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Author Notes:

Correspondence: Harold I Saavedra: hsaaved@emory.edu

Authors' Contributions: KRH: Performed the radiation and flow cytometry experiments to detect DNA proliferation, apoptosis and DNA breaks; Performed caspase immunoflourecent staining assays; Was involved in finalizing the writing of the manuscript.

XZ: Performed western blots and caspase, BrdU, Ki67 and γ-H2AX preliminary and supplementary experiments in the manuscript; Participated in early drafts of the manuscripts.

MYL: Performed Western blots for cleaved PARP and LC3A/3B in the presence of shCDK4 and the CDK4/CDK6 inhibitor, immunocytochemistry for phospho-histone 3 Contributed and modified figures and was involved in manuscript editing.

STK: Performed the analysis showing that breast cancer cell lines are resistant to radiation; Showed that silencing CDK4 radiosensitized breast cancer cells.

MKHP: Developed cell lines stably silenced for CDK4 and performed Western blots showing downregulation of CDK4; Edited the manuscript.

See publication for full list of author contributions.

Acknowledgments: We would like to thank Dr. Rita Nahta for various Her2+ breast cancer cell lines, and Dr. Jing Chen for 293T cells and helper plasmids.

We thank Dr. Sungjin Kim from the Biostatistics and Bioinformatics Shared Resource at Winship Cancer Institute for statistical analysis.

Disclosures: The authors declare they have no competing interests.

Subjects:

• Health Sciences, Oncology
• Biology, Biostatistics
• Biology, Bioinformatics

Research Funding:

This research project was supported by R01 CA151521 from the National Institutes of Health, the Georgia Cancer Coalition, The Sindab Triple Negative Breast Cancer Foundation, and by the Emory University Integrated Cellular Imaging Microscopy Core of the Winship Cancer Institute comprehensive cancer center grant, P30CA138292.

Keywords:

• CDK4
• CDK2
• Radiation
• Bad
• Radioresistance
• Radiosensitization
• Breast cancer
• Apoptosis