ARAP3 protects from excessive formylated peptide‐induced microvascular leakage by acting on endothelial cells and neutrophils

Author:

Chu Julia Y1,McCormick Barry1,Sundaram Kruthika1,Hardisty Gareth1,Karmakar Utsa1,Pumpe Caroline1,Krull Elizabeth1,Lucas Christopher D1ORCID,Amado‐Azevedo Joana2,Hordijk Peter L2,Caporali Andrea3,Mellor Harry4,Baillie J Kenneth15,Rossi Adriano G1,Vermeren Sonja1ORCID

Affiliation:

1. Centre for Inflammation Research, Institute for Regeneration and Repair University of Edinburgh Edinburgh UK

2. Department of Physiology, Amsterdam University Medical Center Vrije Universiteit, Amsterdam Cardiovascular Sciences Amsterdam The Netherlands

3. Centre for Cardiovascular Sciences University of Edinburgh Edinburgh UK

4. School of Biochemistry University of Bristol Bristol UK

5. The Roslin Institute University of Edinburgh Edinburgh UK

Abstract

AbstractVascular permeability is temporarily heightened during inflammation, but excessive inflammation‐associated microvascular leakage can be detrimental, as evidenced in the inflamed lung. Formylated peptides regulate vascular leakage indirectly via formylated peptide receptor‐1 (FPR1)‐mediated recruitment and activation of neutrophils. Here we identify how the GTPase‐activating protein ARAP3 protects against formylated peptide‐induced microvascular permeability via endothelial cells and neutrophils. In vitro, Arap3−/− endothelial monolayers were characterised by enhanced formylated peptide‐induced permeability due to upregulated endothelial FPR1 and enhanced vascular endothelial cadherin internalisation. In vivo, enhanced inflammation‐associated microvascular leakage was observed in Arap3−/− mice. Leakage of plasma protein into the lungs of Arap3−/− mice increased within hours of formylated peptide administration. Adoptive transfer experiments indicated this was dependent upon ARAP3 deficiency in both immune and non‐immune cells. Bronchoalveolar lavages of formylated peptide‐challenged Arap3−/− mice contained neutrophil extracellular traps (NETs). Pharmacological inhibition of NET formation abrogated excessive microvascular leakage, indicating a critical function of NETs in this context. The observation that Arap3−/− mice developed more severe influenza suggests these findings are pertinent to pathological situations characterised by abundant formylated peptides. © 2024 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of The Pathological Society of Great Britain and Ireland.

Funder

British Heart Foundation

Versus Arthritis

Medical Research Council

Publisher

Wiley

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