P-glycoprotein(ABCB1)-weak dipolar interactions provide the key to understanding allocrite recognition,binding,and transport  

作　　者：Anna Seelig Xiaochun Li-Blatter 

机构地区：[1]Biozentrum,University of Basel,Basel 4056,Switzerland

出　　处：《Cancer Drug Resistance》2023年第1期1-29,共29页癌症耐药（英文）

基　　金：Stiftung zur Forderung der biologischen Forschung,Basel,Switzerland.

摘　　要：P-glycoprotein(ABCB1)is the first discovered mammalian member of the large family of ATP binding cassette(ABC)transporters.It facilitates the movement of compounds(called allocrites)across membranes,using the energy of ATP binding and hydrolysis.Here,we review the thermodynamics of allocrite binding and the kinetics of ATP hydrolysis by ABCB1.In combination with our previous molecular dynamics simulations,these data lead to a new model for allocrite transport by ABCB1.In contrast to previous models,we take into account that the transporter was evolutionarily optimized to operate within a membrane,which dictates the nature of interactions.Hydrophobic interactions drive lipid-water partitioning of allocrites,the transport process’s first step.Weak dipolar interactions(including hydrogen bonding,π-π stacking,and π-cation interactions)drive allocrite recognition,binding,and transport by ABCB1 within the membrane.Increasing the lateral membrane packing density reduces allocrite partitioning but enhances dipolar interactions between allocrites and ABCB1.Allocrite flopping(or reorientation of the polar part towards the extracellular aqueous phase)occurs after hydrolysis of one ATP molecule and opening of ABCB1 at the extracellular side.Rebinding of ATP re-closes the transporter at the extracellular side and expels the potentially remaining allocrite into the membrane.The high sensitivity of the steady-state ATP hydrolysis rate to the nature and number of dipolar interactions,as well as to the dielectric constant of the membrane,points to a flopping process,which occurs to a large extent at the membrane-transporter interface.The proposed unidirectional ABCB1 transport cycle,driven by weak dipolar interactions,is consistent with membrane biophysics.

关 键 词：Catalytic cycle hydrogen bond π-electron donor polyspecificity AMPHIPHILICITY STOICHIOMETRY 

分 类 号：R96[医药卫生—药理学]