Dynamin impacts homology-directed repair and breast cancer response to chemotherapy
Sophia B. Chernikova, … , Balázs Győrffy, J. Martin Brown
Sophia B. Chernikova, … , Balázs Győrffy, J. Martin Brown
Published October 29, 2018
Citation Information: J Clin Invest. 2018;128(12):5307-5321. https://doi.org/10.1172/JCI87191.
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Research Article Oncology

Dynamin impacts homology-directed repair and breast cancer response to chemotherapy

Abstract

After the initial responsiveness of triple-negative breast cancers (TNBCs) to chemotherapy, they often recur as chemotherapy-resistant tumors, and this has been associated with upregulated homology-directed repair (HDR). Thus, inhibitors of HDR could be a useful adjunct to chemotherapy treatment of these cancers. We performed a high-throughput chemical screen for inhibitors of HDR from which we obtained a number of hits that disrupted microtubule dynamics. We postulated that high levels of the target molecules of our screen in tumors would correlate with poor chemotherapy response. We found that inhibition or knockdown of dynamin 2 (DNM2), known for its role in endocytic cell trafficking and microtubule dynamics, impaired HDR and improved response to chemotherapy of cells and of tumors in mice. In a retrospective analysis, levels of DNM2 at the time of treatment strongly predicted chemotherapy outcome for estrogen receptor–negative and especially for TNBC patients. We propose that DNM2-associated DNA repair enzyme trafficking is important for HDR efficiency and is a powerful predictor of sensitivity to breast cancer chemotherapy and an important target for therapy.

Authors

Sophia B. Chernikova, Rochelle B. Nguyen, Jessica T. Truong, Stephano S. Mello, Jason H. Stafford, Michael P. Hay, Andrew Olson, David E. Solow-Cordero, Douglas J. Wood, Solomon Henry, Rie von Eyben, Lei Deng, Melanie Hayden Gephart, Asaithamby Aroumougame, Claudia Wiese, John C. Game, Balázs Győrffy, J. Martin Brown

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Figure 6

Upregulation of HDR by direct stimulation of RAD51 activity or overexpression of RAD51 overcomes dynasore-induced sensitization to chlorambucil.

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Upregulation of HDR by direct stimulation of RAD51 activity or overexpre...
(A) Stimulation of RAD51 activity by RS-1 overcomes dynasore-induced inhibition of gene conversion in U2OS-DR-GFP cells. Shown are means and SDs from n ≥ 2 experiments. Ranges are shown for points with 2 replicates. (B) CHO AA8 cells are effectively sensitized to chlorambucil by dynasore, and RS-1 (7.5 μM) reverses this dynasore effect. MTS assay: Shown are means ± SDs from n ≥ 2 experiments. Ranges are shown for points with 2 replicates. (C) U2OS cells overexpressing the RAD51-HA construct show increased resistance to chlorambucil. While U2OS cells are effectively sensitized to chlorambucil by dynasore, the effect of dynasore is lost or reduced in cells overexpressing RAD51. MTS assay: Shown are means and SDs from n ≥ 3 experiments. See Supplemental Figure 8A for Western blots showing the overexpression of RAD51 and for the significance analysis. (AC) Significance analysis: ANOVA. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.