Harm Avoidance, Anxiety, and Response to Novelty in the Adolescent S-100β Transgenic Mouse: Role of Serotonin and Relevance to Down Syndrome

S-100 β is an astroglial-derived protein, which plays a role in brain development and maintenance, and is known to play a specific role in the regulation of growth of the serotonergic neuronal system. In humans, the gene for S-100 β is found on chromosome 21, within the region that is considered imp...

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Veröffentlicht in:Neuropsychopharmacology (New York, N.Y.) N.Y.), 2003-10, Vol.28 (10), p.1810-1816
Hauptverfasser: Bell, Kimberly, Shokrian, David, Potenzieri, Carl, Whitaker-Azmitia, Patricia M
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Sprache:eng
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Zusammenfassung:S-100 β is an astroglial-derived protein, which plays a role in brain development and maintenance, and is known to play a specific role in the regulation of growth of the serotonergic neuronal system. In humans, the gene for S-100 β is found on chromosome 21, within the region that is considered important for the phenotype of Down syndrome (DS). Thus, we have been studying a model of DS, the S-100 β transgenic mouse. In the current study, we have examined anxiety and responses to novelty in adolescent (60–90 days) animals, at a time when we have shown the animals to be relatively lacking in serotonin innervation, compared to their CD-1 nontransgenic controls. In a test for approach/avoidance, the light/dark test, the S-100 β transgenic mice animals showed no differences from control CD-1 mice. However, in the hole-board test for exploratory behavior, the S-100 β animals were found to be less responsive to the inhibiting effects of the serotonin receptor 5-HT1A agonist, buspirone. Three tests were used to measure response to novelty. In the open field, the S-100 β animals showed greater activity longer than the control animals, and in the Y-maze test, the S-100 β animals spent more time in the novel arm. In a test for novelty-induced gnawing, the S-100 β animals were also more active than control animals. All of these suggest that the S-100 β transgenic mice are slower to habituate to novelty than control animals. Finally, we tested the animals in a new procedure that we are proposing as a test for harm avoidance. In this apparatus, the S-100 β animals showed more approaches to a novel and potentially harmful object than the control mice did. These results are discussed in reference to the known lack of serotonin in the animals, and to the behavioral phenotype of DS.
ISSN:0893-133X
1740-634X
DOI:10.1038/sj.npp.1300242