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Mitigation of hematologic radiation toxicity in mice through pharmacological quiescence induced by CDK4/6 inhibition
Søren M. Johnson, Chad D. Torrice, Jessica F. Bell, Kimberly B. Monahan, Qi Jiang, Yong Wang, Matthew R. Ramsey, Jian Jin, Kwok-Kin Wong, Lishan Su, Daohong Zhou, Norman E. Sharpless
Søren M. Johnson, Chad D. Torrice, Jessica F. Bell, Kimberly B. Monahan, Qi Jiang, Yong Wang, Matthew R. Ramsey, Jian Jin, Kwok-Kin Wong, Lishan Su, Daohong Zhou, Norman E. Sharpless
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Research Article

Mitigation of hematologic radiation toxicity in mice through pharmacological quiescence induced by CDK4/6 inhibition

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Abstract

Total body irradiation (TBI) can induce lethal myelosuppression, due to the sensitivity of proliferating hematopoietic stem/progenitor cells (HSPCs) to ionizing radiation (IR). No effective therapy exists to mitigate the hematologic toxicities of TBI. Here, using selective and structurally distinct small molecule inhibitors of cyclin-dependent kinase 4 (CDK4) and CDK6, we have demonstrated that selective cellular quiescence increases radioresistance of human cell lines in vitro and mice in vivo. Cell lines dependent on CDK4/6 were resistant to IR and other DNA-damaging agents when treated with CDK4/6 inhibitors. In contrast, CDK4/6 inhibitors did not protect cell lines that proliferated independently of CDK4/6 activity. Treatment of wild-type mice with CDK4/6 inhibitors induced reversible pharmacological quiescence (PQ) of early HSPCs but not most other cycling cells in the bone marrow or other tissues. Selective PQ of HSPCs decreased the hematopoietic toxicity of TBI, even when the CDK4/6 inhibitor was administered several hours after TBI. Moreover, PQ at the time of administration of therapeutic IR to mice harboring autochthonous cancers reduced treatment toxicity without compromising the therapeutic tumor response. These results demonstrate an effective method to mitigate the hematopoietic toxicity of IR in mammals, which may be potentially useful after radiological disaster or as an adjuvant to anticancer therapy.

Authors

Søren M. Johnson, Chad D. Torrice, Jessica F. Bell, Kimberly B. Monahan, Qi Jiang, Yong Wang, Matthew R. Ramsey, Jian Jin, Kwok-Kin Wong, Lishan Su, Daohong Zhou, Norman E. Sharpless

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Figure 3

CDK4/6 inhibition decreases HSPC proliferation.

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CDK4/6 inhibition decreases HSPC proliferation.
(A) Flow cytometry gatin...
(A) Flow cytometry gating scheme for HSCs and MPPs (top) and myeloid progenitors (bottom) using cell surface antigens. Gray regions represent cell populations used for further analysis as indicated. FSc, forward scatter. (B) Representative contour plots of proliferation in indicated HSPC populations, as measured by BrdU incorporation and Ki67 expression, after 48 hours of no treatment (n = 6) or PD0332991 treatment (n = 6) in the presence of BrdU for 24 hours. Contours represent 5% density. (C) Quantification of BrdU and Ki67 data in all HSPC subpopulations. (D) Relative frequency of Lin–, HSC, MPP, or Lin–cKit+ Sca1– populations after 48 hours of PD0332991 treatment and 24 hours of BrdU exposure. *P < 0.05, **P < 0.01, ***P < 0.001.

Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)

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