Neurobiology of Disease (Mar 2012)
Change in the characteristics of ferritin induces iron imbalance in prion disease affected brains
Abstract
Prion disease associated neurotoxicity is mainly attributed to PrP-scrapie (PrPSc), the disease associated isoform of a normal protein, the prion protein (PrPC). Participation of other proteins and processes is suspected, but their identity and contribution to the pathogenic process is unclear. Emerging evidence implicates imbalance of brain iron homeostasis as a significant cause of prion disease-associated neurotoxicity. The underlying cause of this change, however, remains unclear. We demonstrate that iron is sequestered in heat and SDS-stable protein complexes in sporadic-Creutzfeldt–Jakob-disease (sCJD) brains, creating a phenotype of iron deficiency. The underlying cause is change in the characteristics of ferritin, an iron storage protein that becomes aggregated, detergent-insoluble, and partitions with denatured ferritin using conventional methods of ferritin purification. A similar phenotype of iron deficiency is noted in the lumbar spinal cord (SC) tissue of scrapie infected hamsters, a site unlikely to be affected by massive neuronal death and non-specific iron deposition. As a result, the iron uptake protein transferrin (Tf) is upregulated in scrapie infected SC tissue, and increases with disease progression. A direct correlation between Tf and PrPSc suggests sequestration of iron in dysfunctional ferritin that either co-aggregates with PrPSc or is rendered dysfunctional by PrPSc through an indirect process. Surprisingly, amplification of PrPSc in vitro by the protein-misfolding-cyclic-amplification (PMCA) reaction using normal brain homogenate as substrate does not increase the heat and SDS-stable pool of iron even though both PrPSc and ferritin aggregate by this procedure. These observations highlight important differences between PrPSc-protein complexes generated in vivo during disease progression and in vitro by the PMCA reaction, and the significance of these complexes in PrPSc-associated neurotoxicity.
