Microdensitometric measures of cytoplasmic RNA and total protein in pyramidal neurons of the insular cortex and midfrontal gyrus in patients with Alzheimer's disease.

Abstract	Scanning and integrating microdensitometry of azure B- and Coomassie brilliant blue G-stained tissue sections was used to measure the levels of RNA and protein, respectively, in pyramidal neurons of the insular cortex (INS) and midfrontal gyrus (MFG) in patients with Alzheimer's disease (AD) and age-matched, nondemented control subjects. AD was associated with a decreased neuronal RNA (by 7.4 per cent) and protein (by 28.7 per cent) content in INS. Although the neuronal RNA content was maintained at the control amounts in MFG, the average protein level was lower (14.7 per cent) in AD patients. These results demonstrate a disease-related impairment in metabolic function in two brain regions connected via discrete corticocortical pathways. Such findings support the hypothesis that a primary site of pathology occurs in AD, and specific neural deficits occur secondarily in certain connected brain regions.
Authors	G J Colurso, R K Kan, A Anthony
Journal	Cell biochemistry and function (Cell Biochem Funct) Vol. 13 Issue 4 Pg. 287-92 (Dec 1995) ISSN: 0263-6484 [Print] England
PMID	8565150 (Publication Type: Comparative Study, Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	Azure Stains Indicators and Reagents Nerve Tissue Proteins Rosaniline Dyes RNA Azure B coomassie Brilliant Blue
Topics	Aged Alzheimer Disease (metabolism, pathology) Azure Stains Cerebral Cortex (cytology, metabolism) Cytoplasm (chemistry, genetics, ultrastructure) Densitometry Frontal Lobe (cytology, metabolism) Humans Indicators and Reagents Middle Aged Nerve Tissue Proteins (analysis, metabolism) Pyramidal Cells (chemistry) RNA (analysis, metabolism) Regression Analysis Rosaniline Dyes

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