Project Details
Projekt Print View

TRR 81:  Chromatin Changes in Differentiation and Malignancies

Subject Area Biology
Term from 2010 to 2022
Website Homepage
Project identifier Deutsche Forschungsgemeinschaft (DFG) - Project number 109546710
 
Differentiation of cells during normal development and disease is governed by changes to chromatin structure that manifest at several levels to determine gene activity. At a more local level, genes are embedded in active or repressive chromatin structures. Changes between these states are modulated by DNA binding transcription factors recruiting histone modifying and nucleosome remodelling enzymes to chromatin. At a more global level, structural proteins drive chromatin folding and loop formation and establish chromosomal contacts to regulate larger genomic regions. Local and global chromatin regulation are tightly interconnected.The TRR81 has made substantial progress in our understanding of how pathways transmitting developmental signals interface with histone modifying enzymes to change chromatin structure during muscle and neuronal differentiation. We unraveled molecular functions of chromatin remodellers in diverse developmental contexts, including heart development and spermatogenesis. In addition, factors and mechanisms driving chromosome conformation, topologically associated domains and enhancer-promoter-interactions, were uncovered in different cell systems. Finally, our understanding of the molecular mechanisms underlying global chromatin compaction during X-chromosome inactivation and spermatogenesis has been significantly advanced.The focus of this extension application is the utilization of new and refined methods allowing “Chromatin Changes in Differentiation and Malignancies” to be addressed at unprecedented levels of detail. Among these are the development of small molecules to modulate chromatin regulators, improved CRISPR methods to precisely change genomic DNA and targeting of chromatin regulators to specific genomic loci. Novel sequencing approaches have been introduced, some of which invented by TRR81 members, to probe chromatin contacts over large distances. Sensitivity and resolution of key techniques have been dramatically improved such that analyses of the epigenomes of small numbers or even single cells have become possible. Finally, super resolution microscopy is continuously being refined by the TRR81.One of the strengths of the TRR81 is to apply these techniques to multiple, complementary models to investigate normal and pathological mechanisms that lead to chromatin changes. The differentiation models include spermatogenesis, immune cells and their activation by signalling, hematopoietic stem cells and their differentiation, ES cells and cell lines that allow differentiation towards neural and muscle lineages, cerebral organoid cultures and cancer cells. Disease models include tumor formation, neurodevelopmental syndromes, inflammation, muscle dystrophy and hemoglobinopathies. The TRR81 projects proposed will advance our understanding of epigenetic mechanisms underlying differentiation in healthy and in diseased cells and will provide the basis for the future development of novel therapeutic approaches.
DFG Programme CRC/Transregios
International Connection Netherlands

Completed projects

Applicant Institution Philipps-Universität Marburg
Spokesperson Professor Dr. Alexander Brehm, since 7/2016
 
 

Additional Information

Textvergrößerung und Kontrastanpassung