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Title: An investigation into the role of intercellular adhesion molecule-2 in neutrophil extravasation using an in vivo murine model
Author: Halai, Krishma
Awarding Body: Queen Mary, University of London
Current Institution: Queen Mary, University of London
Date of Award: 2013
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Recruitment of neutrophils into the tissue during inflammation is a crucial component of the immune response. This study aimed to further understand the role of intercellular adhesion molecule-2 (ICAM-2) in this process. Endothelial cell (EC) ICAM-2 has been implicated in neutrophil extravasation however, its precise role in this process is largely unknown. To address this, the current investigation examined the expression and functional role of ICAM-2 in neutrophil-EC interactions in vivo. Analysis of EC ICAM-2 expression was performed in the mouse cremaster muscle using immunofluorescent staining and confocal microscopy. A high EC body expression of ICAM-2 relative to that of EC junctions in post-capillary venules was observed. It was therefore hypothesised that ICAM-2 could potentially be involved in both luminal neutrophil-EC and junctional interactions. This hypothesis was analysed using confocal intravital microscopy (IVM) of cremaster muscles from WT or ICAM-2 KO Lys-eGFP-ki mice (express fluorescent neutrophils) in conjunction with fluorescent labelling of ECs. Neutrophil crawling and transendothelial migration (TEM) dynamics in IL-1β-stimulated post-capillary venules was analysed. A role for ICAM-2 in supporting speed and continuity of crawling and the initiation of TEM was demonstrated. Using functional blocking mAb to MAC-1 in WT and ICAM-2 KOs, the role of ICAM-2 in neutrophil crawling was demonstrated to be governed through a potential interaction with neutrophil MAC-1. It is therefore possible that non-junctional EC ICAM-2 has important roles in regulating neutrophil polarisation during crawling whilst junctional ICAM-2 mediates the opening of EC junctions and/or influencing the site of ‘preferred’ TEM. This study provides the first in vivo evidence for the ability of ICAM-2 to support neutrophil crawling and the initiation of TEM in IL-1β-induced neutrophil extravasation. To extend the above findings in a complex vascular injury model, a cremasteric Shwartzman Reaction, amenable to IVM analysis, was also developed as part of this project.
Supervisor: Not available Sponsor: British Heart Foundation (BHF)
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID:  DOI: Not available
Keywords: Medicine ; Microvascular Research