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The Journal of Neuroscience, December 17, 2008, 28(51):13952-13956; doi:10.1523/JNEUROSCI.4986-08.2008

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Brief Communications
Chronic Gs Signaling in the Striatum Increases Anxiety-Related Behaviors Independent of Developmental Effects

Christopher Favilla,¹ Ted Abel,¹ and Michele P. Kelly^1,2

Departments of ¹Biology and ²Psychiatry, University of Pennsylvania, Philadelphia, Pennsylvania 19104

Correspondence should be addressed to Michele P. Kelly at her present address: Wyeth Research, Neuroscience/Room 1806, 865 Ridge Road, Monmouth, NJ 08852. Email: kellym22{at}wyeth.com

Current research in the field of anxiety disorders is largely receptor-centric, leaving intracellular pathways largely unexplored. Gs, the G-protein which stimulates adenylyl cyclase and L-type voltage-gated calcium channels, may be one intracellular molecule regulating anxiety-related behaviors as increased efficacy of Gs signaling has been noted in patient populations that suffer from anxiety. We report here anxiety-related behaviors in two lines of transgenic mice expressing a constitutively active isoform of Gs (or Gs*). The first line expressed Gs* throughout postnatal forebrain neurons, while the second line of mice conditionally expressed Gs* selectively in the striatum (Gs*^str mice). In the open field, both lines of mice showed a significant preference for the periphery suggesting that expression of Gs* in the striatum alone was sufficient to produce an anxiogenic phenotype. In the light/dark box, Gs*^str mice exhibited longer latencies to enter the light and spent significantly less time in the lit compartment. Similarly, Gs*^str mice showed longer latencies to enter the open quadrants and spent less time in the open quadrants of the elevated zero maze. Interestingly, these anxiety-related phenotypes were largely unrelated to developmental effects as mice expressing the Gs*^str transgene during development, but not at testing, were normal on most measures. These observations show that chronic Gs signaling in the striatum is sufficient to trigger anxiety-related behaviors largely independent of developmental effects and suggest the cAMP pathway or L-type voltage-gated calcium channels may be viable targets for future pharmacological intervention in the treatment of anxiety disorders.

Key words: GNAS; anxiety; panic disorder; striatum; cAMP; L-VGCC

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Received Oct. 15, 2008; accepted Nov. 11, 2008.

Correspondence should be addressed to Michele P. Kelly at her present address: Wyeth Research, Neuroscience/Room 1806, 865 Ridge Road, Monmouth, NJ 08852. Email: kellym22{at}wyeth.com

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