Abstract
Organotypic cerebellar slices represent a suitable model for characterizing and manipulating prion replication in complex cell environments. Organotypic slices recapitulate prion pathology and are amenable to drug testing in the absence of a blood-brain-barrier. So far, the cellular and subcellular distribution of disease-specific prion protein in organotypic slices is unclear. Here we report the simultaneous detection of disease-specific prion protein and central nervous system markers in wild-type mouse cerebellar slices infected with mouse-adapted prion strain 22L. The disease-specific prion protein distribution profile in slices closely resembles that in vivo, demonstrating granular spot like deposition predominately in the molecular and Purkinje cell layers. Double immunostaining identified abnormal prion protein in the neuropil and associated with neurons, astrocytes and microglia, but absence in Purkinje cells. The established protocol for the simultaneous immunohistochemical detection of disease-specific prion protein and cellular markers enables detailed analysis of prion replication and drug efficacy in an ex vivo model of the central nervous system.
Highlights
Transmissible spongiform encephalopathies or prion diseases are devastating neurologic diseases of mammals associated with spongiform degeneration and gliosis in the central nervous system (Prusiner, 1991)
We report the development of an antigen denaturation protocol suitable for the simultaneous detection of abnormal prion protein deposition and cellular markers in organotypic slices
The combination of a prion susceptible ex vivo central nervous system model and the simultaneous detection of disease-specific PrP and cellular markers opens the avenue for detailed analysis of prion replication and new modes of intervention
Summary
Transmissible spongiform encephalopathies or prion diseases are devastating neurologic diseases of mammals associated with spongiform degeneration and gliosis in the central nervous system (Prusiner, 1991). Prion diseases are caused by unconventional pathogens composed predominately or exclusively of misfolded cellular prion protein (Prusiner, 1982). They replicate by recruiting and converting cellular prion protein (PrPC) into disease-associated higher order structures. Prion deposition in organotypic slices (Dickinson and Meikle, 1971; Bruce et al, 1991; Hecker et al, 1992; Bruce, 2003). It is unknown how prions target specific brain regions and lead to distinct disease pathologies (Kimberlin and Walker, 1986)
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