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Identification of elevated urea as a severe, ubiquitous metabolic defect in the brain of patients with Huntington's disease.

Authors :
Patassini, Stefano
Begley, Paul
Reid, Suzanne J.
Xu, Jingshu
Church, Stephanie J.
Curtis, Maurice
Dragunow, Mike
Waldvogel, Henry J.
Unwin, Richard D.
Snell, Russell G.
Faull, Richard L.M.
Cooper, Garth J.S.
Source :
Biochemical & Biophysical Research Communications. Dec2015, Vol. 468 Issue 1/2, p161-166. 6p.
Publication Year :
2015

Abstract

Huntington's disease (HD) is a neurodegenerative disorder wherein the aetiological defect is a mutation in the Huntington's gene ( HTT ), which alters the structure of the huntingtin protein through the lengthening of a polyglutamine tract and initiates a cascade that ultimately leads to dementia and premature death. However, neurodegeneration typically manifests in HD only in middle age, and processes linking the causative mutation to brain disease are poorly understood. Here, our objective was to elucidate further the processes that cause neurodegeneration in HD, by measuring levels of metabolites in brain regions known to undergo varying degrees of damage. We applied gas-chromatography/mass spectrometry-based metabolomics in a case-control study of eleven brain regions in short post-mortem -delay human tissue from nine well-characterized HD patients and nine controls. Unexpectedly, a single major abnormality was evident in all eleven brain regions studied across the forebrain, midbrain and hindbrain, namely marked elevation of urea, a metabolite formed in the urea cycle by arginase-mediated cleavage of arginine. Urea cycle activity localizes primarily in the liver, where it functions to incorporate protein-derived amine-nitrogen into urea for recycling or urinary excretion. It also occurs in other cell-types, but systemic over-production of urea is not known in HD. These findings are consistent with impaired local urea regulation in brain, by up-regulation of synthesis and/or defective clearance. We hypothesize that defective brain urea metabolism could play a substantive role in the pathogenesis of neurodegeneration, perhaps via defects in osmoregulation or nitrogen metabolism. Brain urea metabolism is therefore a target for generating novel monitoring/imaging strategies and/or therapeutic interventions aimed at ameliorating the impact of HD in patients. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
0006291X
Volume :
468
Issue :
1/2
Database :
Academic Search Index
Journal :
Biochemical & Biophysical Research Communications
Publication Type :
Academic Journal
Accession number :
111141353
Full Text :
https://doi.org/10.1016/j.bbrc.2015.10.140