Heterogeneity of ferrous iron-containing endolysosomes and effects of endolysosome iron on endolysosome numbers, sizes, and localization patterns

Endolysosomes are key regulators of iron metabolism and are central to iron trafficking and redox signaling. Iron homeostasis is linked to endolysosome acidity and inhibition of endolysosome acidity triggers iron dysregulation. Because of the physiological importance and pathological relevance of ferrous iron (Fe2+), we determined levels of Fe2+ specifically and quantitatively in endolysosomes as well as the effects of Fe2+ on endolysosome morphology, distribution patterns, and function. The fluorescence dye FeRhoNox-1 was specific for Fe2+ and localized to endolysosomes in U87MG astrocytoma cells and primary rat cortical neurons; in U87MG cells the endolysosome concentration of Fe2+ ([Fe2+](el)) was 50.4 mu M in control cells, 73.6 mu M in ferric ammonium citrate (FAC) treated cells, and 12.4 mu M in cells treated with the iron chelator deferoxamine (DFO). Under control conditions, in primary rat cortical neurons, [Fe2+](el) was 32.7 mu M. Endolysosomes containing the highest levels of Fe2+ were located perinuclearly. Treatment of cells with FAC resulted in endolysosomes that were less acidic, increased in numbers and sizes, and located further from the nucleus; opposite effects were observed for treatments with DFO. Thus, FeRhoNox-1 is a useful probe for the study of endolysosome Fe2+, and much more work is needed to understand better the physiological significance and pathological relevance of endolysosomes classified according to their heterogeneous iron content.

Automated summary

Endolysosomes play a crucial role in iron metabolism and redox signaling. This study quantitatively measured the levels of ferrous iron (Fe2+) in endolysosomes and investigated its effects on endolysosome morphology, distribution and function. The findings suggest that the fluorescence dye FeRhoNox-1 is a useful probe for studying endolysosome Fe2+, and further research is needed to better understand the physiological and pathological significance of endolysosomes with different iron content.