Non-amyloid and amyloid prion protein deposits in prion-infected mice differ in blockage of interstitial brain fluid.

AIMS

Prion diseases are characterized by brain deposits of misfolded aggregated protease-resistant prion protein (PrP), termed PrPres. In humans and animals, PrPres is found as either disorganized non-amyloid aggregates or organized amyloid fibrils. Both PrPres forms are found in extracellular spaces of the brain. Thus, both might block drainage of brain interstitial fluid (ISF). The present experiments studied whether ISF blockage occurred during amyloid and/or non-amyloid prion diseases.

METHODS

Various-sized fluorescein-labelled ISF tracers were stereotactically inoculated into the striatum of adult mice. At times from 5 min to 77 h, uninfected and scrapie-infected mice were compared. C57BL/10 mice expressing wild-type anchored PrP, which develop non-amyloid PrPres similar to humans with sporadic Creutzfeldt-Jakob disease, were compared with Tg44+/+ mice (transgenic mice secreting anchorless PrP) expressing anchorless PrP, which develop amyloid PrPres similar to certain human familial prion diseases.

RESULTS

In C57BL/10 mice, extensive non-amyloid PrPres aggregate deposition was not associated with abnormal clearance kinetics of tracers. In contrast, scrapie-infected Tg44+/+ mice showed blockage of tracer clearance and colocalization of tracer with perivascular PrPres amyloid.

CONCLUSIONS

As tracer localization and clearance was normal in infected C57BL/10 mice, ISF blockage was not an important pathogenic mechanism in this model. Therefore, ISF blockage is unlikely to be a problem in non-amyloid human prion diseases such as sporadic Creutzfeldt-Jakob disease. In contrast, partial ISF blockage appeared to be a possible pathogenic mechanism in Tg44+/+ mice. Thus this mechanism might also influence human amyloid prion diseases where expression of anchorless or mutated PrP results in perivascular amyloid PrPres deposition and cerebral amyloid angiopathy.