Inhibition of the ATM/Chk2 axis promotes cGAS/STING signaling in ARID1A-deficient tumors
Lulu Wang, … , Xuetong Shen, Guang Peng
Lulu Wang, … , Xuetong Shen, Guang Peng
Published October 5, 2020
Citation Information: J Clin Invest. 2020;130(11):5951-5966. https://doi.org/10.1172/JCI130445.
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Research Article Cell biology Immunology

Inhibition of the ATM/Chk2 axis promotes cGAS/STING signaling in ARID1A-deficient tumors

Abstract

ARID1A, a component of the chromatin-remodeling complex SWI/SNF, is one of the most frequently mutated genes in human cancer. We sought to develop rational combination therapy to potentiate the efficacy of immune checkpoint blockade in ARID1A-deficient tumors. In a proteomic analysis of a data set from The Cancer Genomic Atlas, we found enhanced expression of Chk2, a DNA damage checkpoint kinase, in ARID1A-mutated/deficient tumors. Surprisingly, we found that ARID1A targets the nonchromatin substrate Chk2 for ubiquitination. Loss of ARID1A increased the Chk2 level through modulating autoubiquitination of the E3-ligase RNF8 and thereby reducing RNF8-mediated Chk2 degradation. Inhibition of the ATM/Chk2 DNA damage checkpoint axis led to replication stress and accumulation of cytosolic DNA, which subsequently activated the DNA sensor STING-mediated innate immune response in ARID1A-deficient tumors. As expected, tumors with mutation or low expression of both ARID1A and ATM/Chk2 exhibited increased tumor-infiltrating lymphocytes and were associated with longer patient survival. Notably, an ATM inhibitor selectively potentiated the efficacy of immune checkpoint blockade in ARID1A-depleted tumors but not in WT tumors. Together, these results suggest that ARID1A’s targeting of the nonchromatin substrate Chk2 for ubiquitination makes it possible to selectively modulate cancer cell–intrinsic innate immunity to enhance the antitumor activity of immune checkpoint blockade.

Authors

Lulu Wang, Lin Yang, Chen Wang, Wei Zhao, Zhenlin Ju, Wei Zhang, Jianfeng Shen, Yang Peng, Clemens An, Yen T. Luu, Shumei Song, Timothy A. Yap, Jaffer A. Ajani, Gordon B. Mills, Xuetong Shen, Guang Peng

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Figure 5

Inhibition of the ATM/Chk2 axis stimulates cytosolic DNA accumulation and promotes immune responsiveness in ARID1A-deficient tumors.

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Inhibition of the ATM/Chk2 axis stimulates cytosolic DNA accumulation an...
(A and B) Left, representative images of PicoGreen staining in control (sh-Luc) and Arid1a-depleted (sh-Arid1a#1 and #2) ID8 cells treated with DMSO, PV1019 (2 μM) (A), or KU-60019 (2 μM) (B) for 48 hours. DAPI (blue) was used to visualize the nuclei. Scale bar: 10 μm. Right, quantitative results represent the mean ± SD of 3 independent experiments. ***P < 0.001; ****P < 0.0001. (C and D) Left, Western blots of phosphorylated TBK1 (p-TBK1) and total TBK1 (TBK1) in ID8 cells treated with PV1019 (C) or KU-60019 (D) for 48 hours. Right, quantitative data represent the mean ± SD from 3 independent experiments. *P < 0.05; **P < 0.01, ***P < 0.001. (E) qPCR analysis of Ccl5 mRNA expression in ARID1A knockdown ID8 cells under DMSO, KU-60019, or PV1019 treatment. Data represent mean ± SD of 3 independent experiments. ****P < 0.0001. (F) ELISA quantification of mouse CCL5 level in ARID1A knockdown ID8 cells treated with DMSO or KU-60019. Data represent mean ± SD of 3 independent experiments. ****P < 0.0001. (G) Association of TILs with mutation and expression of ARID1A, ATM, and CHK2 in UCEC patient samples as analyzed by TIL signatures. The box plot represents median and quantiles of the data. UCEC mutation data set: n = 242, ARID1A/ATM WT/WT vs. Mut/Mut, P = 0.0271; UCEC expression data set: n = 567, ARID1A/ATM high/high vs. low/low, P = 0.000642; ARID1A/CHK2 high/high vs. low/low, P = 0.023. (H) Survival analysis for UCEC patients with ARID1A, ATM, and CHK2 mutation (Mut). Left, comutation of ARID1A and ATM. Right, comutation of ARID1A and CHK2. UCEC (n = 239): ARID1A/ATM Mut (n = 19) vs. ARID1A Mut (n = 63), P < 0.0001; ARID1A/CHK2 Mut (n = 9) vs. ARID1A Mut (n = 74), P = 0.5441. One-way ANOVA with Dunnett’s multiple comparisons test (AD); 1-way ANOVA with Holm-Šidák’s multiple comparisons test (E and F); 2-tailed unpaired Student’s t test (G and H).