High-voltage electron microscopic studies of the interrelationship between microglial cells and amyloid fibrils in scrapie-infected mouse brains

Abstract

We have previously demonstrated the usefulness of high-voltage electron microscopy (HVEM) in the study of microvessels and inflammatory cell attachment in the central nervous system (CNS). In the present study, we used HVEM to further explore the interrelationship between microglial cells (MCs) and amyloid deposits in scrapie-infected mice. Scrapie infection in the mouse has been employed as an animal model to study the pathogenesis of amyloid fibril formation. The central question was whether three-dimensional (3-D) stereo-pair reconstruction would offer further insight into amyloid formation by MCs, which is currently the view of our group. Brains or cervical spinal cords from IM mice previously inoculated with 87V scrapie agent were used. One-half-micrometer thick plastic sections were stained with uranyl acetate and lead citrate. Light-microscopy views enabled us to target primary inoculation channels associated with amyloid deposits. Cells located at the periphery of the amyloid were identified as MCs (Fig. 1).