Extreme plasticity of reproductive state in a female rodent

Successful sexual reproduction relies on the coordination of multiple biological systems, yet traditional concepts of biological sex often ignore the natural plasticity in morphology and physiology underlying sex. Most female mammals develop a patent (i.e., opened) vaginal entrance (introitus) prena...

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Veröffentlicht in:Current biology 2023-03, Vol.33 (6), p.R215-R216
Hauptverfasser: Freeman, Angela R., Lee, Danielle N., Allen, Jeremy J., Blank, Bryant, Jeffery, Dean, Lerer, Assaf, Singh, Bhupinder, Southard, Teresa, Cheong, Soon Hon, Ophir, Alexander G.
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Sprache:eng
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Zusammenfassung:Successful sexual reproduction relies on the coordination of multiple biological systems, yet traditional concepts of biological sex often ignore the natural plasticity in morphology and physiology underlying sex. Most female mammals develop a patent (i.e., opened) vaginal entrance (introitus) prenatally or postnatally before or during puberty, usually under the influence of estrogens, and remain patent for the remainder of their lifespan1. An exception is the southern African giant pouched rat (Cricetomys ansorgei), whose vaginal introitus remains sealed well into adulthood2. Here, we explore this phenomenon and report that the reproductive organs and the vaginal introitus can undergo astounding and reversible transformation. Non-patency is characterized by reduced uterine size and the presence of a sealed vaginal introitus. Furthermore, the female urine metabolome shows that patent and non-patent females profoundly differ in their urine content, a reflection of differences in physiology and metabolism. Surprisingly, patency state did not predict fecal estradiol or progesterone metabolite concentrations. Exploring the plasticity that exists in reproductive anatomy and physiology can uncover that traits long considered ‘fixed’ in adulthood can become plastic under specific evolutionary pressures. Moreover, the barriers to reproduction that such plasticity creates present unique challenges to maximizing reproductive potential. Freeman et al. explore the reproductive morphology, physiology, and endocrinology of female African giant pouched rats, whose vaginal opening can remain completely sealed well into adulthood, and which can undergo astounding transformation of their reproductive organs.
ISSN:0960-9822
1879-0445
DOI:10.1016/j.cub.2023.02.004