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新型maresin 缀合物在组织再生途径中对抗白三烯 D 刺激的血管反应。

New maresin conjugates in tissue regeneration pathway counters leukotriene D-stimulated vascular responses.

机构信息

Department of Anesthesiology, Perioperative and Pain Medicine, Center for Experimental Therapeutics and Reperfusion Injury, Brigham and Women's Hospital and Harvard Medical School, Boston, Massachusetts, USA.

Department of Cell Biology, Rowan University School of Osteopathic Medicine, Stratford, New Jersey, USA.

出版信息

FASEB J. 2018 Jul;32(7):4043-4052. doi: 10.1096/fj.201701493R. Epub 2018 Feb 28.

DOI:10.1096/fj.201701493R
PMID:29490167
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5998978/
Abstract

Resolution of acute inflammation is governed, in part, by lipid mediator class switching from proinflammatory eicosanoids to specialized proresolving mediators, including a recently identified new pathway of mediators, termed maresin conjugates in tissue regeneration (MCTR), which includes MCTR1, MCTR2, and MCTR3. Here, we addressed whether each MCTR can impact the known vascular actions of cysteinyl leukotrienes. Leukotriene D (LTD; 1.5 nmol/mouse) initiated vascular leakage in mouse cremaster vessels, which was reduced (>75%) by MCTR1 and MCTR2 (0.15 nmol each). With isolated Ciona intestinalis (sea squirt) primordial hearts, LTD (1-100 nM) induced negative inotropic action and lowered heartbeats 20-30%. Each MCTR (1-100 nM) prevented LTD-reduced heart rates. With human cysteinyl leukotriene receptor-1 (CysLT1) expressed in CHO cells, each MCTR (10-100 nM) significantly reduced LTD-initiated signaling. To assess the contribution of CysLT1 in the proresolving actions of MCTR, we carried out human macrophage (MΦ) phagocytosis. Each MCTR (0.1-10 nM) stimulated human MΦ phagocytosis of live Escherichia coli, whereas LTD did not stimulate phagocytosis. MCTR-activated phagocytosis was significantly blocked by a pharmacologic receptor antagonist (MK571). With both CHO-CysLT1 and human MΦs, each MCTR competed for specific [H]-LTD binding with apparent lower affinity than LTD. Thus, each MCTR functionally interacts with human CysLT1 to pharmacologically counter-regulate vascular responses and stimulate physiologic phagocytosis with MΦs.-Chiang, N., Riley, I. R., Dalli, J., Rodriguez, A. R., Spur, B. W., Serhan, C. N. New maresin conjugates in tissue regeneration pathway counters leukotriene D-stimulated vascular responses.

摘要

急性炎症的消退部分受脂质介质从促炎类二十烷酸向专门的促修复介质的类别转换控制,包括最近在组织再生中发现的一种新的介质途径,称为maresin 共轭物(MCTR),其包括 MCTR1、MCTR2 和 MCTR3。在这里,我们研究了每个 MCTR 是否可以影响已知的半胱氨酰白三烯的血管作用。白三烯 D(LTD;1.5 nmol/只小鼠)在小鼠提睾肌血管中引发血管渗漏,而 MCTR1 和 MCTR2(各 0.15 nmol)可将其减少(>75%)。用分离的海鞘(海鞘)原心脏,LTD(1-100 nM)诱导负性变力作用并使心跳降低 20-30%。每个 MCTR(1-100 nM)均可预防 LTD 降低的心率。用表达在 CHO 细胞中的人半胱氨酰白三烯受体-1(CysLT1),每个 MCTR(10-100 nM)均显著降低 LTD 引发的信号转导。为了评估 CysLT1 在 MCTR 促修复作用中的贡献,我们进行了人巨噬细胞(MΦ)吞噬作用的研究。每个 MCTR(0.1-10 nM)刺激人 MΦ吞噬活的大肠杆菌,而 LTD 则不能刺激吞噬作用。MCTR 激活的吞噬作用被药理学受体拮抗剂(MK571)显著阻断。在 CHO-CysLT1 和人 MΦ 中,每个 MCTR 与特定的 [H]-LTD 结合竞争,其亲和力明显低于 LTD。因此,每个 MCTR 都与人类 CysLT1 功能性相互作用,以药理学方式对抗血管反应并刺激 MΦ 的生理性吞噬作用。- Chiang,N.,Riley,I. R.,Dalli,J.,Rodriguez,A. R.,Spur,B. W.,Serhan,C. N. 组织再生途径中的新型maresin 共轭物可对抗白三烯 D 刺激的血管反应。

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