2013
DOI: 10.1021/tx400048u
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Revision of the Biodistribution of Uranyl in Serum: Is Fetuin-A the Major Protein Target?

Abstract: Uranium is a natural actinide present as uranyl U(VI) species in aqueous environments. Its toxicity is considered to be chemical rather than radiotoxicological. Whatever the route of entry, uranyl reaches the blood, is partly eliminated via the kidneys, and accumulated in the bones. In serum, its speciation mainly involves carbonate and proteins. Direct identification of labile uranyl-protein complexes is extremely difficult because of the complexity of this matrix. Thus, until now the biodistribution of the m… Show more

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Cited by 59 publications
(81 citation statements)
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“…Therefore, we can hypothesize the transport of U(VI)-carbonate complexes into cells through the formation of a complex with a transport protein, involving the exchange of carbonate(s) for stronger ligand(s). Indeed, the high affinity of U(VI) for certain proteins has been recently demonstrated (62)(63)(64). Using the total energies of U(VI) compounds reported in literature for theoretical calculations of fractionation factors associated with an NFS effect for the reduction of [UO 2 L 4 ] 2− into UL 4 (65), we performed calculations for ligand exchange reactions in [UO 2 L 4 ] 2− species (L = F − , Cl − , and Br − ).…”
Section: Discussionmentioning
confidence: 99%
“…Therefore, we can hypothesize the transport of U(VI)-carbonate complexes into cells through the formation of a complex with a transport protein, involving the exchange of carbonate(s) for stronger ligand(s). Indeed, the high affinity of U(VI) for certain proteins has been recently demonstrated (62)(63)(64). Using the total energies of U(VI) compounds reported in literature for theoretical calculations of fractionation factors associated with an NFS effect for the reduction of [UO 2 L 4 ] 2− into UL 4 (65), we performed calculations for ligand exchange reactions in [UO 2 L 4 ] 2− species (L = F − , Cl − , and Br − ).…”
Section: Discussionmentioning
confidence: 99%
“…Two proteins demonstrated a particularly large affinity for uranyl. Fetuin, despite its low concentration, could be one of the major target proteins of uranyl in the serum,10 and the highly phosphorylated protein osteopontin, involved in the organo‐mineral homeostasis of the bone, also binds tightly with uranyl 11…”
Section: Introductionmentioning
confidence: 99%
“…Although they are known to rapidly circulate and deposit into major organs such as bone, liver, or kidney after contamination (6,(8)(9)(10), the specific molecular mechanisms associated with mammalian uptake of these toxic heavy elements remain largely unexplored. Proposed mammalian actinide acquisition and transport mechanisms have typically focused on proteins that use conserved motifs to directly bind the essential elements iron or calcium (6,8,(10)(11)(12)(13), such as transferrin (14)(15)(16)(17)(18), ferritin (13), osteopontin (19), or fetuin (20). Siderocalin (Scn), an essential antibacterial protein that sequesters iron (21,22), and an important component of iron trafficking (23), is distinct in that it binds ferric iron indirectly, through tight complexes with a siderophore or siderophore-derived chelator.…”
mentioning
confidence: 99%