Stem Cell Epigenomics

Research group

The Stem Cell Epigenomics group of Jo Zhou investigates stem cell fate, proliferation, and differentiation to understand human development and disease. The group is part of RIMLS-Science.

Research focus

We currently focus on investigating cell fate control mechanisms of human epithelial stem cells, their derived in vitro model models and their translational potential including drug discovery and tissue regeneration. We apply (single-cell) multi-omics and computational integrative analyses on human pluripotent stem cells and adult stem cells, to identify key transcription factors that drive cell fates and their regulatory mechanisms in the epigenetic and the chromatin landscape.

These studies provide molecular insights into cell differentiation, normal development and disease mechanisms. With these insights, we manipulate the cell fates for cell therapy and tissue regeneration, and identify therapeutic strategies.

Epidermal cell fate in skin development and disease

Molecular mechanisms driving epidermal keratinocyte commitment and terminal differentiation.
Molecular mechanisms of skin diseases
Optimisation of in vitro skin models.

Corneal development and disease

Molecular mechanisms driving corneal cell fates
Molecular mechanisms of corneal diseases
Therapeutic discoveries for corneal diseases including compounds and cell therapy

News

STEM-CORE: New EU programme to train the next-generation eye therapy experts

30 September 2025 Research news item

A new European research and training doctoral network, STEM-CORE, has been awarded funding. STEM-CORE brings together an international and cross-sectoral team to train the next generation of researchers, focusing on corneal disease.

Hereditary eye disease treated with investigational gene therapy

Single-cell technology helps researchers advance personalized corneal treatments

28 June 2024 Research news item

Researchers from Radboud University and Tampere University (Finland) have made a significant step forward towards creating effective personalized therapy for corneal damage using Single-cell RNA sequencing.

Unlocking Skin's Secret Defender: AHR's Role in Barrier Formation

14 March 2024 Research news item

AHR plays a key role in skin health by activating TFAP2A, essential for skin barrier integrity. Researchers used advanced techniques to demonstrate this mechanism, with implications for treating skin barrier disorders.

About the Integrative Parasitology group

Click on one of the links below for more information about this research group or contact one of the members of this group.

People

Principal Investigator
Jo Zhou

Postdoc
Dulce Lima Cunha

PhD students
Julian Arts
Luca Meesters
Felicitas Pardow

Technician
Yavuz Kilic

Projects

STEM-CORE: Stem Cell Therapy Development for Corneal Epithelium Regeneration (2025-now).
CorneaRegID: Cornea regeneration instructed by molecular cell identity characterisation (2021-2026) ZonMw Open (09120012010039) (2021-2026).
Velux Stiftung Ophthalmology project (2021-2023). Autologous cornea regeneration through non-integrative transdifferentiation.
European Joint Program Rare Disease (EJP RD) Joint transnational Call (JTC2020) (2021-2024)
Health Holland PPP program Human measurement models (2020-2024)
International consortium: COST Action: ANIRIDIA-NET, CA18116

Publications

Identification of the regulatory circuit governing corneal epithelial fate determination and disease. Smits JGA, Cunha DL, Amini M, Bertolin M, Laberthonnière C, Qu J, Owen N, Latta L, Seitz B, Roux LN, Stachon T, Ferrari S, Moosajee M, Aberdam D, Szentmary N, van Heeringen SJ, Zhou H. PLoS Biol. 2023 Oct 19;21(10):e3002336. Full text
Single-Cell RNA Sequencing: Opportunities and Challenges for Studies on Corneal Biology in Health and Disease. Arts JA, Laberthonnière C, Lima Cunha D, Zhou H. Cells 2023, 12(13), 1808; Full text
scANANSE gene regulatory network and motif analysis of single-cell clusters. Smits JGA, Arts JA, Frölich S, Snabel RR, Heuts BMH, Martens JHA, van Heeringen SJ, Zhou H. F1000Research 2023, 12:243 Full text
ANANSE: An enhancer network-based computational approach for predicting key transcription factors in cell fate determination. Xu Q, Georgiou G, Frölich S, van der Sande M, Veenstra GJC, Zhou H#, van Heeringen SJ#. Nucleic Acids Research. 2021; 49(14):7966-7985. Full text
Single-cell RNA-seq identifies a reversible mesodermal activation in abnormally specified epithelia of p63 EEC syndrome. Soares E, Xu Q, Li Q, Qu J, Zheng Y, Raeven HHM, Brandao KO, Petit I, van den Akker WMR, van Heeringen SJ, Aberdam D, Tang F, Zhou H. Proc Natl Acad Sci U S A. 2019 116 (35):17361-17370. Full text

About Jo Zhou

Jo Zhou is a curious and dedicated stem cell biologist focused on understanding how cells make the decisions that shape human development and disease. Combining experimental and computational approaches, Jo studies the molecular mechanisms underlying stem cell fate, proliferation, and differentiation. The research applies single-cell multiomics and human organotypic models to uncover new insights into gene regulation and to inform strategies for tissue regeneration and therapy.

Go to Jo Zhou's profile page

Contact information

Interested in our research or would you like to join our group? Please get in touch with Vesna Andonov.

vesna.andonov@ru.nl +31 24 361 05 23

Postal address

Postbus 9101
6500HB NIJMEGEN