In this episode of the Epigenetics Podcast, we talked with Dr. Eva Hörmanseder from the HelmholtzZentrum in Munich about her work on epigenetic mechanisms in cellular memory and gene regulation.
In this episode, we delve into the fascinating world of cellular memory and gene regulation with Dr. Eva Hermanns-Eder from the Helmholtz Zentrum in Munich. Her research centers on how cells maintain their identity through the process of mitotic divisions, which is crucial for understanding both development and various diseases. We explore the role of chromatin dynamics and epigenetic modifications in switching genes on and off over time, which has significant implications for fields like cancer biology and regenerative medicine.
The discussion starts with Dr. Hörmanseder's recent studies on epigenetic memories, particularly focusing on the concept of transcriptional memory in nuclear transfer embryos. She explains her work with H3K4 trimethylation, a crucial epigenetic mark associated with active transcription states, detailing experiments that demonstrate the significance of this mark in the context of gene expression during reprogramming. She elaborates on her findings regarding how active genes can remain in a state of transcriptional memory and the implications of such persistence for cellular identity.
We also dive into Dr. Hörmanseder's exploration of how transcription factors and chromatin modifications shape the differentiation success of reprogrammed cells. Through her research, she uncovers that different cell types exhibit varying degrees of plasticity and memory retention, which can lead to disparities in successful differentiation. Her innovative use of single-cell sequencing technology reveals surprising insights into the dynamics of cellular reprogramming, especially when comparing reprogrammed cells to their fertilized counterparts.
References
Hörmanseder E, Simeone A, Allen GE, Bradshaw CR, Figlmüller M, Gurdon J, Jullien J. H3K4 Methylation-Dependent Memory of Somatic Cell Identity Inhibits Reprogramming and Development of Nuclear Transfer Embryos. Cell Stem Cell. 2017 Jul 6;21(1):135-143.e6. doi: 10.1016/j.stem.2017.03.003. Epub 2017 Mar 30. PMID: 28366589; PMCID: PMC5505866.
Zikmund, T., Fiorentino, J., Penfold, C., Stock, M., Shpudeiko, P., Agarwal, G., Langfeld, L., Petrova, K., Peshkin, L., Hamperl, S., Scialdone, A., & Hoermanseder, E. (2025). Differentiation success of reprogrammed cells is heterogeneous in vivo and modulated by somatic cell identity memory. Stem Cell Reports, 102447. https://doi.org/10.1016/j.stemcr.2025.102447
Related Episodes
H3K4me3, SET Proteins, Isw1, and their Role in Transcription (Jane Mellor)
DNA Replication, Transcription and R-loops (Stephan Hamperl)
Inheritance of Transcriptional Memory by Mitotic Bookmarking (Sheila Teves)
Contact
Email: podcast@activemotif.com