Epiblast Lumenogenesis is not a mammalian-specific trait

root 提交于 周六, 08/09/2025 - 00:00
Epiblast lumenogenesis, which leads to amniotic cavity formation, is a hallmark of mammalian embryogenesis, and required for crucial developmental processes such as anterior-posterior patterning and gastrulation. Based on avian model-organisms, the epiblast in reptiles is thought to form a monolayered flat disc that undergoes anterior-posterior patterning and gastrulation. Here, we report that the squamate, veiled chameleon (Chameleo calyptratus), exhibits epiblast lumenogenesis and amniogenesis prior to anterior-posterior patterning. Using SEM, immunofluorescence, and histology techniques, we demonstrate that chameleon epiblast lumenogenesis occurs via a purse-string-like mechanism involving the formation of supracellular actin cables in concentric rings around the epiblast followed by constriction that closes the epiblast lumen. Through expression analyses of Nodal1, Nodal2, Cerberus, Lefty, Brachyury, Wnt3A, and Bmp2, and immunostaining for Brachyury, we uncovered a Wnt3a- and Brachyury-positive ring at the edge of the epiblast concomitant with lumenogenesis, and preceding anterior-posterior patterning and gastrulation. Furthermore, we report anterior-posterior patterning in veiled chameleons occurs independently of Cerberus and Lefty. These processes that mediate epiblast lumenogenesis in chameleons, result in a morphology remarkably similar to human embryos, despite 300 million years of evolutionary separation. Taken together, we show that pre-gastrulation epiblast lumenogenesis is not mammalian-specific, but also occurs in some non-avian reptiles.