Brachyury Co-operates with Polycomb Protein RYBP to Regulate Gastrulation and Axial Elongation

Overview

Journal Front Cell Dev Biol

Specialty Cell Biology

Date 2024 Dec 16

PMID 39676794

Authors

Lilla Kokity

Zsolt Czimmerer

Bernadett Benyhe-Kis

Anna Poscher

Emese Belai

Gabor Steinbach

Zoltan Lipinszki

Melinda Katalin Pirity

Affiliations

Soon will be listed here.

Abstract

Early embryonic development is a complex process where undifferentiated cells lose their pluripotency and start to gastrulate. During gastrulation, three germ layers form, giving rise to different cell lineages and organs. This process is regulated by transcription factors and epigenetic regulators, including non-canonical polycomb repressive complex 1s (ncPRC1s). Previously, we reported that ncPRC1-member RYBP (RING1 and YY1 binding protein) is crucial for embryonic implantation and cardiac lineage commitment in mice. However, the role of RYBP in gastrulation and mesoderm formation has not yet been defined. In this study, we used 2D and 3D model systems, to analyze the role of RYBP in mesoderm formation. First, we showed that cardiac and endothelial progenitors-both derived from mesoderm-are underrepresented in the cardiac colonies. In the absence of RYBP, the formation of major germ layers was also disrupted, and the expression of mesoderm- ( and ) and endoderm-specific (, ) genes was significantly downregulated. Using 3D embryoid bodies as gastrulation models, we showed that RYBP can co-localize with mesoderm lineage marker protein BRACHYURY and endoderm marker protein GATA4 and both proteins. In mutants, both proteins were detected at low levels and showed altered distribution. Additionally, we compared our results to available single-cell transcriptomes and showed that and co-expressed in the primitive streak and six mesodermal clusters. Since caudal mesoderm exhibited one of the strongest co-expressions, we tested axial elongation in and gastruloids. In the absence of RYBP, gastruloids exhibited shortened tails and low BRACHYURY levels in the tailbud. Finally, we identified BRACHYURY as a novel binding partner of RYBP and presented evidence of possible cooperative function during mesoderm formation and axial elongation. Together, our results demonstrate the previously unknown role of RYBP in mesoderm formation. We believe our findings will contribute to better understanding of the highly conserved process of gastrulation.

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