Neural sensitivity to sex steroids predicts individual differences in aggression: implications for behavioural evolution

Testosterone (T) regulates many traits related to fitness, including aggression. However, individual variation in aggressiveness does not always relate to circulating T, suggesting that behavioural variation may be more closely related to neural sensitivity to steroids, though this issue remains unr...

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Bibliographic Details
Published in:Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2012-09, Vol.279 (1742), p.3547-3555
Main Authors: Rosvall, K. A., Bergeon Burns, C. M., Barske, J., Goodson, J. L., Schlinger, B. A., Sengelaub, D. R., Ketterson, E. D.
Format: Article
Language:English
Subjects:
Aggression
Androgen Receptor
Androgens - blood
Animals
Aromatase
Aromatase - metabolism
Avian Proteins - metabolism
Biological Evolution
Bird songs
Estrogen Receptor alpha - metabolism
Evolution
Female
Female animals
Gene Expression
Genetic variation
Human aggression
Hypothalamus - metabolism
Junco hyemalis
Least-Squares Analysis
Male
Male animals
Messenger RNA
Oestrogen Receptor
Real-Time Polymerase Chain Reaction
Receptors, Androgen - metabolism
RNA, Messenger - metabolism
Sex Factors
Sex hormones
Singing
Songbirds - genetics
Songbirds - physiology
Telencephalon - metabolism
Testosterone
Testosterone - blood
Virginia
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Summary:Testosterone (T) regulates many traits related to fitness, including aggression. However, individual variation in aggressiveness does not always relate to circulating T, suggesting that behavioural variation may be more closely related to neural sensitivity to steroids, though this issue remains unresolved. To assess the relative importance of circulating T and neural steroid sensitivity in predicting behaviour, we measured aggressiveness during staged intrusions in free-living male and female dark-eyed juncos (Junco hyemalis). We compared aggressiveness to plasma T levels and to the abundance of androgen receptor (AR), aromatase (AROM) and oestrogen receptor alpha (ORα) mRNA in behaviourally relevant brain areas (avian medial amygdala, hypothalamus and song control regions). We also asked whether patterns of covariation among behaviour and endocrine parameters differed in males and females, anticipating that circulating T may be a better predictor of behaviour in males than in females. We found that circulating T related to aggressiveness only in males, but that gene expression for ORα, AR and AROM covaried with individual differences in aggressiveness in both sexes. These findings are among the first to show that individual variation in neural gene expression for three major sex steroid-processing molecules predicts individual variation in aggressiveness in both sexes in nature. The results have broad implications for our understanding of the mechanisms by which aggressive behaviour may evolve.
ISSN:0962-8452
1471-2945
1471-2954
DOI:10.1098/rspb.2012.0442