Department of Pathology, School of Dental Medicine, University of Pennsylvania, Philadelphia, PA 19104.
Department of Pathology, School of Dental Medicine, University of Pennsylvania, Philadelphia, PA 19104
J Immunol. 2018 Jul 15;201(2):343-349. doi: 10.4049/jimmunol.1701793. Epub 2018 May 23.
Human mast cells (MCs) express a novel G protein-coupled receptor (GPCR) known as Mas-related GPCR X2 (MRGPRX2). Activation of this receptor by a diverse group of cationic ligands such as neuropeptides, host defense peptides, and Food and Drug Administration-approved drugs contributes to chronic inflammatory diseases and pseudoallergic drug reactions. For most GPCRs, the extracellular (ECL) domains and their associated transmembrane (TM) domains display the greatest structural diversity and are responsible for binding different ligands. The goal of the current study was to determine if naturally occurring missense variants within MRGPRX2's ECL/TM domains contribute to gain or loss of function phenotype for MC degranulation in response to neuropeptides (substance P and hemokinin-1), a host defense peptide (human β-defensin-3) and a Food and Drug Administration-approved cationic drug (bradykinin B2 receptor antagonist, icatibant). We have identified eight missense variants within MRGPRX2's ECL/TM domains from publicly available exome-sequencing databases. We investigated the ability of MRGPRX2 ligands to induce degranulation in rat basophilic leukemia-2H3 cells individually expressing these naturally occurring MRGPRX2 missense variants. Using stable and transient transfections, we found that all variants express in rat basophilic leukemia cells. However, four natural MRGPRX2 variants, G165E (rs141744602), D184H (rs372988289), W243R (rs150365137), and H259Y (rs140862085) failed to respond to any of the ligands tested. Thus, diverse MRGPRX2 ligands use common sites on the receptor to induce MC degranulation. These findings have important clinical implications for MRGPRX2 and MC-mediated pseudoallergy and chronic inflammatory diseases.
人类肥大细胞 (MCs) 表达一种新型的 G 蛋白偶联受体 (GPCR),称为 Mas 相关 GPCR X2 (MRGPRX2)。该受体被一组不同的阳离子配体激活,如神经肽、宿主防御肽和美国食品和药物管理局批准的药物,导致慢性炎症性疾病和假性过敏药物反应。对于大多数 GPCR 而言,细胞外 (ECL) 结构域及其相关的跨膜 (TM) 结构域显示出最大的结构多样性,负责结合不同的配体。当前研究的目的是确定 MRGPRX2 的 ECL/TM 结构域中是否存在天然存在的错义变体,这些变体是否导致 MC 脱颗粒对神经肽 (P 物质和血啡肽-1)、宿主防御肽 (人 β-防御素-3) 和美国食品和药物管理局批准的阳离子药物 (缓激肽 B2 受体拮抗剂,icatibant) 的功能表型的获得或丧失。我们从公开的外显子组测序数据库中鉴定出 MRGPRX2 的 ECL/TM 结构域中的 8 个错义变体。我们研究了 MRGPRX2 配体在单独表达这些天然存在的 MRGPRX2 错义变体的大鼠嗜碱性白血病-2H3 细胞中诱导脱颗粒的能力。通过稳定和瞬时转染,我们发现所有变体都在大鼠嗜碱性白血病细胞中表达。然而,四个天然的 MRGPRX2 变体,G165E(rs141744602)、D184H(rs372988289)、W243R(rs150365137)和 H259Y(rs140862085),未能对任何测试的配体做出反应。因此,不同的 MRGPRX2 配体使用受体上的共同位点诱导 MC 脱颗粒。这些发现对 MRGPRX2 和 MC 介导的假性过敏和慢性炎症性疾病具有重要的临床意义。
