Dynamic expression of complement receptor immunoglobulin (CRIg) on monocytes and its role in phagocytosis and killing of Staphylococcus aureus
Khalida Perveen, Gailin Yang, Cameron D. Skurray, Andy Ngo, Nikki Black, Trishni Putty, Asmitabahen Patel, Annabelle G. Small, Muhammad Y. Gulam, Mihir D. Wechalekar, Timothy Sadlon, Simon C. Barry, Alex Quach, Charles S. Hii, Antonio Ferrante

TL;DR
This study shows that monocytes express CRIg, a receptor important for fighting bacteria like Staphylococcus aureus, challenging previous assumptions about its expression.
Contribution
The study reveals that monocytes dynamically express functional CRIg, which plays a role in phagocytosis and microbial killing.
Findings
Human and mouse monocytes constitutively express CRIg, including all three human monocyte subpopulations.
CRIg loss on monocytes is likely due to intracellular relocation, not absence, during isolation or storage.
CRIg and CD18 are both important for cell adhesion, but either can independently support phagocytosis and killing of S. aureus.
Abstract
The complement receptor immunoglobulin (CRIg), a key microbial pathogen phagocytosis-promoting receptor, responsible for intravascular clearance of bacteria, is purported to be expressed selectively on tissue-fixed macrophages such as Kupffer cells. However, recently it has been reported that neutrophils can also express functional CRIg following activation by inflammatory mediators. Monocytes have been reported not to express CRIg under non-activated conditions. Thus, investigations were undertaken to examine whether blood monocytes express CRIg under cell activation conditions and its role in anti-microbial immunity. Monocytes CRIg expression in whole human and mouse blood or peripheral blood mononuclear cells and purified monocytes using density gradient centrifugation or an affinity purification kit was examined using PE/FITC-labelled anti-CRIg monoclonal antibody and flow…
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Taxonomy
TopicsComplement system in diseases · Immune Response and Inflammation · Neutrophil, Myeloperoxidase and Oxidative Mechanisms
