Abstract
A male Eleutherodactylus Coqui (EC, a frog) expands and contracts its gular skin to a great extent during mating calls, displaying its extraordinarily compliant organ. There are striking similarities between frog gular skin and the human bladder as both organs expand and contract significantly. While the high extensibility of the urinary bladder is attributed to the unique helical ultrastructure of collagen type III, the mechanism behind the gular skin of EC is unknown. We therefore aim to understand the structure–property relationship of gular skin tissues of EC. Our findings demonstrate that the male EC gular tissue can elongate up to 400%, with an ultimate tensile strength (UTS) of 1.7 MPa. Species without vocal sacs, Xenopus Laevis (XL) and Xenopus Muelleri (XM), elongate only up to 80% and 350% with UTS~6.3 MPa and ~4.5 MPa, respectively. Transmission electron microscopy (TEM) and histological staining further show that EC tissues’ collagen fibers exhibit a layer-by-layer arrangement with an uninterrupted, knot-free, and continuous structure. The collagen bundles alternate between a circular and longitudinal shape, suggesting an out-of-plane zig-zag structure, which likely provides the tissue with greater extensibility. In contrast, control species contain a nearly linear collagen structure interrupted by thicker muscle bundles and mucous glands. Meanwhile, in the rat bladder, the collagen is arranged in a helical structure. The bladder-like high extensibility of EC gular skin tissue arises despite it having eight-fold lesser elastin and five times more collagen than the rat bladder. To our knowledge, this is the first study to report the structural and molecular mechanisms behind the high compliance of EC gular skin. We believe that these findings can lead us to develop more compliant biomaterials for applications in regenerative medicine.
Highlights
IntroductionAnimals have developed many unique organs for the sole purpose of attracting a suitable mate
For millions of years, animals have developed many unique organs for the sole purpose of attracting a suitable mate
We demonstrate that the gular skin of Eleutherodactylidae Coqui (EC) can achieve comparable elongation to the rat bladder and is more compliant than Xenopus Laevis (XL) and Xenopus Muelleri (XM)
Summary
Animals have developed many unique organs for the sole purpose of attracting a suitable mate. These organs take advantage of phenomena such as color [1], scent [2], sound [3], and visual size [4]. The characteristic inflation of the gular skin serves as a visual stimulus during mating season and facilitates the energetic mechanical effectiveness of air movement during calls [5]. Investigating the extraordinary inflating action of the gular skin can uncover novel mechanisms behind their ability to stretch and guide the development of artificial compliant biomaterials for regenerative medicine
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