@article{10.37349/eaa.2026.1009118,
abstract = {The composition and biophysical characteristics of the plasma membrane are pivotal in regulating mast cell immune functions by influencing receptor distribution, activation, and intracellular signaling pathways. This article highlights the impact of plasma membrane components, such as cholesterol and lipid rafts, on the function of the Mas-related G protein-coupled receptor X2 (MRGPRX2), a key mediator of IgE-independent mast cell activation and pseudoallergic reactions. We discuss how variations in membrane fluidity, lipid composition, and microdomain organization influence MRGPRX2 conformational dynamics, ligand accessibility, and downstream signaling efficiency. These membrane-driven effects may help explain the heterogeneity of mast cell responsiveness across tissues and disease states. Integrating insights from structural biology, biophysics, and clinical immunology emphasizes that plasma membrane composition and dynamics regulate MRGPRX2-mediated signaling, positioning the membrane environment as a promising therapeutic target for modulating mast-cell hyperreactivity. By outlining this conceptual framework, we introduce a unifying hypothesis that membrane-driven regulation is a critical, yet underrecognized, determinant of MRGPRX2 responsiveness in different tissues and disease states.},
author = {Lerner, Liron and Babina, Magda and Zuberbier, Torsten and Stevanovic, Katarina},
doi = {10.37349/eaa.2026.1009118},
journal = {Exploration of Asthma & Allergy},
elocation-id = {1009118},
title = {The membrane matters: Plasma membrane composition shapes MRGPRX2-driven immune responses},
url = {https://www.explorationpub.com/Journals/eaa/Article/1009118},
volume = {4},
year = {2026}
}