Low sex steroids, high steroid receptors: Increasing the sensitivity of the nonreproductive brain

Canoine, Virginie; Fusani, Leonida; Schlinger, Barney A.; Hau, Michaela

doi:10.1002/dneu.20296

Cited by 92 publications

(62 citation statements)

References 86 publications

(109 reference statements)

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“…Behavioural independence from circulating T may permit adaptive expression of aggression that can side-step the costs of high systemic T to some degree [1,34,37]. Similar patterns appear to apply where high levels of aggression persist in the non-breeding season, despite low circulating T [38,39], and these mechanisms of aggression that relate to neural sensitivity to sex steroids may allow individuals of both sexes to express aggression somewhat independently of circulating T.…”

Section: Discussionmentioning

confidence: 98%

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

et al. 2012

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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 (ORa) 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 ORa, 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.

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Section: Discussionmentioning

confidence: 98%

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

et al. 2012

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“…That is, mice with abundant AR in the NAcc and VTA attain higher scores on the winner index during the test encounter, indicating that these individuals have an above-average chance of winning social disputes (17,24). Thus, the experience of victory itself likely modifies the neural machinery controling social aggression (25,26), which in turn suggests that the winner effect is to some degree regulated at the level of the brain. One possibility is that increased androgen sensitivity in the NAcc and VTA primes the neuronal "reward circuitry," such that the reinforcing properties of aggressive encounters develop more readily and the resulting motivation to fight in the future becomes more pronounced.…”

Section: Functional Significance Of Increased Ar In the Limbic And Mementioning

confidence: 99%

Winning territorial disputes selectively enhances androgen sensitivity in neural pathways related to motivation and social aggression

Fuxjager

Forbes-Lorman²,

Coss³

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

183

114

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Winning aggressive disputes can enhance future fighting ability and the desire to seek out additional contests. In some instances, these effects are long lasting and vary in response to the physical location of a fight. Thus, in principle, winning aggressive encounters may cause long-term and context-dependent changes to brain areas that control the output of antagonistic behavior or the motivation to fight (or both). We examined this issue in the territorial California mouse (Peromyscus californicus) because males of this species are more likely to win fights after accruing victories in their home territory but not after accruing victories in unfamiliar locations. Using immunocytochemistry and real-time quantitative PCR, we found that winning fights either at home or away increases the expression of androgen receptors (AR) in the medial anterior bed nucleus of the stria terminalis, a key brain area that controls social aggression. We also found that AR expression in brain regions that mediate motivation and reward, nucleus accumbens (NAcc) and ventral tegmental area (VTA), increases only in response to fights in the home territory. These effects of winning were likely exclusive to the neural androgenic system because they have no detectible impact on the expression of progestin receptors. Finally, we demonstrated that the observed changes in androgen sensitivity in the NAcc and VTA are positively associated with the ability to win aggressive contests. Thus, winning fights can change brain phenotype in a manner that likely promotes future victory and possibly primes neural circuits that motivate individuals to fight.aggression | androgen and progestin receptors | behavioral reinforcement | neurobiology | winner effect S ocial experiences that individuals accrue throughout life can modify the brain's morphology and hormonal milieu (1, 2). These changes are often thought to adjust future social behavior because they occur in brain areas that control affective state, arousal, and motivation (3). However, less is known about how the environment of a given social encounter modulates its subsequent effects on the brain. We examined this issue here by testing (i) whether winning fights modifies neural circuits that control social aggression and motivation and (ii) whether a fight's environment, in turn, modulates any of these effects.Winning aggressive disputes or competitions can affect future behavior (4, 5). For example, individuals that win fights are more likely to win later in life (6). In some species, this so-called winner effect is long lasting and forms only in response to victories in certain locations (6). Although mechanistic studies of the winner effect focus on how postencounter changes in steroid hormones adjust future winning behavior (7), this physiological model is less suitable for species in which the winner effect either persists well after excess hormones are cleared from circulation or depends on a fight's environment (8, 9). Thus, it is possible that the experience of victory induces long-term ...

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“…For example, predation may be a selective factor acting via sexual characters that can be controlled by T (e.g., Marler et al 1988;Schwabl and Kriner 1991;Saino and Møller 1995;Hunt et al 1997), because such traits are attractive to predators (e.g., Götmark and Post 1996;Møller et al 2006) and show latitude-dependent expression (Norris et al 2007). Fourth, some tropical birds may not require high T levels to mediate reproductive behavior, because they are more sensitive to low hormone levels (Hau et al 2000;Canoine et al 2007). Finally, errors in our measurements may contribute to the low explanatory power of migration and laying period.…”

Section: The Reconstruction Of the Latitude Effectsmentioning

confidence: 99%

Latitudinal Distribution, Migration, and Testosterone Levels in Birds

Garamszegi¹,

Hirschenhauser²,

Bókony³

et al. 2008

The American Naturalist

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Tropical bird species usually have lower testosterone (T) levels during breeding than temperate species. However, the potential mechanisms behind the positive interspecific correlation between T and latitude remain unexplored. In a comparative study of more than 100 bird species, we examined whether social constraints during male-male competition arising from migration and breeding synchrony are responsible for the latitude effects. Species that breed at higher latitudes are more likely to migrate and experience more intense intrasexual competition upon spring arrival than nonmigrant species from lower latitudes. Additionally, species from higher latitudes cope with shorter breeding seasons and thus with more synchronous breeding, which selects for high T titers via increased malemale conflicts. Accordingly, peak T levels were associated with migration and the duration of the egg laying period that reflects * Corresponding author; e-mail: laszlo.garamszegi@ua.ac.be. breeding synchrony. Because migration and breeding synchrony were related to latitudinal distribution, they appear to be important components of the latitude effects on T. A multivariate model controlling for covariation of predictor variables revealed that latitude remained the strongest predictor of peak T. Therefore, selection due to migration and breeding synchrony may partially cause the latitude effect, but other geographically varying factors may also play a role in mediating peak T levels at different latitudes.

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Low sex steroids, high steroid receptors: Increasing the sensitivity of the nonreproductive brain

Cited by 92 publications

References 86 publications

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

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

Winning territorial disputes selectively enhances androgen sensitivity in neural pathways related to motivation and social aggression

Latitudinal Distribution, Migration, and Testosterone Levels in Birds

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