Abstract
The human β2-adrenergic receptor (β2AR), a member of the G-protein coupled receptor (GPCR) family, is expressed in bronchial smooth muscle cells. Upon activation by agonists, β2AR causes bronchodilation and relief in asthma patients. The N-terminal polymorphism of β2AR at the 16th position, Arg16Gly, has warranted a lot of attention since it is linked to variations in response to albuterol (agonist) treatment. Although the β2AR is one of the well-studied GPCRs, the N-terminus which harbors this mutation, is absent in all available experimental structures. The goal of this work was to study the molecular level differences between the N-terminal variants using structural modeling and atomistic molecular dynamics simulations. Our simulations reveal that the N-terminal region of the Arg variant shows greater dynamics than the Gly variant, leading to differential placement. Further, the position and dynamics of the N-terminal region, further, affects the ligand binding-site accessibility. Interestingly, long-range effects are also seen at the ligand binding site, which is marginally larger in the Gly as compared to the Arg variant resulting in the preferential docking of albuterol to the Gly variant. This study thus reveals key differences between the variants providing a molecular framework towards understanding the variable drug response in asthma patients.
Highlights
G protein-coupled receptors (GPCRs) constitute a family of membrane proteins that serve as important communication mediators in cellular signal transduction [1,2]
We used knowledge from class A GPCRs to build the N-terminal region of b2-adrenergic receptor (b2AR) variants in conjunction with the available structure of the inactive receptor
We observe that the N-terminal region of the Arg variant is more dynamic than the Gly variant
Summary
G protein-coupled receptors (GPCRs) constitute a family of membrane proteins that serve as important communication mediators in cellular signal transduction [1,2]. The human b2-adrenergic receptor (b2AR) is a member of the GPCR family that is abundantly distributed in smooth airway muscles of lung [6]. Endogenous catecholamine’s such as epinephrine and norepinephrine act as agonists and bind b2AR causing smooth muscle relaxation and aiding respiration [7]. Agonists of b2AR such as albuterol, terbutaline (examples of short acting drugs), salmeterol and formeterol (long acting drugs), which cause respiratory smooth muscle relaxation are widely used in the treatment of asthma [8]. Agonist binding to b2AR triggers the activation of adenylyl cyclase via the Gs protein which leads to relaxation of the airway smooth muscles and relief from bronchospasm [9]
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