%0 Journal Article
%T Construction of Cell Membrane Chromatography Screening Materials Based on Avi-Tag Fused G Protein-Coupled Receptors.
%A Lv Y
%A Wang Y
%A Guo N
%A Bai H
%A Jiang Y
%A Huang Y
%A Du H
%A Han S
%A He L
%J Anal Chem
%V 96
%N 31
%D 2024 08 6
%M 39041225
%F 8.008
%R 10.1021/acs.analchem.4c03451
%X Mas-related G protein-coupled receptor X2 (MrgprX2) plays a crucial role in anaphylactoid reactions and allergic diseases. Some antagonists with reasonable potency and selectivity have been reported. Cell membrane chromatography (CMC) is effective for discovering ligands. Protein-tag-based CMC models (e.g., SNAP tags and HALO tags) have enhanced performance but also increased nonspecific adsorption of small molecules. The Avi tag, a short peptide sequence, binds biotin specifically via BirA catalysis. Our study showed that 2-iminobiotin (IB) can be a BirA substrate, enabling the development of a new cell membrane stationary phase (CMSP) based on the chemical properties (modifying carboxyl silica gel and specifically labeling the Avi tag) of IB. First, we constructed the MrgprX2-Avi-tag HEK293T cell line. Next, we synthesized IB-modified silica gel (SiO2-IB) stepwise. Finally, we immobilized Avi-tagged MrgprX2 cell membranes on SiO2-IB under BirA catalysis. We characterized the developed CMSP and used it to establish a MrgprX2-Avi-tag/CMC-HPLC/MS two-dimensional screening platform, successfully screening vitexicarpin fromViticis Fructus extract via a 2D/CMC platform. In vitro and in vivo experiments confirmed that vitexicarpin targets the MrgprX2 receptor, demonstrating antiallergic effects. Our IB-Avi tag-based CMC approach effectively decreased nonspecific adsorption of the screening materials. The Avi-tag-based 2D/CMC platform is suitable for screening potential drug candidates.