An approach is established for the specific immobilization of GPCRs from cell lysates that circumvents labor intensive purification procedures and minimize loss of activity.
Although a comparatively robust method, immobilized protein-based techniques have displayed limited precision and inconsistent results due to a lack of strategy for the accurate selection of drug adsorption models on the protein surface. We generated the adsorption data of three drugs on immobilized beta-2-adrenoceptor (β-AR) by frontal affinity chromatography-mass spectrometry (FAC-MS) and site-specific competitive FAC-MS. Using adsorption energy distribution (AED) calculations, we achieved the best adsorption models for the binding of salbutamol, terbutaline, and pseudoephedrine to immobilized β-AR. The Langmuir model proved to be desirable for describing the adsorptions of salbutamol and terbutaline on immobilized β-AR, while the bi-Langmuir model was favorable to characterize the adsorption of pseudoephedrine on the receptor. Relying on the accurate determination of association constants, we presented an efficient approach for β-AR ligand screening based on the loss of breakthrough time of an indicator drug caused by the inclusion of competitive drugs in the mobile phase. We concluded that the current strategy enables the reliable and accurate analysis of G protein-coupled receptor (GPCR)-drug interaction. The percentage change in the breakthrough time for drugs can provide useful information for estimating their binding affinity to the receptor. This approach builds a powerful platform for high-throughput ligand screening.
Protein immobilization is particularly significant in proteomics, interactomics, and in vitro drug screening. It is an essential primary step for numerous biological techniques that rely on immobilized proteins with controlled orientation, high conformational stability, and high activity (CHH). These have challenged the current immobilization strategy and demanded increasing efforts for an efficient method to meet the CHH immobilization in a single step. Herein, we proposed a covalent inhibitorbased, one-step method for G protein-coupled receptor (GPCR) immobilization inspired by the covalent reaction between an epidermal growth factor receptor (EGFR)-tag and its inhibitor ibrutinib. We immobilized endothelin receptor A (ETA) containing a fusion EGFR tag onto an ibrutinib-coated macroporous silica gel. The immobilized ETA proved to have demonstrable ligand-binding activity and specificity, thus resulting in a chromatographic technology allowing receptor−ligand interaction analysis and lead identification. Such immobilization method is attractable, owing to the properties of mild reacting conditions, fast rate, high yield, and good stability of the conjugated protein. It will be applicable to biochips, biosensors, and biocatalysts.
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