Litcius/Paper detail

An <i>arginase 2</i> promoter transgenic line illuminates immune cell polarisation in zebrafish

Ffion R Hammond, Amy Lewis, Zoë C. Speirs, Holly E. Anderson, Tamara Sipka, Lewis Williams, Mai Nguyen‐Chi, Annemarie H. Meijer, Geert F. Wiegertjes, Philip M. Elks

2023Disease Models & Mechanisms14 citationsDOIOpen Access PDF

Abstract

Innate immune responses to inflammation and infection are complex and represent major challenges for developing much needed new treatments for chronic inflammatory diseases and drug-resistant infections. To be ultimately successful, the immune response must be balanced to allow pathogen clearance without excess tissue damage, processes controlled by pro- and anti-inflammatory signals. The roles of anti-inflammatory signalling in raising an appropriate immune response are underappreciated, representing overlooked potential drug targets. This is especially true in neutrophils, a difficult cell type to study ex vivo owing to a short lifespan, dogmatically seen as being highly pro-inflammatory. Here, we have generated and describe the first zebrafish transgenic line [TgBAC(arg2:eGFP)sh571] that labels expression of the anti-inflammatory gene arginase 2 (arg2) and show that a subpopulation of neutrophils upregulate arginase soon after immune challenge with injury and infection. At wound-healing stages, arg2:GFP is expressed in subsets of neutrophils and macrophages, potentially representing anti-inflammatory, polarised immune cell populations. Our findings identify nuanced responses to immune challenge in vivo, responses that represent new opportunities for therapeutic interventions during inflammation and infection.

Topics & Concepts

ArginaseZebrafishTransgeneImmune systemBiologyLine (geometry)Genetically modified mouseCell biologyGeneticsGeneArginineMathematicsGeometryAmino acidZebrafish Biomedical Research ApplicationsAquaculture disease management and microbiotaImmune cells in cancer