Abstract
Background: Effective anticancer therapy can be achieved by identifying novel tumor-specific drug targets and screening of new drugs. Recently, TMEM16A has been identified to be overexpressed in lung adenocarcinoma, and inhibitors of TMEM16A showed obvious antitumor efficacy. Methods: YFP fluorescence quenching and whole-cell patch clamp experiments were used to explore the inhibitory effect of silibinin on TMEM16A. Molecular docking and site-directed mutagenesis were performed to confirm the binding sites of silibinin and TMEM16A. MTT assay, wound healing assay, and annexin-V assay were used to detect the effect of silibinin on cancer cell proliferation, migration, and apoptosis. shRNA was transfected into LA795 cells to knock down the expression of endogenous TMEM16A. Tumor xenograft mice combined with Western blot experiments reveal the inhibitory effect and mechanism of silibinin in vivo. Results: Silibinin concentration dependently inhibited the whole-cell current of TMEM16A with an IC50 of 30.90 ± 2.10 μM. The putative binding sites of silibinin in TMEM16A were K384, R515, and R535. The proliferation and migration of LA795 cells were downregulated by silibinin, and the inhibition effect can be abolished by knockdown of the endogenous TMEM16A. Further, silibinin was injected to tumor xenograft mice which exhibited significant antitumor activity without weight loss. Finally, Western blotting results showed the mechanism of silibinin inhibiting lung adenocarcinoma was through apoptosis and downregulation of cyclin D1. Conclusion: Silibinin is a novel TMEM16A inhibitor, and it can be used as a lead compound for the development of lung adenocarcinoma therapy drugs.
Highlights
Cancer is one of the most serious malignant diseases that threaten the survival of human beings in the world (Allemani et al, 2018)
The results showed that silibinin was a novel TMEM16A inhibitor
Real-time fluorescence images showed that the fluorescence intensity of the silibinin incubation group unchanged, while the fluorescence intensity of the control group almost completely quenched after 4 min of adding ATP (Figures 1C,D)
Summary
Cancer is one of the most serious malignant diseases that threaten the survival of human beings in the world (Allemani et al, 2018). Surgery is the only effective way to radical cure for lung cancer, but it still needs to be combined with adjuvant chemotherapy after surgery (Aokage et al, 2017). The lung cancer chemotherapy drugs generally have serious side effects (Islam et al, 2019). The emergence of targeted anticancer drugs improved the chemotherapy effect of tumors. The disadvantages of targeted anticancer drugs are that they are prone to drug resistance, and it needs to be continuously updated to extend the survival time of patients (Hirsch et al, 2017; Mayekar and Bivona, 2017). Researchers are constantly exploring new anticancer targets and new drugs. Effective anticancer therapy can be achieved by identifying novel tumorspecific drug targets and screening of new drugs. TMEM16A has been identified to be overexpressed in lung adenocarcinoma, and inhibitors of TMEM16A showed obvious antitumor efficacy
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