ABSTRACT
Variant Creutzfeldt-Jakob disease (vCJD) is a devastating disease caused by transmission of bovine spongiform encephalopathy (BSE) to humans. Although vCJD cases are now rare, evidence from appendix surveys suggests that a small proportion of the UK population may be infected without showing signs of disease. These "silent" carriers could present a risk of iatrogenic vCJD transmission through medical procedures or blood/organ donation, and currently there are no validated tests to identify infected asymptomatic individuals using easily accessible samples. To address this issue, we evaluated the performance of three blood-based assays in a blinded study, using longitudinal sample series from a well-established large animal model of vCJD. The assays rely on amplification of misfolded prion protein (PrPSc; a marker of prion infection), and include real-time quaking-induced conversion (RT-QuIC), and two versions of protein misfolding cyclic amplification (PMCA). Although diagnostic sensitivity was higher for both PMCA assays (100%) than RT-QuIC (61%), all three assays detected prion infection in blood samples collected 26 months before the onset of clinical signs, and gave no false positive results. Parallel estimation of blood prion infectivity titres in a sensitive transgenic mouse line showed positive correlation of infectivity with PrPSc detection by the assays, suggesting that they are suitable for detection of asymptomatic vCJD infection in the human population. This study represents the largest comparison to date of preclinical prion detection in blood samples from a relevant animal model. The outcomes will guide efforts to improve early detection of prion disease and reduce infection risks in humans.
ABSTRACT
Unlike variant Creutzfeldt-Jakob disease prions, sporadic Creutzfeldt-Jakob disease prions have been shown to be difficult to amplify in vitro by protein misfolding cyclic amplification (PMCA). We assessed PMCA of pathological prion protein (PrPTSE) from 14 human sCJD brain samples in 3 substrates: 2 from transgenic mice expressing human prion protein (PrP) with either methionine (M) or valine (V) at position 129, and 1 from bank voles. Brain extracts representing the 5 major clinicopathological sCJD subtypes (MM1/MV1, MM2, MV2, VV1, and VV2) all triggered seeded PrPTSE amplification during serial PMCA with strong seed- and substrate-dependence. Remarkably, bank vole PrP substrate allowed the propagation of all sCJD subtypes with preservation of the initial molecular PrPTSE type. In contrast, PMCA in human PrP substrates was accompanied by a PrPTSE molecular shift during heterologous (M/V129) PMCA reactions, with increased permissiveness of V129 PrP substrate to in vitro sCJD prion amplification compared to M129 PrP substrate. Combining PMCA amplification sensitivities with PrPTSE electrophoretic profiles obtained in the different substrates confirmed the classification of 4 distinct major sCJD prion strains (M1, M2, V1, and V2). Finally, the level of sensitivity required to detect VV2 sCJD prions in cerebrospinal fluid was achieved.