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Inhibitory Effects of 2-Aminoethoxydiphenyl Borate (2-APB) on Three K V 1 Channel Currents.

Wei ZhaoLanying PanAntony StalinJianwei XuLiren WuXianfu KeYuan Chen
Published in: Molecules (Basel, Switzerland) (2023)
2-Aminoethoxydiphenyl borate (2-APB), a boron-containing compound, is a multitarget compound with potential as a drug precursor and exerts various effects in systems of the human body. Ion channels are among the reported targets of 2-APB. The effects of 2-APB on voltage-gated potassium channels (K V ) have been reported, but the types of K V channels that 2-APB inhibits and the inhibitory mechanism remain unknown. In this paper, we discovered that 2-APB acted as an inhibitor of three representative human K V 1 channels. 2-APB significantly blocked A-type Kv channel K V 1.4 in a concentration-dependent manner, with an IC 50 of 67.3 μM, while it inhibited the delayed outward rectifier channels K V 1.2 and K V 1.3, with IC 50 s of 310.4 μM and 454.9 μM, respectively. Further studies on K V 1.4 showed that V549, T551, A553, and L554 at the cavity region and N-terminal played significant roles in 2-APB's effects on the K V 1.4 channel. The results also indicated the importance of fast inactivation gating in determining the different effects of 2-APB on three channels. Interestingly, a current facilitation phenomenon by a short prepulse after 2-APB application was discovered for the first time. The docked modeling revealed that 2-APB could form hydrogen bonds with different sites in the cavity region of three channels, and the inhibition constants showed a similar trend to the experimental results. These findings revealed new molecular targets of 2-APB and demonstrated that 2-APB's effects on K V 1 channels might be part of the reason for the diverse bioactivities of 2-APB in the human body and in animal models of human disease.
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