Infectious fold and amyloid propagation in Podospora anserina.

Abstract

Amyloid protein aggregation is involved in serious neurodegenerative disorders such as Alzheimer's disease and transmissible encephalopathies. The concept of an infectious protein (prion) being the scrapie agent was successfully validated for several yeast and fungi proteins. Ure2, Sup35 and Rnq1 in Saccharomyces cerevisiae and HET-s in Podospora anserina have been genetically and biochemically identified as prion proteins. Studies on these proteins have revealed critical information on the mechanisms of prions appearance and propagation. The prion phenotype correlates with the aggregation state of these particular proteins. In vitro, the recombinant prion proteins form amyloid fibers characterized by rich beta sheet content. In a previous work on the HET-s prion protein Podospora, we demonstrated the infectivity of HET-s recombinant amyloid aggregates. More recently, the structural analysis of the HET-s prion domain associated with in vivo mutagenesis allowed us to propose a model for the infectious fold of the HET-s prion domain. Further investigations to complete this model are discussed in this review, as are relevant questions about the [Het-s] system of Podospora anserina.