Abstract
The N-terminal region of the prion protein PrP(C) contains a series of octapeptide repeats. This region has been implicated in the binding of divalent metal ions, particularly copper. PrP(C) has been suggested to be involved in copper transport and metabolism and in cell defense mechanisms against oxidative insult, possibly through the regulation of the intracellular CuZn superoxide dismutase activity (CuZn-SOD) or a SOD-like activity of PrP(C) itself. However, up to now the link between PrP(C) expression and copper metabolism or SOD activity has still to be formally established; particularly because conflicting results have been obtained in vivo. In this study, we report a link between PrP(C), copper binding, and resistance to oxidative stress. Radioactive copper ((64)Cu) was used at a physiological concentration to demonstrate that binding of copper to the outer plasma cell membrane is related to the level of PrP(C) expression in a cell line expressing a doxycycline-inducible murine PrP(C) gene. Cellular PIPLC pretreatment indicated that PrP(C) was not involved in copper delivery at physiological concentrations. We also demonstrated that murine PrP(C) expression increases several antioxidant enzyme activities and glutathione levels. Prion protein may be a stress sensor sensitive to copper and able to initiate, following copper binding, a signal transduction process acting on the antioxidant systems to improve cell defenses.
Highlights
The N-terminal region of the prion protein PrPC contains a series of octapeptide repeats
Radioactive copper (64Cu) was used at a physiological concentration to demonstrate that binding of copper to the outer plasma cell membrane is related to the level of PrPC expression in a cell line expressing a doxycycline-inducible murine PrPC gene
We demonstrated that murine PrPC expression increases several antioxidant enzyme activities and glutathione levels
Summary
PrPC, cellular isoform of prion protein; SOD, superoxide dismutase; dox, doxycycline; PIPLC, phosphoinositol phospholipase C; ROS, reactive oxygen species; GPX, glutathione peroxidase; GR, glutathione reductase; MDA, malondialdehyde acid; SIN-1, 3-morpholinosydnonimine; PrPSc, scrapie isoform of prion ponent of infectious prion diseases [2]. Biosynthesis of PrPC is necessary for PrPSc formation, as mice lacking PrPC are resistant to scrapie infection [4]. Treatment with phosphatidylinositol phospholipase C (PIPLC) reduced the copper content from wild type mice but had no effect on the copper content of PrPC knockout mice [8]. These results have not been confirmed [11]. We demonstrated that neuronal cells infected with prion strains resulted in an alteration of the molecular mechanism promoting cellular resistance to ROS [15]. We used a transfected transgenic cell line with a doxycycline-inducible murine PrPC gene to investigate the involvement of PrPC in copper metabolism and in the resistance mechanism to toxic stress
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