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Substrates mimicking the blastocyst geometry revert pluripotent stem cell to naivety.


ABSTRACT: Naive pluripotent stem cells have the highest developmental potential but their in vivo existence in the blastocyst is transient. Here we report a blastocyst motif substrate for the in vitro reversion of mouse and human pluripotent stem cells to a naive state. The substrate features randomly varied microstructures, which we call motifs, mimicking the geometry of the blastocyst. Motifs representing mouse-blastocyst-scaled curvature ranging between 15 and 62 mm-1 were the most efficient in promoting reversion to naivety, as determined by time-resolved correlative analysis. In these substrates, apical constriction enhances E-cadherin/RAC1 signalling and activates the mechanosensitive nuclear transducer YAP, promoting the histone modification of pluripotency genes. This results in enhanced levels of pluripotency transcription factor NANOG, which persist even after cells are removed from the substrate. Pluripotent stem cells cultured in blastocyst motif substrates display a higher development potential in generating embryoid bodies and teratomas. These findings shed light on naivety-promoting substrate design and their large-scale implementation.

SUBMITTER: Xu X 

PROVIDER: S-EPMC11599042 | biostudies-literature | 2024 Dec

REPOSITORIES: biostudies-literature

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Substrates mimicking the blastocyst geometry revert pluripotent stem cell to naivety.

Xu Xun X   Wang Weiwei W   Liu Yue Y   Bäckemo Johan J   Heuchel Matthias M   Wang Wei W   Nie Yan Y   Iqbal Imran I   Kratz Karl K   Lendlein Andreas A   Ma Nan N  

Nature materials 20240812 12


Naive pluripotent stem cells have the highest developmental potential but their in vivo existence in the blastocyst is transient. Here we report a blastocyst motif substrate for the in vitro reversion of mouse and human pluripotent stem cells to a naive state. The substrate features randomly varied microstructures, which we call motifs, mimicking the geometry of the blastocyst. Motifs representing mouse-blastocyst-scaled curvature ranging between 15 and 62 mm<sup>-1</sup> were the most efficient  ...[more]

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