Transmission in NFS/N mice of the heritable spongiform encephalopathy associated with the gray tremor mutation. |
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Authors: | P M Hoffman R G Rohwer C MacAuley J A Bilello J W Hartley H C Morse rd |
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Affiliation: | P M Hoffman, R G Rohwer, C MacAuley, J A Bilello, J W Hartley, and H C Morse, 3rd |
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Abstract: | It has been shown that the autosomal recessive mutation, gray tremor (gt) was associated in the homozygous state (gt/gt) with a rapidly fatal spongiform encephalopathy. Heterozygotes (+/gt) developed mild asymptomatic spongiform brain lesions as did recipient inbred mice inoculated with gt/gt brain homogenates, some of whom also showed behavioral abnormalities [Sidman, R. L., Kinney, H. C. & Sweet, H. O. (1985) Proc. Natl. Acad. Sci. USA 82, 253-257]. In these studies, inbred NFS/N mice inoculated intracerebrally at birth or as adults with gt/gt or first passage gt brain homogenates developed a progressive disease characterized by tremor, ataxia, and spasticity. The symptoms were milder and more slowly progressive than in the gt/gt homozygote, in the paralytic syndrome that followed neonatal inoculation of NFS/N mice with a wild murine leukemia virus (Cas-Br-M MuLV), or in the rapidly progressive ataxia and terminal bradykinesia that followed scrapie inoculation of NFS/N mice. The noninflammatory spongiform encephalopathy in affected NFS/N mice resembled that observed in gt/gt homozygotes, +/gt heterozygotes, and asymptomatic recipient inbred mice inoculated with gt/gt brain homogenates. Neither infectious MuLV nor MuLV proteins were detected in gt/gt brain homogenates or in affected recipient mouse brains. Scrapie-associated fibrils, readily identifiable in subcellular fractions of brains from scrapie-inoculated NFS/N mice, were not detected in similar brain fractions from NFS/N mice inoculated with gt brain homogenates. These results confirm and extend the suggestion that gt spongiform encephalopathy has both heritable and transmissible properties. Moreover, the transmissible agent of gt disease differs from both Cas-Br-M MuLV and scrapie in its disease-inducing properties in NFS/N mice. The capacity of NFS/N mice to express transmitted gt encephalopathy as clinical disease, to rapidly express Cas-Br-M MuLV spongiform encephalomyelopathy, and to develop mouse-adapted scrapie after a very short incubation time suggest a distinct sensitivity of NFS/N mice to transmissible spongiform encephalopathy. |
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