Integrative Epigenetic and Molecular Analysis Reveals a Novel Promoter for a New Isoform of the Transcription Factor TEAD4

Rashidiani, Shima; Mamo, Gizaw; Farkas, Benjámin; Szabadi, András; Farkas, Bálint; Uszkai, Veronika; Császár, András; Brandt, Barbara; Kovács, Kálmán; Pap, Marianna; Rauch, Tibor A.

doi:10.3390/ijms25042223

IJMS

2024

DOI: 10.3390/ijms25042223

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Integrative Epigenetic and Molecular Analysis Reveals a Novel Promoter for a New Isoform of the Transcription Factor TEAD4

Shima Rashidiani,

Gizaw Mamo,

Benjámin Farkas

et al.

Abstract: TEAD4 is a transcription factor that plays a crucial role in the Hippo pathway by regulating the expression of genes related to proliferation and apoptosis. It is also involved in the maintenance and differentiation of the trophectoderm during pre- and post-implantation embryonic development. An alternative promoter for the TEAD4 gene was identified through epigenetic profile analysis, and a new transcript from the intronic region of TEAD4 was discovered using the 5’RACE method. The transcript of the novel pro… Show more

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The role of TEAD4 in trophectoderm commitment and development is not conserved in non-rodent mammals

Pérez-Gómez,

González-Brusi,

Flores-Borobia

et al. 2024

Development

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The first lineage differentiation in mammals gives rise to the inner cell mass (ICM) and the trophectoderm (TE). In mice, TEAD4 is a master regulation of TE commitment, as it regulates the expression of other TE-specific genes and its ablation prevents blastocyst formation, but its role in other mammals remains unclear. Herein, we have observed that TEAD4 ablation in two phylogenetically distant species (bovine and rabbits) does not impede TE differentiation, blastocyst formation and the expression of TE markers such as GATA3 and CDX2, although a reduced ICM cell number was observed in bovine TEAD4 KO blastocysts. Transcriptional analysis in bovine blastocysts revealed no major transcriptional effect of the ablation, although the expression of hypoblast and Hippo signalling-related genes tended to be decreased in KO embryos. Experiments were conducted in the bovine model to determine if TEAD4 was required for post-hatching development. TEAD4 KO spherical conceptuses showed normal development of the embryonic disc and TE, but hypoblast migration rate was reduced. At later stages of development (tubular conceptuses) no differences were observed between KO and WT conceptuses.

show abstract

The role of TEAD4 in trophectoderm commitment and development is not conserved in non-rodent mammals

Pérez-Gómez,

González-Brusi,

Flores-Borobia

et al. 2024

Development

View full text Add to dashboard Cite

show abstract

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Integrative Epigenetic and Molecular Analysis Reveals a Novel Promoter for a New Isoform of the Transcription Factor TEAD4

Cited by 1 publication

References 43 publications

The role of TEAD4 in trophectoderm commitment and development is not conserved in non-rodent mammals

The role of TEAD4 in trophectoderm commitment and development is not conserved in non-rodent mammals

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