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1. Quantification of Macrophage Cellular Ferrous Iron (Fe 2+ ) Content Using a Highly Specific Fluorescent Probe in a Plate Reader.

Author

Grubwieser P, Brigo N, Seifert M, Grander M, Theurl I, Nairz M, Weiss G, and Pfeifhofer-Obermair C

Abstract

Macrophages are at the center of innate immunity and iron metabolism. In the case of an infection, macrophages adapt their cellular iron metabolism to deprive iron from invading bacteria to combat intracellular bacterial proliferation. A concise evaluation of the cellular iron content upon an infection with bacterial pathogens and diverse cellular stimuli is necessary to identify underlying mechanisms concerning iron homeostasis in macrophages. For the characterization of cellular iron levels during infection, we established an in vitro infection model where the murine macrophage cell line J774A.1 is infected with Salmonella enterica serovar Typhimurium ( S. tm), the mouse counterpart to S. enterica serovar Typhi, under normal and iron-overload conditions using ferric chloride (FeCl 3 ) treatment. To evaluate the effect of infection and iron stimulation on cellular iron levels, the macrophages are stained with FerroOrange. This fluorescent probe specifically detects Fe 2+ ions and its fluorescence can be quantified photometrically in a plate reader. Importantly, FerroOrange fluorescence does not increase with chelated iron or other bivalent metal ions. In this protocol, we present a simple and reliable method to quantify cellular Fe 2+ levels in cultured macrophages by applying a highly specific fluorescence probe (FerroOrange) in a TECAN Spark microplate reader. Compared to already established techniques, our protocol allows assessing cellular iron levels in innate immune cells without the use of radioactive iron isotopes or extensive sample preparation, exposing the cells to stress. Key features • Easy quantification of Fe 2+ in cultured macrophages with a fluorescent probe. • Analysis of iron in living cells without the need for fixation. • Performed on a plate reader capable of 540 nm excitation and 585 nm emission by trained employees for handling biosafety level 2 bacteria., Competing Interests: Competing interestsThe authors declare no conflicts of interest., (©Copyright : © 2024 The Authors; This is an open access article under the CC BY-NC license.)

Published

2024