NR AIFN
AU McLachlan,D.R.; Lukiw,W.J.; Cho,H.J.; Carp,R.I.; Wisniewski,H.
TI Chromatin structure in scrapie and Alzheimer's disease
QU Canadian Journal of Neurological Sciences 1986 Nov; 13(4 Suppl): 427-31
PT journal article
AB Scrapie affected brains exhibit a number of pathological features in common with the human neurodegenerative condition, Alzheimer's disease. The present report describes studies on chromatin structure seen in these two disease processes. Chromatin associated proteins influence transcriptional activity of DNA through an effect upon chromatin structure. We examined chromatin structure by: measuring the capacity of the enzyme micrococcal nuclease to release mono- and dinucleosomes from isolated nuclei and measuring DNA-histone interactions by examining the effect of ambient tonicity upon the release of chromatin proteins. In two strains of mice infected with two strains of scrapie agent there was reduced accessibility to micrococcal nuclease and an increased content on dinucleosomes of the histone H1 and H1(0) types. These changes precede clinical signs of scrapie and resemble those found in the human conditions of Alzheimer's and Pick's disease. Scrapie mouse brain differs from Alzheimer brain in that scrapie does not alter histone-DNA interactions as monitored by ionically induced histone release from chromatin. Despite similarities, the scrapie agent appears to operate upon different molecular mechanisms than those found in Alzheimer's disease.
MH Alzheimer Disease/metabolism/*pathology; Animal; Chromatin/metabolism/*ultrastructure; DNA/metabolism; Histones/isolation & purification; Human; Kinetics; Mice; Mice, Inbred C57BL; Micrococcal Nuclease/diagnostic use; Nucleosomes/metabolism; Proteins/metabolism; Scrapie/metabolism/*pathology; Sodium Chloride/diagnostic use; Support, Non-U.S. Gov't
SP englisch
PO Kanada