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Tracing the emergence of primordial germ cells from bilaminar disc rabbit embryos and pluripotent stem cells

Toshihiro Kobayashi, Aracely Castillo-Venzor, Christopher A. Penfold, Michael D. Morgan, Naoaki Mizuno, Walfred W. C. Tang, Yasuyuki Osada, Masao Hirao, Fumika Yoshida, Hideyuki Sato, Hiromitsu Nakauchi, Masumi Hirabayashi, M. Azim Surani

2021Cell Reports69 citationsDOIOpen Access PDF

Abstract

Rabbit embryos develop as bilaminar discs at gastrulation as in humans and most other mammals, whereas rodents develop as egg cylinders. Primordial germ cells (PGCs) appear to originate during gastrulation according to many systematic studies on mammalian embryos. Here, we show that rabbit PGC (rbPGC) specification occurs at the posterior epiblast at the onset of gastrulation. Using newly derived rabbit pluripotent stem cells, we show robust and rapid induction of rbPGC-like cells in vitro with WNT and BMP morphogens, which reveals SOX17 as the critical regulator of rbPGC fate as in several non-rodent mammals. We posit that development as a bilaminar disc is a crucial determinant of the PGC regulators, regardless of the highly diverse development of extraembryonic tissues, including the amnion. We propose that investigations on rabbits with short gestation, large litters, and where gastrulation precedes implantation can contribute significantly to advances in early mammalian development.

Topics & Concepts

GastrulationEpiblastBiologyCell biologyGerm layerInduced pluripotent stem cellEmbryoEmbryonic stem cellWnt signaling pathwayEmbryogenesisAnatomyGeneticsGeneSignal transductionPluripotent Stem Cells ResearchReproductive Biology and FertilityTissue Engineering and Regenerative Medicine
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