SIK2 inhibition enhances PARP inhibitor activity synergistically in ovarian and triple-negative breast cancers
Zhen Lu, … , Hariprasad Vankayalapati, Robert C. Bast Jr.
Zhen Lu, … , Hariprasad Vankayalapati, Robert C. Bast Jr.
Published June 1, 2022
Citation Information: J Clin Invest. 2022;132(11):e146471. https://doi.org/10.1172/JCI146471.
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Research Article Cell biology Therapeutics

SIK2 inhibition enhances PARP inhibitor activity synergistically in ovarian and triple-negative breast cancers

Abstract

Poly(ADP-ribose) polymerase inhibitors (PARP inhibitors) have had an increasing role in the treatment of ovarian and breast cancers. PARP inhibitors are selectively active in cells with homologous recombination DNA repair deficiency caused by mutations in BRCA1/2 and other DNA repair pathway genes. Cancers with homologous recombination DNA repair proficiency respond poorly to PARP inhibitors. Cancers that initially respond to PARP inhibitors eventually develop drug resistance. We have identified salt-inducible kinase 2 (SIK2) inhibitors, ARN3236 and ARN3261, which decreased DNA double-strand break (DSB) repair functions and produced synthetic lethality with multiple PARP inhibitors in both homologous recombination DNA repair deficiency and proficiency cancer cells. SIK2 is required for centrosome splitting and PI3K activation and regulates cancer cell proliferation, metastasis, and sensitivity to chemotherapy. Here, we showed that SIK2 inhibitors sensitized ovarian and triple-negative breast cancer (TNBC) cells and xenografts to PARP inhibitors. SIK2 inhibitors decreased PARP enzyme activity and phosphorylation of class-IIa histone deacetylases (HDAC4/5/7). Furthermore, SIK2 inhibitors abolished class-IIa HDAC4/5/7–associated transcriptional activity of myocyte enhancer factor-2D (MEF2D), decreasing MEF2D binding to regulatory regions with high chromatin accessibility in FANCD2, EXO1, and XRCC4 genes, resulting in repression of their functions in the DNA DSB repair pathway. The combination of PARP inhibitors and SIK2 inhibitors provides a therapeutic strategy to enhance PARP inhibitor sensitivity for ovarian cancer and TNBC.

Authors

Zhen Lu, Weiqun Mao, Hailing Yang, Janice M. Santiago-O’Farrill, Philip J. Rask, Jayanta Mondal, Hu Chen, Cristina Ivan, Xiuping Liu, Chang-Gong Liu, Yuanxin Xi, Kenta Masuda, Eli M. Carrami, Meng Chen, Yitao Tang, Lan Pang, David S. Lakomy, George A. Calin, Han Liang, Ahmed A. Ahmed, Hariprasad Vankayalapati, Robert C. Bast Jr.

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Figure 8

SIK2 inhibition alters MEF2D transcription factor–mediated downstream signaling.

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SIK2 inhibition alters MEF2D transcription factor–mediated downstream si...
(A) Alterations affecting MEF2 family genes in ovarian and breast cancer by TCGA analysis. Alterations of MEF2D are found in 12% of ovarian cancer samples (TCGA, 316 samples, ref. 22) and 26% of breast cancer samples (Metabric, 2509 samples, refs. 53, 54) respectively, and the large majority of alterations were amplifications and mRNA upregulations. Data and plots were obtained using cBioPortal (22, 54, 55). (B) MEF2D consensus DNA motifs. The MEF2 motif is enriched in MEF2D-binding sites in SKOv3 cells. (C) ChIP sequence of anti-MEF2D at the FANCD2 locus in SKOv3 cells treated with and without ARN3236. The dotted line indicates the comparison of chromatin accessibility of the FANCD2 gene between control and ARN3236 treatment. (D) ChIP and RT-qPCR analysis of FANCD2, EXO1, and XRCC4 genes. OVCAR8 and MDA-MB-231 cells were treated with and without ARN3236 (6 μM) or ARN3261 (4 μM) for 48–50 hours and then harvested for ChIP analysis with normal IgG, MEF2D, Pol-II, H3K27Ac, or H3KMe1 antibody. ChIP pulldown samples were analyzed by RT-qPCR. The columns indicate the mean of relative fold-changes (fold-change = 2-ΔΔCt, ChIP signal relative to the IgG background signal) and the bars indicate the SD. Two-way ANOVA and Dunnett’s multiple-comparison test were performed (*P < 0.05; **P < 0.01; *****P < 0.0001). Representative data are from 1 experiment with 3 replicates. Experiments were repeated twice with similar results.