Proc Natl Acad Sci U S A. 2000 Sep 26;97(20):10954-9. Microglial activation precedes acute neurodegeneration in Sandhoff disease and is suppressed by bone marrow transplantation.
Wada R, Tifft CJ, Proia RL.
Genetics of Development and Disease Branch, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, MD 20892, USA.
Sandhoff disease is a lysosomal storage disorder characterized by the absence of beta-hexosaminidase and storage of G(M2) ganglioside and related glycolipids in the central nervous system. The glycolipid storage causes severe neurodegeneration through a poorly understood pathogenic mechanism. In symptomatic Sandhoff disease mice, apoptotic neuronal cell death was prominent in the caudal regions of the brain. cDNA microarray analysis to monitor gene expression during neuronal cell death revealed an upregulation of genes related to an inflammatory process dominated by activated microglia. Activated microglial expansion, based on gene expression and histologic analysis, was found to precede massive neuronal death. Extensive microglia activation also was detected in a human case of Sandhoff disease. Bone marrow transplantation of Sandhoff disease mice suppressed both the explosive expansion of activated microglia and the neuronal cell death without detectable decreases in neuronal G(M2) ganglioside storage. These results suggest a mechanism of neurodegeneration that includes a vigorous inflammatory response as an important component. Thus, this lysosomal storage disease has parallels to other neurodegenerative disorders, such as Alzheimer's and prion diseases, where inflammatory processes are believed to participate directly in neuronal cell death.
PMID:_11005868
J Biol Chem. 2000 Nov 24;275(47):36487-90. In vivo cytotoxicity of the prion protein fragment 106-126.
Ettaiche M, Pichot R, Vincent JP, Chabry J.
Institut de Pharmacologie Moleculaire et Cellulaire, CNRS, Sophia Antipolis, 06560 Valbonne, France.
Transmissible spongiform encephalopathies are fatal neurological diseases characterized by astroglyosis, neuronal loss, and by the accumulation of the abnormal isoform of the prion protein. The amyloid prion protein fragment 106-126 (P106-126) has been shown to be toxic in cultured hippocampal neurons (). Here, we show that P106-126 is also cytotoxic in vivo. Taking advantage of the fact that retina is an integral part of the central nervous system, the toxic effect of the peptide was investigated by direct intravitreous injection. Aged solutions of P106-126 induced apoptotic-mediated retinal cell death and irreversibly altered the electrical activity of the retina. Neither apoptosis nor electroretinogram damages were observed with freshly diluted P106-126, suggesting that the toxicity is linked to the aggregation state of the peptide. The retina provides a convenient in vivo system to look for potential inhibitors of cytotoxicity associated with spongiform encephalopathies.
PMID:_11007766
Genomics. 2000 Oct 1;69(1):47-53. Quantitative trait loci affecting prion incubation time in mice.
McLaughlin Research Institute, Great Falls, Montana 59405, USA.
Although the gene encoding prion protein (PrP) is the major determinant of susceptibility to prion disease, other genes also affect prion incubation time in mice and may be involved in prion replication. Scrapie incubation time was analyzed as a quantitative trait using crosses between SJL/J and CAST/Ei mice; these mouse strains encode identical PrP molecules but have different incubation periods. Our analysis revealed loci on Chromosomes 9 and 11 that affect prion susceptibility. 2000 Academic Press.
PMID:_11013074
Genetics. 2000 Oct;156(2):559-70. A role for cytosolic hsp70 in yeast [PSI(+)] prion propagation and [PSI(+)] as a cellular stress.
Jung G, Jones G, Wegrzyn RD, Masison DC.
Laboratory of Biochemistry and Genetics, National Institute of Diabetes, Digestive, and Kidney Diseases, National Institutes of Health, Bethesda, Maryland 20892-0851, USA.
[PSI(+)] is a prion (infectious protein) of Sup35p, a subunit of the Saccharomyces cerevisiae translation termination factor. We isolated a dominant allele, SSA1-21, of a gene encoding an Hsp70 chaperone that impairs [PSI(+)] mitotic stability and weakens allosuppression caused by [PSI(+)]. While [PSI(+)] stability is normal in strains lacking SSA1, SSA2, or both, SSA1-21 strains with a deletion of SSA2 cannot propagate [PSI(+)]. SSA1-21 [PSI(+)] strains are hypersensitive to curing of [PSI(+)] by guanidine-hydrochloride and partially cured of [PSI(+)] by rapid induction of the heat-shock response but not by growth at 37 degrees. The number of inheritable [PSI(+)] particles is significantly reduced in SSA1-21 cells. SSA1-21 effects on [PSI(+)] appear to be independent of Hsp104, another stress-inducible protein chaperone known to be involved in [PSI(+)] propagation. We propose that cytosolic Hsp70 is important for the formation of Sup35p polymers characteristic of [PSI(+)] from preexisting material and that Ssa1-21p both lacks and interferes with this activity. We further demonstrate that the negative effect of heat stress on [PSI(+)] phenotype directly correlates with solubility of Sup35p and find that in wild-type strains the presence of [PSI(+)] causes a stress that elevates basal expression of Hsp104 and SSA1.
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