SubsidieMeestersPropagation of cellular memory through dormancy
DOR-CODE aims to uncover the genomic mechanisms of embryonic dormancy to enhance understanding of cellular identity propagation and improve embryo preservation techniques.
Projectdetails
Introduction
Decades of work established the importance of dormant cells in reproduction and regeneration. However, a central unsolved question is how the cell propagates transcriptional memory and cellular identity through dormancy. Current approaches tend to characterize dormancy as a binary on-off switch. In contrast, a highly coordinated and precisely timed set of events are needed to successfully transition cells into dormancy, to maintain dormancy, and to exit it.
Project Overview
In DOR-CODE, I will leverage the latest gene editing and genome profiling tools on an inducible and reversible embryonic dormancy model that I spearheaded (Bulut-Karslioglu et al, 2016, van der Weijden et al, 2022) to discover the genomic basis of dormancy. My mission is to reveal the temporal regulatory code of dormancy - ‘DOR-CODE’ - without which cellular identity cannot be propagated through time.
Epigenomic Landscape
Recent work by us and others has started to reveal the epigenomic landscape of dormancy: a highly repressed state with elevated DNA and histone methylation and decreased transcriptional output. Cellular strategies to counteract this overall repressive state at regulatory sites at the correct times are key for the retention of developmental potential.
Objectives
Here, I will identify DNA and histone demethylation strategies to propagate transcriptional memory at key regulatory elements (Objectives 1&2) and connect locus-specific regulation (Objectives 1&2) to genome macro-organization (Objective 3). By building direct links between anabolic growth and genome regulation, I will demonstrate how timely gene reactivation is ensured to enable exit from dormancy.
Expected Outcomes
The conceptual leap and mechanistic insights resulting from DOR-CODE will:
- Enhance our knowledge of embryonic dormancy and lay the foundation for better in vitro embryo preservation.
- Bring a fresh perspective to related systems such as regeneration, longevity, and cancer dormancy.
- Fuel the research in my lab for decades to come.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 1.488.750 |
| Totale projectbegroting | € 1.488.750 |
Tijdlijn
| Startdatum | 1-1-2024 |
| Einddatum | 31-12-2028 |
| Subsidiejaar | 2024 |
Partners & Locaties
Projectpartners
- MAX-PLANCK-GESELLSCHAFT ZUR FORDERUNG DER WISSENSCHAFTEN EVpenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
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|---|---|---|---|---|
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Engineering cancer dormancy as a collective emergent phenomenon: from matrix-enabled dormancy to collective dormancy-on-a-chip
DORMATRIX aims to engineer breast cancer dormancy as a collective emergent phenomenon using biomaterials-based devices to delay or prevent metastatic growth through advanced modeling and imaging.
Uncovering the role and regulation of 3D DNA-RNA nuclear dynamics in controlling cell fate decisions
This project aims to elucidate the interplay between 3D genome organization and transcriptome dynamics in early mouse embryos to identify factors influencing cell fate decisions.
Temporal dependence of enhancer function
This project aims to uncover how the timing of enhancer-promoter interactions influences gene activation during vertebrate development, utilizing advanced genomic and single-cell techniques.
Molecular mechanisms through which oocytes evade ageing
This project aims to uncover the molecular mechanisms that allow dormant oocytes to maintain cellular fitness and how these mechanisms fail with age, enhancing understanding of female fertility and ageing.
Epigenetic and transcriptional basis of memory engram plasticity
This project aims to uncover the epigenetic and transcriptional mechanisms of memory engram cells during consolidation and retrieval using advanced genomics and functional analysis techniques.