Arachidonic acid directly activates the human DP2 receptor

IF 3.2 3区医学 Q2 PHARMACOLOGY & PHARMACY Molecular Pharmacology Pub Date : 2024-09-16 DOI:10.1124/molpharm.124.000884

Michael Kurz, Michaela Ulrich, Sina B Kirchhofer, Alwina Bittner, Michael Daude, Wibke E Diederich, Kim Pauk, Holger Garn, Moritz Bünemann

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Abstract

Aberrant type 2 inflammatory responses are the underlying cause of the pathophysiology of allergic asthma, allergic rhinitis and other atopic diseases with an alarming prevalence in relevant parts of the western world. A bulk of evidence points out the important role of the DP2 receptor in this inflammation processes. A screening of different polyunsaturated fatty acids (PUFAs) at a fluorescence resonance energy transfer (FRET)-based DP2 receptor conformation sensor expressed in HEK cells revealed an agonistic effect of the prostaglandin (PG) D₂ precursor arachidonic acid (AA) on DP2 receptor activity of about 80% of the effect induced by PGD₂. In a combination of experiments at the conformation sensor and using a BRET-based G protein activation sensor expressed together with DP2 receptor-wt in HEK cells, we found that arachidonic acid act as a direct activator of the DP2 receptor but not DP1 receptor, in a concentration range considered physiologically relevant. Pharmacological inhibition of cyclooxygenases and lipoxygenases as well as cytochrome P450 did not lead to a diminished arachidonic acid response on the DP2 receptor, confirming a direct action of arachidonic acid on the receptor.

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花生四烯酸直接激活人类 DP2 受体

畸形的 2 型炎症反应是过敏性哮喘、过敏性鼻炎和其他特应性疾病病理生理学的根本原因，在西方世界相关地区的发病率令人震惊。大量证据表明，DP2 受体在这种炎症过程中起着重要作用。在 HEK 细胞中表达的基于荧光共振能量转移（FRET）的 DP2 受体构象传感器对不同的多不饱和脂肪酸（PUFAs）进行筛选后发现，前列腺素（PG）D2 前体花生四烯酸（AA）对 DP2 受体活性的激动作用约为 PGD2 诱导作用的 80%。在构象传感器实验和使用基于 BRET 的 G 蛋白活化传感器与 DP2 受体-wt 一起在 HEK 细胞中表达的组合实验中，我们发现花生四烯酸是 DP2 受体的直接激活剂，而不是 DP1 受体，其浓度范围被认为与生理相关。对环氧合酶和脂氧合酶以及细胞色素 P450 的药理抑制不会导致花生四烯酸对 DP2 受体的反应减弱，这证实了花生四烯酸对受体的直接作用。

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来源期刊

Molecular Pharmacology 医学-药学

CiteScore

7.20

自引率

2.80%

发文量

审稿时长

3-6 weeks

期刊介绍： Molecular Pharmacology publishes findings derived from the application of innovative structural biology, biochemistry, biophysics, physiology, genetics, and molecular biology to basic pharmacological problems that provide mechanistic insights that are broadly important for the fields of pharmacology and toxicology. Relevant topics include: Molecular Signaling / Mechanism of Drug Action Chemical Biology / Drug Discovery Structure of Drug-Receptor Complex Systems Analysis of Drug Action Drug Transport / Metabolism