Impaired striatal dopamine output of homozygous Wfs1 mutant mice in response to [K+] challenge

V. Matto; A. Terasmaa; E. Vasar; S. Kõks

doi:10.1007/s13105-010-0048-0

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Impaired striatal dopamine output of homozygous Wfs1 mutant mice in response to [K+] challenge

Journal article

Peer reviewed

Impaired striatal dopamine output of homozygous Wfs1 mutant mice in response to [K+] challenge

V. Matto, A. Terasmaa, E. Vasar and S. Kõks

Journal of Physiology and Biochemistry, Vol.67(1), pp.53-60

2011

DOI: https://doi.org/10.1007/s13105-010-0048-0

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Abstract

Loss of function of the Wfs1 gene causes Wolfram syndrome, a rare multisystem degenerative disorder. Mutant mice with targeted Wfs1 gene disruption (Wfs1 KO) display morphological and behavioral impairments that are not well understood. The present study aimed to investigate the striatal dopamine output of wild-type, heterozygous, and homozygous Wfs1 null-mutant mice using in vivo microdialysis technique. The baseline dopamine output in striatum was similar in all three animal groups. The application of 100 mM [K+]-rich modified Ringer solution caused in homozygous Wfs1 mutant mice an increase of dopamine output by 400%, while in wild-type and heterozygous animals, the increase of the dopamine output yielded up to 1,200%. In sum, the homozygous Wfs1 mutant mice (AUC0–3 = 0.212 nM/μl h) show significantly decreased striatal dopamine output in response to high-concentration [K+] challenge as compared with wild-type or heterozygous Wfs1 mutant conspecifics (AUC0–3 = 0.427 and 0.505 nM/μl h, respectively). This could explain at least some of the behavioral alterations in Wfs1 mutant mice.

Details

Title: Impaired striatal dopamine output of homozygous Wfs1 mutant mice in response to [K+] challenge
Authors/Creators: V. Matto (Author/Creator) - University of Tartu
A. Terasmaa (Author/Creator) - University of Tartu
E. Vasar (Author/Creator) - University of Tartu
S. Kõks (Author/Creator) - University of Tartu
Publication Details: Journal of Physiology and Biochemistry, Vol.67(1), pp.53-60
Publisher: Springer Netherlands
Identifiers: 991005542466807891
Copyright: © 2010 University of Navarra
Murdoch Affiliation: Murdoch University
Language: English
Resource Type: Journal article

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Citation topics: 1 Clinical & Life Sciences; 1.25 Molecular & Cell Biology - Cancer, Autophagy & Apoptosis; 1.25.1406 Unfolded Protein Response
Web Of Science research areas: Biochemistry & Molecular Biology; Physiology
ESI research areas: Biology & Biochemistry