and H2AX−/− cell lines to carry out comprehensive time-course and dose-response experiments and to show that the expression of several FoxO3a-regulated genes was altered in H2AX−/− compared to H2AX+/+ cells at both basal and irradiated conditions. Hspa1b and Gadd45a were down-regulated four- to five-fold and Ddit3, Cdkn1a and Sod2 were up-regulated 2–3-fold in H2AX−/− cells. Using the luciferase reporter assay, we directly demonstrated that transcriptional activity of FoxoO3a was reduced in H2AX−/− cells. FoxO3a localization within the nuclear phospho-ATM (Ser1981) foci in irradiated cells was affected by the H2AX status, as well as its posttranslational modification (phospho-Thr32). These differences were associated with genomic instability and radiosensitivity in H2AX−/− cells. Finally, knockdown of H2AX in H2AX+/+ cells resulted in FoxO3a-dependent gene expression patterns and increased radiosensitivity that partially mimicked those found in H2AX−/− cells. Taken together, our data suggest a role for FoxO3a in the maintenance of genome integrity in response to DNA damage that is mediated by H2AX via yet unknown mechanisms. |
| topic |
H2AX FoxO3a ionizing radiation stress response DNA damage signaling genome stability |
| url |
http://www.mdpi.com/1422-0067/16/12/26216 |
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