Abstract
The mitotic checkpoint protein CHFR has emerged as a major mediator of taxane resistance in cancer. Here we show that CHFR's PAR-binding zinc finger domain (PBZ) mediates a protein interaction with poly-ADP ribosylated PARP1 leading to stabilization of CHFR. Disruption of the CHFR-PARP1 interaction through either PARP1 shRNA-mediated knockdown or overexpression of a PBZ domain peptide induces loss of CHFR protein expression. In an attempt to exploit this observation therapeutically, and to develop compounds with synthetic lethality in combination with taxanes, we performed a high-throughput computational screen of 5,256,508 chemical structures against the published crystal structure of the CHFR PBZ domain to identify candidate small molecule CHFR protein-protein interaction inhibitors. The 10 compounds with the best docking scores (< -9.7) were used for further in vitro testing. One lead compound in particular, termed 'A3', completely disrupted the protein-protein interaction between CHFR and PARP1, resulting in the inhibition of mitotic checkpoint function, and led to therapeutic synergy with docetaxel in cell viability and colony formation assays. In mouse xenografts, i.p. administration of 'A3' led to a significant reduction in nuclear CHFR protein expression with a maximal effect 4 hours after administration, confirming relevant pharmacodynamics following the peak of 'A3' plasma concentration in vivo. Furthermore, combination of A3 and taxane led to significant reduction of implanted tumor size without increase in hematological, hepatic or renal toxicity. These findings provide a proof-of-principle that small molecule inhibition of CHFR PBZ domain interaction is a novel potential therapeutic approach to increase the efficacy of taxane-based chemotherapy in cancer.
Highlights
Microtubular-targeted chemotherapy agents such as taxanes are among the most widely prescribed first- and second- line chemotherapy choices for patients with the most common malignancies including lung, breast, and prostate cancer
These findings highlight the importance of an intact poly ADP ribosylated (PAR)-binding zinc finger domain (PBZ) domain for an intact checkpoint function and checkpoint with forkhead and ringfinger domainsâ (CHFR) mediated taxane resistance, since the CHFR-PBZ* construct did not affect taxane sensitivity compared to empty vector
We have shown in this study, that the interaction between CHFR and parylated PARP1 stabilizes CHFR protein levels
Summary
Microtubular-targeted chemotherapy agents such as taxanes are among the most widely prescribed first- and second- line chemotherapy choices for patients with the most common malignancies including lung-, breast-, and prostate cancer. The mitotic checkpoint gene âcheckpoint with forkhead and ringfinger domainsâ (CHFR) has recently emerged as a critical mediator of resistance against microtubular-targeted therapies in various different cancer types including gastric-[1], colon-[2, 3], endometrial-,[4, 5] and lung cancer [6]. We have previously reported that advanced lung cancer patients with CHFR deficient lung cancers have remarkably high clinical benefits rates following taxane-based first line chemotherapy (81% vs 48%, p = 0.03) and significantly improved overall-survival (HR = 0.24; 95% CI, 0.1â0.58%; P = 0.002) suggesting that in this setting, taxanes can be www.impactjournals.com/oncotarget considered targeted therapy against CHFR-low expressing tumors [6]. CHFR expression is reduced in tumors that are driven by EGFR mutations in exons 19 or 21, but EGFR mutations do not account for all cases of reduced CHFR expression [7]
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call