Walton, Eric MCronan, Mark RBeerman, Rebecca WTobin, David MGong, Zhiyuan2015-11-102015https://hdl.handle.net/10161/10845Transgenic labeling of innate immune cell lineages within the larval zebrafish allows for real-time, in vivo analyses of microbial pathogenesis within a vertebrate host. To date, labeling of zebrafish macrophages has been relatively limited, with the most specific expression coming from the mpeg1 promoter. However, mpeg1 transcription at both endogenous and transgenic loci becomes attenuated in the presence of intracellular pathogens, including Salmonella typhimurium and Mycobacterium marinum. Here, we describe mfap4 as a macrophage-specific promoter capable of producing transgenic lines in which transgene expression within larval macrophages remains stable throughout several days of infection. Additionally, we have developed a novel macrophage-specific Cre transgenic line under the control of mfap4, enabling macrophage-specific expression using existing floxed transgenic lines. These tools enrich the repertoire of transgenic lines and promoters available for studying zebrafish macrophage dynamics during infection and inflammation and add flexibility to the design of future macrophage-specific transgenic lines.AnimalsAnimals, Genetically ModifiedCell LineageDisease Models, AnimalHost-Pathogen InteractionsImmunity, InnateLarvaMacrophagesMycobacterium InfectionsMycobacterium marinumPromoter Regions, GeneticSalmonella typhimuriumTransgenesZebrafishZebrafish ProteinsJournal article1932-6203