Evolutionary Origin of Vertebrate OCT4/POU5 Functions in Supporting Pluripotency

Sukparangsi, Woranop; Morganti, Elena; Lowndes, Molly; Mayeur, Hélène; Weisser, Melanie; Hammachi, Fella; Peradziryi, Hanna; Roske, Fabian V; Hölzenspies, Jurriaan; Livigni, Alessandra; Godard, Benoit G; Sugahara, Fumiaki; Kuratani, Shigeru; Montoya, Guillermo; Frankenberg, Stephen; Mazan, Sylvie; Brickman, Joshua M.

doi:10.1101/2022.04.13.488202

2022

DOI: 10.1101/2022.04.13.488202

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Evolutionary Origin of Vertebrate OCT4/POU5 Functions in Supporting Pluripotency

Woranop Sukparangsi

Elena Morganti

Molly Lowndes

et al.

Abstract: The support of pluripotent cells over time is an essential feature of development. In eutherian embryos, pluripotency is maintained from naïve states in peri-implantation to primed pluripotency at gastrulation. To understand how these states emerged, we reconstruct the evolutionary trajectory of the Pou5 gene family, which contains the central pluripotency factor OCT4. By coupling evolutionary sequence analysis with functional studies in mouse Embryonic Stem Cells (ESCs), we found that the ability of POU5 prot… Show more

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References 86 publications

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Shared features of blastula and neural crest stem cells evolved at the base of vertebrates

York,

Rao,

Huber

et al. 2023

Preprint

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The neural crest is vertebrate-specific stem cell population that helped drive the origin and evolution of the vertebrate clade. A distinguishing feature of these stem cells is their multi-germ layer potential, which has drawn developmental and evolutionary parallels to another stem cell population—pluripotent embryonic stem cells (animal pole cells or ES cells) of the vertebrate blastula. Here, we investigate the evolutionary origins of neural crest potential by comparing neural crest and pluripotency gene regulatory networks (GRNs) in both jawed (Xenopus) and jawless (lamprey) vertebrates. Through comparative gene expression analysis and transcriptomics, we reveal an ancient evolutionary origin of shared regulatory factors between neural crest and pluripotency GRNs that dates back to the last common ancestor of extant vertebrates. Focusing on the key pluripotency factorpou5(formerly oct4), we show that the lamprey genome encodes apou5ortholog that is expressed in animal pole cells, as in jawed vertebrates, but is absent from the neural crest. However, gain-of-function experiments show that both lamprey andXenopus pou5enhance neural crest formation, suggesting thatpou5was lost from the neural crest of jawless vertebrates. Finally, we show thatpou5is required for neural crest specification in jawed vertebrates and that it acquired novel neural crest-enhancing activity after evolving from an ancestralpou3-like clade that lacks this functionality. We propose that a pluripotency-neural crest GRN was assembled in stem vertebrates and that the multi-germ layer potential of the neural crest evolved by deploying this regulatory program.

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Shared features of blastula and neural crest stem cells evolved at the base of vertebrates

York,

Rao,

Huber

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

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Evolutionary Origin of Vertebrate OCT4/POU5 Functions in Supporting Pluripotency

Cited by 1 publication

References 86 publications

Shared features of blastula and neural crest stem cells evolved at the base of vertebrates

Shared features of blastula and neural crest stem cells evolved at the base of vertebrates

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