Gammie SC, Auger AP, Jessen HM, Vanzo RJ, Awad TA, Stevenson SA. Altered gene expression in mice selected for high maternal aggression.
GENES BRAIN AND BEHAVIOR 2006;
6:432-43. [PMID:
16939635 PMCID:
PMC1994650 DOI:
10.1111/j.1601-183x.2006.00271.x]
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Abstract
We previously applied selective breeding on outbred mice to increase maternal aggression (maternal defense). In this study, we compared gene expression within a continuous region of the central nervous system (CNS) involved in maternal aggression (hypothalamus and preoptic regions) between lactating selected (S) and nonselected control (C) mice (n= 6 per group). Using microarrays representing over 40,000 genes or expressed sequence tags, two statistical algorithms were used to identify significant differences in gene expression: robust multiarray and the probe logarithmic intensity error method. Approximately 200 genes were identified as significant using an intersection from both techniques. A subset of genes was examined for confirmation by real-time polymerase chain reaction (PCR). Significant decreases were found in S mice for neurotensin and neuropeptide Y receptor Y2 (both confirmed by PCR). Significant increases were found in S mice for neuronal nitric oxide synthase (confirmed by PCR), the K+ channel subunit, Kcna1 (confirmed by PCR), corticotrophin releasing factor binding protein (just above significance using PCR; P= 0.051) and GABA A receptor subunit 1A (not confirmed by PCR, but similar direction). S mice also exhibited significantly higher levels of the neurotransmitter receptor, adenosine A1 receptor and the transcription factors, c-Fos, and Egr-1. Interestingly, for 24 genes related to metabolism, all were significantly elevated in S mice, suggesting altered metabolism in these mice. Together, this study provides a list of candidate genes (some previously implicated in maternal aggression and some novel) that may play an important role in the production of this behavior.
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