PrPcGlycoform Heterogeneity as a Function of Brain Region: Implications for Selective Targeting of Neurons by Prion Strains

Abstract

We recently found that deletion of the Asn-linked carbohydrate (CHO) at residue 197 of Syrian hamster (SHa) PrP^c while retaining the CHO at Asn 181 has a profound effect on which population of neurons are targeted for conversion of SHaPrP^C to SHaPrP^Sc in transgenic (Tg) mice inoculated with scrapie prions. We hypothesized that selective targeting of neuronal populations is determined by cell-specific differences in the affinity of an infecting PrP^Sc (prion) for PrP^C and that the affinity might be modulated by nerve cell-specific differences in PrP^C glycosylation. Here we tested this hypothesis by assessing whether or not each brain region in Syrian hamsters synthesizes different PrP^C glycoforms, as inferred from 2D-gel electrophoresis. Reproducible differences in the number and isoelectric point of PrP^C charge isomers were found as a function of brain region. The results of this study support the hypothesis that the PrP^Sc accumulation and the vacuolation pattern phenotypes in the brain are governed by neuron-specific differences in PrP^c glycoforms.