Impaired glutamate transport and glutamate-glutamine cycling: downstream effects of the Huntington mutation

doi:10.1093/brain/awf180

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Brain, Vol. 125, No. 8, 1908-1922, August 2002
© 2002 Guarantors of Brain

Impaired glutamate transport and glutamate–glutamine cycling: downstream effects of the Huntington mutation

P. F. Behrens¹, P. Franz¹, B. Woodman³, K. S. Lindenberg² and G. B. Landwehrmeyer²

¹ Department of Neurology, Universitätsklinik Freiburg, ² Department of Neurology, Universitätsklinik Ulm, Germany and ³ Division of Medical and Molecular Genetics, Guy’s Hospital, London, UK

Correspondence to: Peter F. Behrens, MD, Department of Neurology, Universitätsklinik, Breisacherstrasse 64, 79106 Freiburg, Germany E-mail: pfbehrens{at}web.de

The pathogenesis of Huntington’s disease is still notcompletely understood. Several lines of evidence from toxic/non-transgenicanimal models of Huntington’s disease suggest that excitotoxicmechanisms may contribute to the pathological phenotype. Evidencefrom transgenic animal models of Huntington’s disease,however, is sparse. To explore potential alterations in brainglutamate handling we studied transgenic mice expressing anN-terminal fragment of mutant huntingtin (R6/2). Intracerebralmicrodialysis in freely moving mice showed similar extracellularglutamate levels in R6/2 and littermate controls. However, partialinhibition of glutamate transport by L-trans-pyrrolidine-2,4-dicarboxylate(4 mM) disclosed an age-dependent increase in extracellularglutamate levels in R6/2 mice compared with controls, consistentwith a reduction of functional glutamate transport capacity.Biochemical studies demonstrated an age-dependent downregulationof the glial glutamate transporter GLT-1 mRNA and protein, resultingin a progressive reduction of transporter function. Glutamatetransporters other than GLT-1 were unchanged. In addition, increasedextracellular glutamine levels and alterations to glutaminesynthetase immunoreactivity suggested a perturbation of theglutamate–glutamine cycle. These findings demonstratethat the Huntington’s disease mutation results in a progressivelyderanged glutamate handling in the brain, beginning before theonset of symptoms in mice. They also provide evidence for acontribution of excitotoxicity to the pathophysiology of Huntington’sdisease, and thus Huntington’s disease may be added tothe growing list of neurodegenerative disorders associated withcompromised glutamate transport capacity.

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