Androgen-mediated maternal effects and trade-offs: postnatal hormone development, growth, and survivorship in wild meerkats
Abstract
<jats:sec><jats:title>Introduction</jats:title><jats:p>Mammalian reproductive and somatic development is regulated by steroid hormones, growth hormone (GH), and insulin-like growth factor-1 (IGF-1). Based largely on information from humans, model organisms, and domesticated animals, testosterone (T) and the GH/IGF-1 system activate sexually differentiated development, promoting male-biased growth, often at a cost to health and survivorship. To test if augmented prenatal androgen exposure in females produces similar developmental patterns and trade-offs, we examine maternal effects in wild meerkats (<jats:italic>Suricata suricatta</jats:italic>), a non-model species in which adult females naturally, albeit differentially by status, express exceptionally high androgen concentrations, particularly during pregnancy. In this cooperative breeder, the early growth of daughters predicts future breeding status and reproductive success.</jats:p></jats:sec><jats:sec><jats:title>Methods</jats:title><jats:p>We examine effects of normative and experimentally induced variation in maternal androgens on the ontogenetic patterns in offspring reproductive hormones (androstenedione, A<jats:sub>4</jats:sub>; T; estradiol, E<jats:sub>2</jats:sub>), IGF-1, growth from pup emergence at 1 month to puberty at 1 year, and survivorship. Specifically, we compare the male and female offspring of dominant control (DC or high-T), subordinate control (SC or lower-T), and dominant treated (DT or blocked-T) dams, the latter having experienced antiandrogen treatment in late gestation.</jats:p></jats:sec><jats:sec><jats:title>Results</jats:title><jats:p>Meerkat offspring showed sex differences in absolute T and IGF-1 concentrations, developmental rates of A<jats:sub>4</jats:sub> and E<jats:sub>2</jats:sub> expression, and survivorship — effects that were sometimes socially or environmentally modulated. Atypical for mammals were the early male bias in T that disappeared by puberty, the absence of sex differences in A<jats:sub>4</jats:sub> and E<jats:sub>2</jats:sub>, and the female bias in IGF-1. Food availability was linked to steroid concentrations in females and to IGF-1, potentially growth, and survival in both sexes. Maternal treatment significantly affected rates of T, E<jats:sub>2</jats:sub>, and IGF-1 expression, and weight, with marginal effects on survivorship; offspring of DT dams showed peak IGF-1 concentrations and the best survivorship.</jats:p></jats:sec><jats:sec><jats:title>Discussion</jats:title><jats:p>Maternal effects thus impact offspring development in meerkats, with associated trade-offs: Whereas prenatal androgens modify postnatal reproductive and somatic physiology, benefits associated with enhanced competitiveness in DC lineages may have initial costs of reduced IGF-1, delay in weight gain, and decreased survivorship. These novel data further confirm the different evolutionary and mechanistic pathways to cooperative breeding and call for greater consideration of natural endocrine variation in both sexes.</jats:p></jats:sec>
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Davies, Charli S, Caroline L Shearer, Lydia K Greene, Jessica Mitchell, Debbie Walsh, Vivian C Goerlich, Tim H Clutton-Brock, Christine M Drea, et al. (n.d.). Androgen-mediated maternal effects and trade-offs: postnatal hormone development, growth, and survivorship in wild meerkats. Frontiers in Endocrinology, 15. 10.3389/fendo.2024.1418056 Retrieved from https://hdl.handle.net/10161/31557.
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Scholars@Duke
Christine M. Drea
I have two broad research interests, sexual differentiation and
social behavior, both focused on hyenas and primates. I am
particularly interested in unusual species in which the females
display a suite of masculinized characteristics, including male-
like or exaggerated external genitalia and social dominance.
The study of naturally occurring hormones in such unique
mammals can reveal general processes of hormonal activity,
expressed in genital morphology, reproductive development,
and social behavior. Taking a combined laboratory and field
approach allows me to relate captive data to various facets of
the animals' natural habitat, thereby enhancing the ecological
validity of assay procedures and enriching interpretation in an
evolutionary framework. The goal of comparative studies of
hyenas and lemurs is to help elucidate the mechanisms of
mammalian sexual differentiation.
My research program in social behavior focuses on social learning and group cohesion. Using naturalistic tasks that I present to captive animals in socially relevant contexts, I can investigate how social interaction modulates behavior, problem- solving, and cognitive performance. By studying and comparing models of carnivore and primate foraging, I can better understand how group-living animals modify their actions to meet environmental demands. A primary interest is determining whether similar factors, related to having a complex social organization, influence learning and performance across taxonomic groups. I am also interested in how animals learn rules of social conduct and maintain social cohesion, as evidenced by their patterns of behavioral developmental, the intricate balance between aggression and play, the expression of scent marking, and the social facilitation or inhibition of behavior.
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