Somatic mutation of the cohesin complex subunit confers therapeutic vulnerabilities in cancer
Yunhua Liu, … , Guang Ji, Xiongbin Lu
Yunhua Liu, … , Guang Ji, Xiongbin Lu
Published April 12, 2018
Citation Information: J Clin Invest. 2018;128(7):2951-2965. https://doi.org/10.1172/JCI98727.
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Somatic mutation of the cohesin complex subunit confers therapeutic vulnerabilities in cancer

Abstract

A synthetic lethality–based strategy has been developed to identify therapeutic targets in cancer harboring tumor-suppressor gene mutations, as exemplified by the effectiveness of poly ADP-ribose polymerase (PARP) inhibitors in BRCA1/2-mutated tumors. However, many synthetic lethal interactors are less reliable due to the fact that such genes usually do not perform fundamental or indispensable functions in the cell. Here, we developed an approach to identifying the “essential lethality” arising from these mutated/deleted essential genes, which are largely tolerated in cancer cells due to genetic redundancy. We uncovered the cohesion subunit SA1 as a putative synthetic-essential target in cancers carrying inactivating mutations of its paralog, SA2. In SA2-deficient Ewing sarcoma and bladder cancer, further depletion of SA1 profoundly and specifically suppressed cancer cell proliferation, survival, and tumorigenic potential. Mechanistically, inhibition of SA1 in the SA2-mutated cells led to premature chromatid separation, dramatic extension of mitotic duration, and consequently, lethal failure of cell division. More importantly, depletion of SA1 rendered those SA2-mutated cells more susceptible to DNA damage, especially double-strand breaks (DSBs), due to reduced functionality of DNA repair. Furthermore, inhibition of SA1 sensitized the SA2-deficient cancer cells to PARP inhibitors in vitro and in vivo, providing a potential therapeutic strategy for patients with SA2-deficient tumors.

Authors

Yunhua Liu, Hanchen Xu, Kevin Van der Jeught, Yujing Li, Sheng Liu, Lu Zhang, Yuanzhang Fang, Xinna Zhang, Milan Radovich, Bryan P. Schneider, Xiaoming He, Cheng Huang, Chi Zhang, Jun Wan, Guang Ji, Xiongbin Lu

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Figure 4

Depletion of SA1 in SA2-mutated cells leads to lethal mitotic retardation and failure.

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Depletion of SA1 in SA2-mutated cells leads to lethal mitotic retardatio...
(A and B) Quantification of cohesion defects (A) and representative metaphase images (B) in EWS and BUC cells expressing Dox-inducible control shNT or SA1-specific shSA1. (C) Cell-cycle analysis of the SA1-depleted TC71 and TC32 cells by costaining with DAPI and phospho–histone H3. (D) Duration of mitosis in parental and isogenic SA2-mutated TC71 cells expressing Dox-induced control shNT or SA1-specific shSA1. Cells were synchronized with double-thymidine block and measured by differential interference contrast (DIC) microscopy time-lapse imaging for 48 hours after release. (E and F) Under each condition as described above, 50 cells were analyzed. Quantification of mitotic fates is shown in E. KD efficiency of shSA1 in TC71 cells is shown in F. (G and H) Negative enrichment of cell-cycle (G) and chromosome segregation (H) gene sets following SA1 KD in the SA2-mutated TC32 cells as determined by GO enrichment analysis. *P < 0.05; **P < 0.01, Fisher’s exact test (A and E) and unpaired 2-tailed t test (C and D). Data are presented as mean ± SD and are representative of 3 independent experiments (AF).