Abstract
Insertion of additional octarepeats into the prion protein gene has been genetically linked to familial Creutzfeldt Jakob disease and hence to de novo generation of infectious prions. The pivotal event during prion formation is the conversion of the normal prion protein (PrPC) into the pathogenic conformer PrPSc, which subsequently induces further conversion in an autocatalytic manner. Apparently, an expanded octarepeat domain directs folding of PrP toward the PrPSc conformation and initiates a self-replicating conversion process. Here, based on three main observations, we have provided a model on how altered molecular interactions between wild-type and mutant PrP set the stage for familial Creutzfeldt Jakob disease with octarepeat insertions. First, we showed that wild-type octarepeat domains interact in a copper-dependent and reversible manner, a "copper switch." This interaction becomes irreversible upon domain expansion, possibly reflecting a loss of function. Second, expanded octarepeat domains of increasing length gradually form homogenous globular multimers of 11-21 nm in the absence of copper ions when expressed as soluble glutathione S-transferase fusion proteins. Third, octarepeat domain expansion causes a gain of function with at least 10 repeats selectively binding PrPSc in a denaturant-resistant complex in the absence of copper ions. Thus, the combination of both a loss and gain of function profoundly influences homomeric interaction behavior of PrP with an expanded octarepeat domain. A multimeric cluster of prion proteins carrying expanded octarepeat domains may therefore capture and incorporate spontaneously arising short-lived PrPSc-like conformers, thereby providing a matrix for their conversion.
Highlights
Prion diseases are transmissible neurodegenerative diseases that, uniquely, in humans can be of genetic, sporadic, or infectious origin
Prion initiation, meaning de novo generation of infectivity by spontaneous conversion of PrPC to PrPSc without template, and prion propagation, i.e. conversion of PrPC to PrPSc in the presence of PrPSc template, are likely to involve two different molecular mechanisms, both remaining as yet unresolved
GST1⁄716OR was used as a model protein for expanded OR domains as occurring in familial CJD (fCJD), where the maximum number of ORs reported so far is 14
Summary
Prion diseases are transmissible neurodegenerative diseases that, uniquely, in humans can be of genetic, sporadic, or infectious origin. Cases of the most prevalent human prion disease, Creutzfeldt Jakob disease (CJD), are ϳ15% genetic, 85% sporadic, and only Ͻ1% linked to infection. In genetic or familial CJD (fCJD), germ line mutations in the prion protein gene (PRNP) initiate a neurodegenerative disease that subsequently becomes transmissible [1, 2]. This phenomenon has not been reported for other mammalian prion diseases that are more prevalent and seem to have mostly an infectious origin [1, 3]. Recombinant PrP carrying disease-linked amino acid substitutions is not thermodynamically destabilized [16], pointing to a disease mechanism more complex than mere misfolding
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