Divergence along the gonadal steroidogenic pathway: Implications for hormone-mediated phenotypic evolution

Across a range of taxa, hormones regulate suites of traits that influence survival and reproductive success; however, the mechanisms by which hormone-mediated traits evolve are still unclear. We hypothesized that phenotypic divergence might follow from differential regulation of genes encoding key s...

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Bibliographic Details
Published in:Hormones and behavior 2016-08, Vol.84, p.1-8
Main Authors: Rosvall, Kimberly A., Bergeon Burns, Christine M., Jayaratna, Sonya P., Ketterson, Ellen D.
Format: Article
Language:English
Subjects:
3-β-Hydroxysteroid-dehydrogenase
Aggression - physiology
Animal populations
Animals
Behavior, Animal - physiology
Biological Evolution
Biosynthesis
Birds
Body Size - physiology
Cytochrome p450 17α-hydroxylase
Cytochrome p450 side-chain cleavage
Gene Expression
Genotype & phenotype
Gonads - metabolism
Hormones
Individual variation
Junco hyemalis
Male
Passeriformes - metabolism
Phenotype
Species Specificity
Steroidogenic acute regulatory protein
Testes
Testosterone - biosynthesis
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Summary:Across a range of taxa, hormones regulate suites of traits that influence survival and reproductive success; however, the mechanisms by which hormone-mediated traits evolve are still unclear. We hypothesized that phenotypic divergence might follow from differential regulation of genes encoding key steps in hormone biosynthesis and thus the rate of hormone production. We tested this hypothesis in relation to the steroid hormone testosterone by comparing two subspecies of junco (Junco hyemalis) in the wild and in captivity. These subspecies have diverged over the last 10–15kyears in multiple testosterone-mediated traits, including aggression, ornamentation, and body size. We show that variation in gonadal gene expression along the steroid biosynthetic pathway predicts phenotypic divergence within and among subspecies, and that the more androgenized subspecies exhibits a more prolonged time-course of elevated testosterone following exogenous stimulation. Our results point to specific genes that fulfill key conditions for phenotypic evolution because they vary functionally in their expression among individuals and between populations, and they map onto population variation in phenotype in a common garden. Our findings therefore build an important bridge between hormones, genes, and phenotypic evolution. [Display omitted] •Virginia and South Dakota junco subspecies differ in testosterone (T)-mediated traits.•The larger, more aggressive SD birds elevate T faster, longer, and to a higher peak.•In the wild, SD birds have greater gonadal gene expression for steroidogenic enzymes.•Subspecies differences in p450scc and CYP17 mRNA abundance persist in a common garden.•Gonads harbor important variation for the evolution of hormone-mediated traits.
ISSN:0018-506X
1095-6867
DOI:10.1016/j.yhbeh.2016.05.015