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11/18/2025 15:29

New findings on the development of blood cancer

Veronika Wagner M.A. Unternehmenskommunikation
Universitätsmedizin der Johannes Gutenberg-Universität Mainz

Blood cancers such as leukemia are caused by genetic changes in the blood-forming stem cells of the bone marrow. Scientists at the University Medical Center Mainz have now shown how chronic inflammation can alter the bone marrow in people with age-related blood stem cell mutations at very early stages of the disease, thereby promoting its development. They found that the interaction of inflammatory tissue stem cells and certain immune cells triggers self-reinforcing inflammatory processes in the microenvironment of the bone marrow, which impair normal blood formation.

The findings, published today in the renowned journal Nature Communications, could form the basis for the development of novel therapies for the early treatment of blood cancer.

Every second, human bone marrow produces several million new blood and immune cells. This continuous cell renewal is based on the interaction between blood-forming (hematopoietic) stem cells, or HSCs for short, supporting connective tissue cells (stromal cells), and molecules or cells that control the immune system (immune regulators). The microenvironment of the bone marrow, also known as the bone marrow microenvironment, is essential for the formation of blood cells. It enables the exchange of signals between cells and thus influences the growth of both healthy and genetically altered, potentially disease-causing cells. Despite its great importance for blood formation, little is known about how the microenvironment of the bone marrow contributes to the development of blood cancers.

An international research team led by Dr. Borhane Guezguez, working group leader at the Department of Internal Medicine III of the University Medical Center Mainz, and Dr. Judith Zaugg, working group leader at the European Molecular Biology Laboratory (EMBL) in Heidelberg and professor at Basel University, has now discovered that chronic inflammatory processes in people with blood stem cell mutations can lead to cellular changes in the bone marrow microenvironment long before disease symptoms appear.

The scientists examined the microenvironment of the bone marrow of subjects with specific genetic changes in their hematopoietic stem cells: Clonal hematopoiesis of indeterminate potential (CHIP) can develop as part of the aging process and occurs in about 10 to 20 percent of people over the age of 60 and in almost 30 percent of people over the age of 80. Although CHIP is asymptomatic, it increases the risk of blood cancer tenfold, doubles the risk of cardiovascular disease, and is associated with increased mortality. Myelodysplastic syndromes (MDS) are a group of disorders characterized by impaired blood cell production and progressive bone marrow failure. MDS also occurs primarily in older age groups – up to 20 out of 100,000 people over the age of 70 are affected. In up to 30 percent of cases, MDS develops into acute myeloid leukemia (AML), an aggressive and often fatal form of blood cancer.

In the microenvironment of the bone marrow of subjects with CHIP and MDS, the researchers discovered a group of inflammatory connective tissue stem cells (inflammatory mesenchymal stromal cells) that displaced the normal connective tissue stem cells in the bone marrow. Unlike healthy stromal cells, the inflammatory cells released large amounts of signaling molecules that attract and activate certain immune cells that respond to the body's own protein interferon, a component of the immune system. These interferon-responsive T cells further intensified the inflammatory processes and disrupted normal blood formation.

“Our research shows that the microenvironment of the bone marrow actively influences the earliest stages of blood cancer development,” emphasizes Dr. Guezguez, last author of the recently published study. "Thanks to advances in genetic analysis, we can detect precursors of blood cancers years before symptoms appear. Our new findings on the interactions between stromal and immune cells could therefore form the basis for preventive therapies for CHIP or MDS that target the bone marrow microenvironment and prevent the disease from progressing before leukemia develops. The distinct molecular signatures of inflammatory mesenchymal stromal cells and interferon-responsive T cells could also serve as biomarkers to identify at-risk individuals long before clinical symptoms appear," explains Dr. Guezguez.

According to the scientists, the research contributes to a better understanding of so-called inflammaging, a chronic, mild inflammation that underlies many age-related diseases – from cancer to cardiovascular and metabolic diseases.

The study was conducted in collaboration with the European Molecular Biology Laboratory (EMBL) in Heidelberg, the Carl Gustav Carus University Hospital in Dresden, the Karolinska Institute in Sweden, the Sorbonne University and partner institutions of the German Consortium for Translational Cancer Research (DKTK), such as the German Cancer Research Center (DKFZ) and the National Center for Tumor Diseases (NCT) in Dresden, and funded by the DKTK-CHOICE program, the European Research Council (ERC), and the José Carreras Leukemia Foundation.

Original publication:
Prummel KD, Woods K, Kholmatov M, Schmitt EC, Vlachou EP, Labyadh M, Wehner R, Poschmann G, Stühler K, Winter S, Oelschlaegel U, Wobus M, Schwartz LS, Moura PL, Hellström-Lindberg E, Rajalingam K, Theobald M, Trowbridge JJ, Carron C, Jaffredo T, Schmitz M, Platzbecker U, Zaugg JB, Guezguez B. Inflammatory stromal and T cells mediate human bone marrow niche remodeling in clonal hematopoiesis and myelodysplasia. Nature Communications (2025).
DOI: https://doi.org/10.1038/s41467-025-65803-y

 
Contact:
Dr. Borhane Guezguez
Department of Internal Medicine III
University Medical Center Mainz
phone +49 (0)6131 17-9784
email bguezgue@uni-mainz.de

Media contact:
Veronika Wagner M. A.
Corporate Communications
University Medical Center Mainz
phone +49 (0)6131 17-8391
email pr@unimedizin-mainz.de

About the University Medical Center of the Johannes Gutenberg University Mainz
The University Medical Center of the Johannes Gutenberg University Mainz is the only medical institution of supra-maximum supply in the German state of Rhineland-Palatinate and an internationally recognized science location. Medical and scientific specialists at more than 60 clinics, institutes and departments work interdisciplinarily to treat around 403,000 patients per year. Highly specialized patient care, research and teaching are inseparably intertwined. Around 3,700 medicine and dentistry students as well as around 590 future medical, commercial and technical professionals are trained in Mainz. With a workforce of approximately 9,000 colleagues the University Medical Center Mainz is one of the largest employers in the region and an important driver of growth and innovation. Find more information online at https://www.unimedizin-mainz.de

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Contact for scientific information:

Dr. Borhane Guezguez
Department of Internal Medicine III
University Medical Center Mainz
phone +49 (0)6131 17-9784
email bguezgue@uni-mainz.de

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Original publication:

Original publication:
Prummel KD, Woods K, Kholmatov M, Schmitt EC, Vlachou EP, Labyadh M, Wehner R, Poschmann G, Stühler K, Winter S, Oelschlaegel U, Wobus M, Schwartz LS, Moura PL, Hellström-Lindberg E, Rajalingam K, Theobald M, Trowbridge JJ, Carron C, Jaffredo T, Schmitz M, Platzbecker U, Zaugg JB, Guezguez B. Inflammatory stromal and T cells mediate human bone marrow niche remodeling in clonal hematopoiesis and myelodysplasia. Nature Communications (2025).
DOI: https://doi.org/10.1038/s41467-025-65803-y

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Journalists, Scientists and scholars, Students, all interested persons
Biology, Medicine, Nutrition / healthcare / nursing
transregional, national
Research results, Scientific Publications
English

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