Tensile force transmitted through LFA‐1 bonds mechanoregulate neutrophil inflammatory response

Tensile force transmitted through LFA‐1 bonds mechanoregulate neutrophil inflammatory response

Recruitment of leukocytes to sites of acute inflammation is guided by spatial and temporal cues that ensure appropriate cell numbers infiltrate the tissue at precise locations to protect it from infection and initiate repair. On inflamed endothelium, neutrophil rolling via selectins elicits cytosoli...

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Published in:Journal of leukocyte biology Vol. 108; no. 6; pp. 1815 - 1828
Main Authors: Morikis, Vasilios A., Masadeh, Eman, Simon, Scott I.
Format: Journal Article
Language:English
Published: United States 01-12-2020
Subjects:
calcium flux
Humans
Inflammation - immunology
Inflammation - pathology
Intercellular Adhesion Molecule-1 - immunology
kindlin‐3
Lymphocyte Function-Associated Antigen-1 - immunology
mechanotransduction
Mechanotransduction, Cellular - immunology
Membrane Proteins - immunology
Neoplasm Proteins - immunology
Neutrophils - immunology
Neutrophils - pathology
ORAI1 Protein - immunology
outside‐in signaling
RACK1
Receptors for Activated C Kinase - immunology
Tensile Strength
RACK1
kindlin-3
outside-in signaling
calcium flux
mechanotransduction
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Summary:Recruitment of leukocytes to sites of acute inflammation is guided by spatial and temporal cues that ensure appropriate cell numbers infiltrate the tissue at precise locations to protect it from infection and initiate repair. On inflamed endothelium, neutrophil rolling via selectins elicits cytosolic calcium release from endoplasmic reticulum (ER)‐stores that are synergistic with chemokine signaling to activate formation of high affinity (HA) LFA‐1 bonds to ICAM‐1, which is necessary to anchor cells against the drag force of blood flow. Bond tension on LFA‐1 within the area of adhesive contact with endothelium elicits calcium entry through calcium release‐activated calcium channel protein 1 (Orai‐1) membrane channels that in turn activate neutrophil shape change and migration. We hypothesized that mechanotransduction via LFA‐1 is mediated by assembly of a cytosolic molecular complex consisting of Kindlin‐3, receptor for activated C kinase 1 (RACK1), and Orai1. Initiation of Ca2+ flux at sites of adhesive contact required a threshold level of shear stress and increased with the magnitude of bond tension transduced across as few as 200 HA LFA‐1. A sequential mechanism triggered by force acting on LFA‐1/Kindlin‐3 precipitated dissociation of RACK1, which formed a concentration gradient above LFA‐1 bond clusters. This directed translocation of ER proximal to Orai1, where binding of inositol 1,4,5‐triphosphate receptor type 1 and activation via stromal interaction molecule 1 elicited Ca flux and subsequent neutrophil shape change and motility. We conclude that neutrophils sense adhesive traction on LFA‐1 bonds on a submicron scale to direct calcium influx, thereby ensuring sufficient shear stress of blood flow is present to trigger cell arrest and initiate transmigration at precise regions of vascular inflammation. Graphical Tension on integrin bonds anchor neutrophils to the substrate, mediating assembly of intracellular proteins to induce calcium flux, which synergizes with GPCR ligation.
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ISSN:0741-5400
1938-3673
DOI:10.1002/JLB.3A0520-100RR