Vanessa Disela scite author profile

Vanessa Disela

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The Hox transcription factor Ubx stabilizes lineage commitment by suppressing cellular plasticity in Drosophila

Domsch¹,

Carnesecchi²,

Disela³

et al. 2019

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During development cells become restricted in their differentiation potential by repressing alternative cell fates, and the Polycomb complex plays a crucial role in this process. However, how alternative fate genes are lineage-specifically silenced is unclear. We studied Ultrabithorax (Ubx), a multi-lineage transcription factor of the Hox class, in two tissue lineages using sorted nuclei and interfered with Ubx in mesodermal cells. We find that depletion of Ubx leads to the de-repression of genes normally expressed in other lineages. Ubx silences expression of alternative fate genes by retaining the Polycomb Group protein Pleiohomeotic at Ubx targeted genomic regions, thereby stabilizing repressive chromatin marks in a lineage-dependent manner. Our study demonstrates that Ubx stabilizes lineage choice by suppressing the multipotency encoded in the genome via its interaction with Pho. This mechanism may explain why the Hox code is maintained throughout the lifecycle, since it could set a block to transdifferentiation in adult cells.

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The Hox Transcription Factor Ubx stabilizes Lineage Commitment by Suppressing Cellular Plasticity

Domsch¹,

Carnesecchi²,

Disela³

et al. 2018

Preprint

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During development cells become gradually restricted in their differentiation potential by the repression of alternative cell fates. While we know that the Polycomb complex plays a crucial role in this process, it still remains unclear how alternative fate genes are specifically targeted for silencing in different cell lineages. We address this question by studying Ultrabithorax (Ubx), a multi-lineage transcription factor (TF) of the Hox class, in the mesodermal and neuronal lineages using sorted nuclei of Drosophila embryos and by interfering with Ubx in mesodermal cells that have already initiated differentiation. We find that Ubx is a key regulator of lineage development, as its mesoderm-specific depletion leads to the de-repression of many genes normally expressed in other lineages. Ubx silences expression of alternative fate genes by interacting with and retaining the Polycomb Group (PcG) protein Pleiohomeotic (Pho) at Ubx targeted genomic regions, thereby setting repressive chromatin marks in a lineage-dependent manner. In sum, our study demonstrates that Ubx stabilizes lineage choice by suppressing the multi-potency encoded in the genome in a lineage-specific manner via its interaction with Pho. This mechanism may explain why the Hox code is maintained throughout the lifecycle, since it seems to set a block to transdifferentiation in many adult cells.

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Author response: The Hox transcription factor Ubx stabilizes lineage commitment by suppressing cellular plasticity in Drosophila

Domsch¹,

Carnesecchi²,

Disela³

et al. 2019

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Vanessa Disela

The Hox transcription factor Ubx stabilizes lineage commitment by suppressing cellular plasticity in Drosophila

The Hox Transcription Factor Ubx stabilizes Lineage Commitment by Suppressing Cellular Plasticity

Author response: The Hox transcription factor Ubx stabilizes lineage commitment by suppressing cellular plasticity in Drosophila

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