4.1 Article

Effect of chronic glutathione deficiency on the behavioral phenotype of Gclm(-/-) knockout mice

Journal

NEUROTOXICOLOGY AND TERATOLOGY
Volume 34, Issue 4, Pages 450-457

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ntt.2012.04.009

Keywords

Acoustic startle response; Elevated zero maze; GSH; Locomotor activity; Morris water maze; Novel object recognition

Funding

  1. NIH grants [P30-ES006096, T32-DK059803, T32-ES007051, R01-ES008147, R01-ES014403]

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Enhanced oxidative stress or deficient oxidative stress response in the brain is associated with neurodegenerative disorders and behavioral abnormalities. Previously we generated a knockout mouse line lacking the gene encoding glutamate-cysteine ligase modifier subunit (GCLM). Gclm(-/-) knockout (KO) mice are viable and fertile, yet exhibit only 9-35% of wild-type levels of reduced glutathione (GSH) in tissues, making them a useful model for chronic GSH depletion. Having the global absence of this gene, KO mice - from the time of conception and throughout postnatal life - experience chronic oxidative stress in all tissues, including brain. Between postnatal day (P) 60 and P100, we carried out behavioral phenotyping tests in adults, comparing male and female Gclm(-/-) with Gclm(+/+) wild-type (WT) littermates. Compared with WT, KO mice exhibited: subnormal anxiety in the elevated zero maze; normal overall exploratory open-field activity, but slightly more activity in the peripheral zones; normal acoustic startle and prepulse inhibition reactions; normal novel object recognition with increased time attending to the stimulus objects; slightly reduced latencies to reach a random marked platform in the Morris water maze; normal spatial learning and memory in multiple phases of the Morris water maze; and significantly greater hyperactivity in response to methamphetamine in the open field. These findings are generally in agreement with two prior studies on these mice and suggest that the brain is remarkably resilient to lowered GSH levels, implying significant reserve capacity to regulate reactive oxygen species-but with regional differences such that anxiety and stimulated locomotor control brain regions might be more vulnerable. (c) 2012 Elsevier Inc. All rights reserved.

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