PMID: 30150199Aug 29, 2018Paper

Report-Model studies of transmembrane interaction of FcεRIα/FcRγ reveal novel strategies to inhibit allergic responses

Pakistan Journal of Pharmaceutical Sciences
Asifa MajeedBirgit A Helm

Abstract

The high-affinity IgE receptor complex plays an essential part in allergic responses and involved in downstream signaling, released inflammatory mediators that cause allergic responses. The transmembrane region of the high-affinity IgE has a conserved motif (LFAVDTGL) where a polar aspartate (D194) is important for the ligand binding. This modeling study proposes novel potential binding sites between high affinity immunoglobulin E receptor α subunit (FcεRIα) and FcRγ and as a consequence, we propose a new model of FcεRIα and FcRγ interaction (T194) which can mediate downstream signaling in allergic response. The docking of FcRγ with wild-type (D194) and mutant human high affinity immunoglobulin E receptor α subunit (D194T, D194I, D194L, D194A, D194V, D194E, D194S and D194R) has been performed on Autodock Vina. This modeling study is based on lab data obtained by carrying out site-directed mutagenesis done at residue D194 of FcεRIα to assess its functional importance for the mediation of intracellular signal cascade. HuFcεRIα D194 residue was replaced with threonine, leucine, serine, arginine, alanine, asparagine and glutamic acid. FcRγ docking on mutated huFcεRIα (D194T) indicated a new site of interaction and emphasizes the si...Continue Reading

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