Hypoblast Formation in Bovine Embryos Does Not Depend on NANOG

Springer, Claudia; Zakhartchenko, Valeri; Wolf, Eckhard; Simmet, Kilian

doi:10.3390/cells10092232

Cited by 13 publications

(21 citation statements)

References 43 publications

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“…This is consistent with studies showing that isolated trophoblast cells did not require an active FGF/MEK signaling to survive, proliferate, and maintain CDX2 expression [61,[63][64][65]. In agreement with Kuijk et al [28], under MEK inhibition (PD0325901 0.5 and 2.5  M) the embryonic development or cell numbers were not affected but the proportion of NANOG positive cells was markedly increased, while the expression of GATA6 was reduced but not completely switched off [33].…”

Section: Mek/erk Pathwaysupporting

confidence: 91%

“…Thus, disruption of NANOG gene did not affect blastocyst rate but resulted in reduced total cell number [33] and an ICM composed mostly of hypoblast cells [34]. In the nascent epiblast, NANOG mediated repression of hypoblast markers, such as SOX17, which is dependent on MEK signaling, but FGF4-induced expression of SOX17 depends on NANOG, therefore the establishment of hypoblast lineage depends on epiblast mediated FGF/MEK signaling [33]. In relation to other markers, absence of NANOG resulted in lower expression of the epiblast cell marker SOX2, and hypoblast marker GATA6; without affecting the trophectoderm [34].…”

Section: Nanogmentioning

confidence: 91%

“…Functionally, NANOG is not required for proper segregation of TE and ICM, but it is required to derive and maintain the pluripotent epiblast and during the second lineage commitment [33,34]. Moreover, it seems to be implicated in cell proliferation, probably depending on FGF4 signaling (also involved in fate decision and patterning events in the early embryo) from EPI precursor cells [33]. Thus, disruption of NANOG gene did not affect blastocyst rate but resulted in reduced total cell number [33] and an ICM composed mostly of hypoblast cells [34].…”

Section: Nanogmentioning

confidence: 99%

“…Moreover, it seems to be implicated in cell proliferation, probably depending on FGF4 signaling (also involved in fate decision and patterning events in the early embryo) from EPI precursor cells [33]. Thus, disruption of NANOG gene did not affect blastocyst rate but resulted in reduced total cell number [33] and an ICM composed mostly of hypoblast cells [34]. In the nascent epiblast, NANOG mediated repression of hypoblast markers, such as SOX17, which is dependent on MEK signaling, but FGF4-induced expression of SOX17 depends on NANOG, therefore the establishment of hypoblast lineage depends on epiblast mediated FGF/MEK signaling [33].…”

Section: Nanogmentioning

confidence: 99%

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Pluripotent Core in Bovine Embryos: A Review

Águila¹,

Osycka‐Salut²,

Treulén³

et al. 2022

Preprint

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Early development in mammals is characterized by the ability of each cell to produce a complete organism plus the extraembryonic, or placental, cells, defined as pluripotency. During subsequent development, pluripotency is lost, and cells begin to differentiate to a particular cell fate. This review summarizes the current knowledge of pluripotency features of bovine embryos cultured in vitro, focusing on the core of pluripotency genes (OCT4, NANOG, SOX2, and CDX2), and main chemical strategies for controlling pluripotent networks during early development. Finally, we will discuss the applicability of manipulating pluripotency during morula to blastocyst transition in cattle species.

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Section: Mek/erk Pathwaysupporting

confidence: 91%

Section: Nanogmentioning

confidence: 91%

Section: Nanogmentioning

confidence: 99%

Section: Nanogmentioning

confidence: 99%

See 2 more Smart Citations

Pluripotent Core in Bovine Embryos: A Review

Águila¹,

Osycka‐Salut²,

Treulén³

et al. 2022

Preprint

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“…Although there was no reduction in expression of the early HB marker GATA6, expression of SOX17 failed in the absence of OCT4. As expression of SOX17 is not dependent on NANOG, 32 loss of SOX17 can be linked directly to the OCT4 KO phenotype. In mouse embryos, Oct4 KO prevents the differentiation of the PE, not only because FGF4‐MEK signaling is reduced 33 but also because OCT4 is required cell autonomously 7,8 …”

Section: Discussionmentioning

confidence: 99%

OCT4/POU5F1 is indispensable for the lineage differentiation of the inner cell mass in bovine embryos

et al. 2022

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The mammalian blastocyst undergoes two lineage segregations, that is, formation of the trophectoderm and subsequently differentiation of the hypoblast (HB) from the inner cell mass, leaving the epiblast (EPI) as the remaining pluripotent lineage. To clarify the expression patterns of markers specific for these lineages in bovine embryos, we analyzed day 7, 9, and 12 blastocysts completely produced in vivo by staining for OCT4, NANOG, SOX2 (EPI), and GATA6, SOX17 (HB) and identified genes specific for these developmental stages in a global transcriptomics approach. To study the role of OCT4, we generated OCT4‐deficient (OCT4 KO) embryos via somatic cell nuclear transfer or in vitro fertilization. OCT4 KO embryos reached the expanded blastocyst stage by day 8 but lost NANOG and SOX17 expression, while SOX2 and GATA6 were unaffected. Blastocysts transferred to recipient cows from day 6 to 9 expanded, but the OCT4 KO phenotype was not rescued by the uterine environment. Exposure of OCT4 KO embryos to exogenous FGF4 or chimeric complementation with OCT4 intact embryos did not restore NANOG or SOX17 in OCT4‐deficient cells. Our data show that OCT4 is required cell autonomously for the maintenance of pluripotency of the EPI and differentiation of the HB in bovine embryos.

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