Copper transporters are responsible for copper isotopic fractionation in eukaryotic cells
Résumé
Copper isotopic composition is altered in cancerous compared to healthy tissues. However, the
rationale for this difference is yet unknown. As a model of Cu isotopic fractionation, we monitored Cu
uptake in Saccharomyces cerevisiae, whose Cu import is similar to human. Wild type cells are enriched
in 63Cu relative to 65Cu. Likewise, 63Cu isotope enrichment in cells without high-affinity Cu transporters
is of slightly lower magnitude. In cells with compromised Cu reductase activity, however, no isotope
fractionation is observed and when Cu is provided solely in reduced form for this strain, copper is
enriched in 63Cu like in the case of the wild type. Our results demonstrate that Cu isotope fractionation
is generated by membrane importers and that its amplitude is modulated by Cu reduction. Based on ab
initio calculations, we propose that the fractionation may be due to Cu binding with sulfur-rich amino
acids: methionine and cysteine. In hepatocellular carcinoma (HCC), lower expression of the STEAP3
copper reductase and heavy Cu isotope enrichment have been reported for the tumor mass, relative to
the surrounding tissue. Our study suggests that copper isotope fractionation observed in HCC could be
due to lower reductase activity in the tumor.
Domaines
Sciences du Vivant [q-bio]Origine | Fichiers éditeurs autorisés sur une archive ouverte |
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