Author
Listed:
- Niels Heemskerk
(Sanquin Research and Landsteiner Laboratory, Academic Medical Centre, University of Amsterdam)
- Lilian Schimmel
(Sanquin Research and Landsteiner Laboratory, Academic Medical Centre, University of Amsterdam)
- Chantal Oort
(Sanquin Research and Landsteiner Laboratory, Academic Medical Centre, University of Amsterdam)
- Jos van Rijssel
(Sanquin Research and Landsteiner Laboratory, Academic Medical Centre, University of Amsterdam)
- Taofei Yin
(Genetics and Developmental Biology, Center for Cell Analyses and Modelling, University of Connecticut Health Centre)
- Bin Ma
(Experimental Medicine and Pharmacology, Centre for Microvascular Research, William Harvey Research Institute, Barts and The London School of Medicine and Dentistry, Queen Mary, University of London)
- Jakobus van Unen
(Molecular Cytology, Swammerdam Institute for Life Sciences, University of Amsterdam)
- Bettina Pitter
(Walter-Brendel-Center of Experimental Medicine Ludwig-Maximilians University)
- Stephan Huveneers
(Sanquin Research and Landsteiner Laboratory, Academic Medical Centre, University of Amsterdam)
- Joachim Goedhart
(Molecular Cytology, Swammerdam Institute for Life Sciences, University of Amsterdam)
- Yi Wu
(Genetics and Developmental Biology, Center for Cell Analyses and Modelling, University of Connecticut Health Centre)
- Eloi Montanez
(Walter-Brendel-Center of Experimental Medicine Ludwig-Maximilians University)
- Abigail Woodfin
(Experimental Medicine and Pharmacology, Centre for Microvascular Research, William Harvey Research Institute, Barts and The London School of Medicine and Dentistry, Queen Mary, University of London)
- Jaap D. van Buul
(Sanquin Research and Landsteiner Laboratory, Academic Medical Centre, University of Amsterdam)
Abstract
During immune surveillance and inflammation, leukocytes exit the vasculature through transient openings in the endothelium without causing plasma leakage. However, the exact mechanisms behind this intriguing phenomenon are still unknown. Here we report that maintenance of endothelial barrier integrity during leukocyte diapedesis requires local endothelial RhoA cycling. Endothelial RhoA depletion in vitro or Rho inhibition in vivo provokes neutrophil-induced vascular leakage that manifests during the physical movement of neutrophils through the endothelial layer. Local RhoA activation initiates the formation of contractile F-actin structures that surround emigrating neutrophils. These structures that surround neutrophil-induced endothelial pores prevent plasma leakage through actomyosin-based pore confinement. Mechanistically, we found that the initiation of RhoA activity involves ICAM-1 and the Rho GEFs Ect2 and LARG. In addition, regulation of actomyosin-based endothelial pore confinement involves ROCK2b, but not ROCK1. Thus, endothelial cells assemble RhoA-controlled contractile F-actin structures around endothelial pores that prevent vascular leakage during leukocyte extravasation.
Suggested Citation
Niels Heemskerk & Lilian Schimmel & Chantal Oort & Jos van Rijssel & Taofei Yin & Bin Ma & Jakobus van Unen & Bettina Pitter & Stephan Huveneers & Joachim Goedhart & Yi Wu & Eloi Montanez & Abigail Wo, 2016.
"F-actin-rich contractile endothelial pores prevent vascular leakage during leukocyte diapedesis through local RhoA signalling,"
Nature Communications, Nature, vol. 7(1), pages 1-17, April.
Handle:
RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms10493
DOI: 10.1038/ncomms10493
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