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- Title
Tgfbr1 controls developmental plasticity between the hindlimb and external genitalia by remodeling their regulatory landscape.
- Authors
Lozovska, Anastasiia; Korovesi, Artemis G.; Dias, André; Lopes, Alexandre; Fowler, Donald A.; Martins, Gabriel G.; Nóvoa, Ana; Mallo, Moisés
- Abstract
The hindlimb and external genitalia of present-day tetrapods are thought to derive from an ancestral common primordium that evolved to generate a wide diversity of structures adapted for efficient locomotion and mating in the ecological niche occupied by the species. We show that despite long evolutionary distance from the ancestral condition, the early primordium of the mouse external genitalia preserved the capacity to take hindlimb fates. In the absence of Tgfbr1, the pericloacal mesoderm generates an extra pair of hindlimbs at the expense of the external genitalia. It has been shown that the hindlimb and the genital primordia share many of their key regulatory factors. Tgfbr1 controls the response to those factors by modulating the accessibility status of regulatory elements that control the gene regulatory networks leading to the formation of genital or hindlimb structures. Our work uncovers a remarkable tissue plasticity with potential implications in the evolution of the hindlimb/genital area of tetrapods, and identifies an additional mechanism for Tgfbr1 activity that might also contribute to the control of other physiological or pathological processes.Development of hindlimbs and external genitalia share several regulatory factors. Lozovska et al. show that Tgfbr1 controls the response to those factors; embryos lacking Tgfbr1 develop two sets of hindlimbs at the expense of the external genitalia.
- Publication
Nature Communications, 2024, Vol 15, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-024-46870-z