Mechano-Redox Control of Macrophage-1 Antigen De-Adhesion From ICAM-1 (Intercellular Adhesion Molecule 1) by Protein Disulfide Isomerase Promotes Directional Movement Under Flow

Abstract:
BACKGROUND:
        Neutrophil migration is critical to the initiation and resolution of inflammation. Macrophage-1 antigen (Mac-1; CD11b/CD18, αMβ2) is a leukocyte integrin essential for firm adhesion to endothelial ICAM-1 (intercellular adhesion molecule 1) and migration of neutrophils in the shear forces of the circulation. PDI (protein disulfide isomerase) has been reported to influence neutrophil adhesion and migration. We aimed to elucidate the molecular mechanism of PDI control of Mac-1 affinity for ICAM-1 during neutrophil migration under fluid shear.
      
      
        METHODS:
        Neutrophils isolated from whole blood were perfused over microfluidic chips coated with ICAM-1. Colocalization of Mac-1 and PDI on neutrophils was visualized by fluorescently labeled antibodies and confocal microscopy. The redox state of Mac-1 disulfide bonds was mapped by differential cysteine alkylation and mass spectrometry. Wild-type or disulfide mutant Mac-1 was expressed recombinantly in Baby Hamster Kidney cells to measure ligand affinity. Mac-1 conformations were measured by conformation-specific antibodies and molecular dynamics simulations. Neutrophils crawling on immobilized ICAM-1 were measured in presence of oxidized or reduced PDI, and the effect of PDI inhibition using isoquercetin on neutrophil crawling on inflamed endothelial cells was examined. Migration indices in the X- and Y-direction were determined and the crawling speed was calculated.
      
      
        RESULTS:
        PDI colocalized with high-affinity Mac-1 at the trailing edge of stimulated neutrophils when crawling on ICAM-1 under fluid shear. PDI cleaved 2 allosteric disulfide bonds, C169-C176 and C224-C264, in the βI domain of the β2 subunit, and cleavage of the C224-C264 disulfide bond selectively controls Mac-1 disengagement from ICAM-1 under fluid shear. Molecular dynamics simulations and conformation-specific antibodies reveal that cleavage of the C224-C264 bond induces conformational change and mechanical stress in the βI domain. This allosterically alters the exposure of an αI domain epitope associated with a shift of Mac-1 to a lower-affinity state. These molecular events promote neutrophil motility in the direction of flow at high shear stress. Inhibition of PDI by isoquercetin reduces neutrophil migration in the direction of flow on endothelial cells during inflammation.
      
      
        CONCLUSIONS:
        Shear-dependent PDI cleavage of the neutrophil Mac-1 C224-C264 disulfide bond triggers Mac-1 de-adherence from ICAM-1 at the trailing edge of the cell and enables directional movement of neutrophils during inflammation.

SEEK ID: https://publications.h-its.org/publications/1652

DOI: 10.1161/CIRCRESAHA.122.321926

Research Groups: Molecular Biomechanics

Publication type: Journal

Journal: Circulation Research

Publisher: Ovid Technologies (Wolters Kluwer Health)

Citation: Circulation Research (2023).

Date Published: 6th Apr 2023

URL:

Registered Mode: manually

Authors: Alexander Dupuy, Camilo Aponte Santamaría, Adva Yeheskel, Elinor Hortle, Stefan H. Oehlers, Frauke Gräter, Philip J. Hogg, Freda H. Passam, Joyce Chiu

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Citation
Dupuy, A., Aponte-Santamaría, C., Yeheskel, A., Hortle, E., Oehlers, S. H., Gräter, F., Hogg, P. J., Passam, F. H., & Chiu, J. (2023). Mechano-Redox Control of Mac-1 De-Adhesion by PDI Promotes Directional Movement Under Flow. In Circulation Research (Vol. 132, Issue 9). Ovid Technologies (Wolters Kluwer Health). https://doi.org/10.1161/circresaha.122.321926
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Created: 17th Apr 2023 at 13:44

Last updated: 5th Mar 2024 at 21:25

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