TY - JOUR
T1 - DAZL limits pluripotency, differentiation, and apoptosis in developing primordial germ cells
AU - Chen, Hsu-Hsin
AU - Welling, Maaike
AU - Bloch, Donald B
AU - Muñoz, Javier
AU - Mientjes, Edwin
AU - Chen, Xinjie
AU - Tramp, Cody
AU - Wu, Jie
AU - Yabuuchi, Akiko
AU - Chou, Yu-Fen
AU - Buecker, Christa
AU - Krainer, Adrian
AU - Willemsen, Rob
AU - Heck, Albert J
AU - Geijsen, Niels
PY - 2014/11/11
Y1 - 2014/11/11
N2 - The scarcity of primordial germ cells (PGCs) in the developing mammalian embryo hampers robust biochemical analysis of the processes that underlie early germ cell formation. Here, we demonstrate that DAZL, a germ cell-specific RNA binding protein, is a robust PGC marker during in vitro germ cell development. Using Dazl-GFP reporter ESCs, we demonstrate that DAZL plays a central role in a large mRNA/protein interactive network that blocks the translation of core pluripotency factors, including Sox2 and Sall4, as well as of Suz12, a polycomb family member required for differentiation of pluripotent cells. Thus, DAZL limits both pluripotency and somatic differentiation in nascent PGCs. In addition, we observed that DAZL associates with mRNAs of key Caspases and similarly inhibits their translation. This elegant fail-safe mechanism ensures that, whereas loss of DAZL results in prolonged expression of pluripotency factors, teratoma formation is avoided due to the concomitant activation of the apoptotic cascade.
AB - The scarcity of primordial germ cells (PGCs) in the developing mammalian embryo hampers robust biochemical analysis of the processes that underlie early germ cell formation. Here, we demonstrate that DAZL, a germ cell-specific RNA binding protein, is a robust PGC marker during in vitro germ cell development. Using Dazl-GFP reporter ESCs, we demonstrate that DAZL plays a central role in a large mRNA/protein interactive network that blocks the translation of core pluripotency factors, including Sox2 and Sall4, as well as of Suz12, a polycomb family member required for differentiation of pluripotent cells. Thus, DAZL limits both pluripotency and somatic differentiation in nascent PGCs. In addition, we observed that DAZL associates with mRNAs of key Caspases and similarly inhibits their translation. This elegant fail-safe mechanism ensures that, whereas loss of DAZL results in prolonged expression of pluripotency factors, teratoma formation is avoided due to the concomitant activation of the apoptotic cascade.
U2 - 10.1016/j.stemcr.2014.09.003
DO - 10.1016/j.stemcr.2014.09.003
M3 - Article
C2 - 25418731
SN - 2213-6711
VL - 3
SP - 892
EP - 904
JO - Stem Cell Reports [E]
JF - Stem Cell Reports [E]
IS - 5
ER -