Abstract
AbstractCrIII binding to transferrin (Tf; the main FeIII transport protein) has been postulated to mediate cellular uptake of CrIII to facilitate a purported essential role for this element. Experiments using HepG2 (human hepatoma) cells, which were chosen because of high levels of the transferrin receptor, showed that CrIII binding to vacant FeIII‐binding sites of human Tf effectively blocks cellular CrIII uptake. Through bio‐layer interferometry studies of the Tf cycle, it was found that both exclusion and efflux of Cr2IIITf from cells was caused by 1) relatively low Cr2Tf affinity to cell‐surface Tf receptors compared to Fe2Tf, and 2) disruption of metal release under endosomal conditions and post‐endosomal Tf dissociation from the receptor. These data support mounting evidence that CrIII is not essential and that Tf binding is likely to be a natural protective mechanism against the toxicity and potential genotoxicity of dietary Cr through blocking CrIII cellular accumulation.
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