TMEM16A is a calcium-activated chloride channel that is associate with several diseases, including pulmonary diseases, hypertension, diarrhea and cancer. The CaCCinh-A01 (A01) is widely recognized as an efficient blocker of TMEM16A and has been used as a tool drug to inhibit TMEM16A currents in the laboratory. A01 also has excellent pharmacokinetic properties and can be developed as a drug to target TMEM16A. However, the molecular mechanism how A01 inhibits TMEM16A is still elusive, which slows down its drug development process. Here, calculations identified that the binding pocket of A01 was located above the pore, and it was also discovered that the binding of A01 to TMEM16A not only blocked the pore but also led to its collapse. The interaction model analysis predicted that R515/K603/E623 were crucial residues for the binding between TMEM16A and A01, and the site-directed mutagenesis studies confirmed the above results. The binding mode and quantum chemical calculations showed that the carboxyl and the amide oxygen atom of A01 were the key interaction sites between TMEM16A and A01. Therefore, our study proposed the inhibitory mechanism of TMEM16A current by A01 and revealed how A01 inhibits TMEM16A at the molecular level. These findings will shed light on both the development of A01 as a potential drug for TMEM16A dysfunction-related disorders and drug screening targeting the pocket.
Keywords: CaCC(inh)-A01; CaCCs; Inhibitor; Ion channel; TMEM16A.
Copyright © 2020 Elsevier Inc. All rights reserved.