Alteration of free radical metabolism in the mouse brain by scrapie infection was evaluated. The infection of mice with scrapie agent, 87V strain, slightly increased the activities of catalase and glutathione-S-transferase, while it had no effect on glutathione peroxidase, glutathione reductase, and Cu, Zn-superoxide dismutase. Results show that the scrapie infection decreased the activity of mitochondrial Mn-superoxide dismutase by 50% but increased that of monoamine oxidase (p < 0.05). Scrapie infection also increased the rate of mitochondrial superoxide generation (p < 0.05). Following scrapie infection, the level of free-sulfhydryl compounds in brain homogenates slightly decreased, but the content of thiobarbituric-acid-reactive substances and malondialdehyde increased significantly. Electron microscopy indicated that the ultrastructure of mitochondria was destroyed in the brain of scrapie-infected mice. These results suggest that elevated oxygen free radical generation and lowered scavenging activity in mitochondria might cause the free radical damage to the brain. Such deleterious changes in mitochondria may contribute to the development of prion disease.
SUMMARYIncubation period and survival time were determined in C57BL mice which had been injected stereotaxically with either the 139A, ME7 or 22L strain of scrapie in one of five different brain regions (cerebral cortex, caudate nucleus, thalamus, substantia nigra, cerebellum). The injection of 139A in the caudate nucleus, thalamus, substantia nigra or cerebellum resulted in significantly shorter incubation periods than following cerebral cortex injection. For ME7, mice injected in the thalamus and cerebellum had incubation periods approximately 2 weeks shorter than the cerebral cortex group. For 22L, the incubation periods after substantia nigra or cerebellum injection were significantly shorter than after cortex injection. The cerebellum injection group had a significantly shorter incubation period than the substantia nigra injection group. The survival times for mice injected with a particular scrapie strain were directly related to the incubation periods. The groups with the shortest incubation also had the shortest survival time (e.g. 22L in the cerebellum). On histological examination, 139A and ME7 produced brain lesions in all brain areas regardless of injection site. For the 22L strain, after cerebellum injection vacuolation was limited to the cerebellum, while injection into the cerebral cortex and other forebrain regions resulted in vacuolation in all brain regions examined. Despite the difference in the distribution of vacuolation seen in cerebellum-compared to cortex-injected (22L) mice, infectivity titres were similar in the cortex, cerebellum, cerebellar cortex and medulla plus pons.
SUMMARYCertain scrapie strains cause obesity in several strains of mice. The potential association between obesity and altered glucose tolerance was assessed by monitoring body weight and glucose tolerance throughout the incubation period in scrapie strainmouse strain combinations that do and do not produce obesity. Virtually all obese mice showed reduced glucose tolerance as shown by significantly higher blood glucose levels 2 h after a glucose overload. Mice injected with a scrapie strain that did not cause obesity showed normal tolerance. The scrapie infectivity titre of the pancreas of obese mice clinically affected with scrapie was very low. Adrenalectomy prevented both the increase in weight and aberrant glucose tolerance but had no other effect on the course of the disease. Following increasing dilution of the inoculum, the increase in body weight and the development of aberrant glucose tolerance reached an end-point that was similar to that of scrapie infectivity. The system described provides an inducible model of obesity with altered glucose tolerance.
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