Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.07.16.205831v1?rss=1 Authors: Carmona, A., Porcaro, F., Somogyi, A., Roudeau, S., Domart, F., Medjoubi, K., Aubert, M., Isnard, H., Nonell, A., Rincel, A., Paredes, E., Vidaud, C., Malard, V., Bresson, C., Ortega, R. Abstract: Uranium exposure can lead to neurobehavioral alterations in particular of the monoaminergic system, even at non-cytotoxic concentrations. However, the mechanisms of uranium neurotoxicity after non-cytotoxic exposure are still poorly understood. In particular, imaging uranium in neurons at low intracellular concentration is still very challenging. We investigated uranium intracellular localization by means of synchrotron X-ray fluorescence imaging with high spatial resolution (< 300 nm) and high analytical sensitivity (< 1 g.g-1 per 300 nm pixel). Neuron-like SH-SY5Y human cells differentiated into a dopaminergic phenotype were continuously exposed, for seven days, to a non-cytotoxic concentration (10 M) of soluble natural uranyl. Cytoplasmic submicron uranium aggregates were observed accounting on average for 62% of the intracellular uranium content. In some aggregates, uranium and iron were co-localized suggesting common metabolic pathways between uranium and iron storage. Uranium aggregates contained no calcium or phosphorous indicating that detoxification mechanisms in neuron-like cells are different from those described in bone or kidney cells. Uranium intracellular distribution was compared to fluorescently labeled organelles (lysosomes, early and late endosomes) and to fetuin-A, a high affinity uranium-binding protein. A strict correlation could not be evidenced between uranium and the labelled organelles, or with vesicles containing fetuin-A. Our results indicate a new mechanism of uranium cytoplasmic aggregation after non-cytotoxic uranyl exposure that could be involved in neuronal defense through uranium sequestration into less reactive species. The remaining soluble fraction of uranium would be responsible for protein binding and the resulting neurotoxic effects. Copy rights belong to original authors. Visit the link for more info