Zonation and ligand and dose dependence of sphingosine 1-phosphate receptor-1 signalling in blood and lymphatic vasculature.

IF 10.2 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Cardiovascular Research Pub Date : 2024-11-25 DOI:10.1093/cvr/cvae168

Ilaria Del Gaudio, Anja Nitzsche, Kevin Boyé, Philippe Bonnin, Mathilde Poulet, Toan Q Nguyen, Ludovic Couty, Hoa T T Ha, Dat T Nguyen, Amaury Cazenave-Gassiot, Khaoula Ben Alaya, Patrice Thérond, Jerold Chun, Markus R Wenk, Richard L Proia, Daniel Henrion, Long N Nguyen, Anne Eichmann, Eric Camerer

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引用次数: 0

Abstract

Aims: Circulating levels of sphingosine 1-phosphate (S1P), an HDL-associated ligand for the endothelial cell (EC) protective S1P receptor-1 (S1PR1), are reduced in disease states associated with endothelial dysfunction. Yet, as S1PR1 has high affinity for S1P and can be activated by ligand-independent mechanisms and EC autonomous S1P production, it is unclear if relative reductions in circulating S1P can cause endothelial dysfunction. It is also unclear how EC S1PR1 insufficiency, whether induced by deficiency in circulating ligand or by S1PR1-directed immunosuppressive therapy, affects different vascular subsets.

Methods and results: We here fine map the zonation of S1PR1 signalling in the murine blood and lymphatic vasculature, superimpose cell-type-specific and relative deficiencies in S1P production to define ligand source and dose dependence, and correlate receptor engagement to essential functions. In naïve blood vessels, despite broad expression, EC S1PR1 engagement was restricted to resistance-size arteries, lung capillaries, and a subset of high-endothelial venules (HEVs). Similar zonation was observed for albumin extravasation in EC S1PR1-deficient mice, and brain extravasation was reproduced with arterial EC-selective S1pr1 deletion. In lymphatic ECs, S1PR1 engagement was high in collecting vessels and lymph nodes and low in blind-ended capillaries that drain tissue fluids. While EC S1P production sustained S1PR1 signalling in lymphatics and HEV, haematopoietic cells provided ∼90% of plasma S1P and sustained signalling in resistance arteries and lung capillaries. S1PR1 signalling and endothelial function were both surprisingly sensitive to reductions in plasma S1P with apparent saturation around 50% of normal levels. S1PR1 engagement did not depend on sex or age but modestly increased in arteries in hypertension and diabetes. Sphingosine kinase (Sphk)-2 deficiency also increased S1PR1 engagement selectively in arteries, which could be attributed to Sphk1-dependent S1P release from perivascular macrophages.

Conclusion: This study highlights vessel subtype-specific S1PR1 functions and mechanisms of engagement and supports the relevance of S1P as circulating biomarker for endothelial function.

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血液和淋巴管中 S1PR1 信号的分区、配体和剂量依赖性。

目的：1-磷酸鞘磷脂（S1P）是内皮细胞（EC）保护性 S1P 受体-1（S1PR1）的高密度脂蛋白相关配体，在与内皮功能障碍相关的疾病状态下，S1P 的循环水平会降低。然而，由于 S1PR1 对 S1P 有很高的亲和力，并且可以通过配体无关机制和内皮细胞自主产生 S1P 激活，因此目前还不清楚循环中 S1P 的相对减少是否会影响内皮功能。此外，还不清楚配体缺乏或 S1PR1 引导的免疫抑制疗法所诱发的 EC S1PR1 功能不足如何影响不同的血管亚群：我们在此绘制了小鼠血液和淋巴管中 S1PR1 信号的区域图，叠加了细胞类型特异性和 S1P 生成的相对缺陷，以确定配体的来源和剂量依赖性，并将受体参与与基本功能相关联。在新生血管中，尽管表达广泛，但欧共体 S1PR1 的参与仅限于阻力大小的动脉、肺毛细血管和高端上皮静脉（HEV）。在缺乏欧共体 S1PR1 的小鼠体内观察到类似的白蛋白外渗分区，动脉欧共体选择性 S1pr1 基因缺失可再现脑外渗。在淋巴管中，收集血管和淋巴结中的 S1PR1 参与度较高，而排出组织液的末端毛细血管中的参与度较低。虽然淋巴管和HEV中内皮细胞产生的S1P维持了S1PR1信号传导，但造血细胞提供了90%的血浆S1P，并维持了阻力动脉和肺毛细血管中的信号传导。S1PR1 信号传导和内皮功能对血浆 S1P 的减少都出奇地敏感，其明显饱和度约为正常水平的 50%。S1PR1 的参与与性别或年龄无关，但在高血压和糖尿病患者的动脉中会适度增加。球蛋白激酶（Sphk）-2 缺乏也会选择性地增加动脉中 S1PR1 的参与，这可能是由于血管周围巨噬细胞释放了依赖于 Sphk1 的 S1P：本研究强调了血管亚型特异性 S1PR1 功能和参与机制，并支持 S1P 作为内皮功能循环生物标志物的相关性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cardiovascular Research 医学-心血管系统

CiteScore

21.50

自引率

3.70%

发文量

547

审稿时长

1 months

期刊介绍： Cardiovascular Research Journal Overview: International journal of the European Society of Cardiology Focuses on basic and translational research in cardiology and cardiovascular biology Aims to enhance insight into cardiovascular disease mechanisms and innovation prospects Submission Criteria: Welcomes papers covering molecular, sub-cellular, cellular, organ, and organism levels Accepts clinical proof-of-concept and translational studies Manuscripts expected to provide significant contribution to cardiovascular biology and diseases