The German Research Foundation (DFG) funds continuation of Research Training Group (RTG) 2727 “Checkpoints of Innate Immunity in Cancer and Tissue Damage”, with around €5,8 million.

Which cellular processes ensure that immune responses are controlled precisely? A new study by the Institute of Cell Biology and Immunology Thurgau (BITG) and the University of Konstanz decodes a decisive signalling pathway.

How do antimetabolite cancer drugs damage the genetic material of malignantly transformed cells and thereby destroy them? How might these drugs be used more precisely, particularly in the treatment of pediatric tumors? A new research group led by Dr. Christopher Carnie, a scientist at the Heidelberg Faculty of Medicine at Heidelberg University, will address these questions.

Cancer prevention with a single jab - 20/05/2026

Therapeutic vaccine against HPV-induced tumours

Persistent infections with human papillomaviruses (HPV) are the primary cause of cervical cancer. Researchers from Heidelberg have developed a promising therapeutic vaccine consisting of immunogenic virus peptides linked to silica nanoparticles, which is currently being investigated in preclinical studies. The vaccine activates specific cytotoxic T cells and is usable regardless of HLA type.

Research jointly led by scientists at the Heidelberg site of the German Center for Lung Research and investigators in Boston at Massachusetts General Hospital and Harvard Medical School identifies a new immunotherapy-based approach for lung fibrosis: reactivating natural killer cell (NK cells) to eliminate senescent fibroblasts, reverse scarring and restore the lung’s ability to heal.

The Collaborative Research Centre (CRC) 1550 “Molecular Circuits of Heart Disease” at Heidelberg University is entering its second funding period. The German Research Foundation (DFG) has approved approximately EUR 17.4 million in funding for the next four years. The spokesperson is Johannes Backs, Professor of Experimental Cardiology at the Heidelberg Faculty of Medicine.

From May 15–16, 2026, the 3rd International Symposium “Frontiers in Skin Immunity” will bring leading experts in dermatology and immunology to Heidelberg. Organized by the SFB Transregio 156 “The Skin as Sensor and Initiator of Local and Systemic Immunity” and the Medical Faculty of Heidelberg University the meeting highlights advances in understanding skin immune responses and marks the conclusion of the consortium’s third funding period.

Brain metastases are among the most serious complications of breast cancer. Researchers at Heidelberg University, DKFZ, and UKHD have concluded an investigation of the immune cells in the brain tissue surrounding these breast cancer brain metastases. Their findings: spatial distribution patterns of immune cells are associated with prolonged patient survival. These findings could help to guide use of immunotherapies for breast cancer patients.

Chronic infections cause long-term changes in key immune cells. T helper cells suppress their immune function to ensure their survival. New targets for vaccines and cancer immunotherapies.

Researchers in Freiburg have found a way to selectively replace defective immune cells in the blood vessels of the brain using an animal model. This is an important first step towards cell therapies for Alzheimer’s disease and other brain disorders. The findings were recently published in the journal Nature Immunology.

For the first time, researchers have succeeded in mapping the organization of immune cells in human lymph nodes. The study was led by scientists from Heinrich Heine University Düsseldorf, Düsseldorf University Hospital, the DKFZ, the European Molecular Biology Laboratory (EMBL), and the Max Delbrück Center (MDC) in Berlin. They were able to demonstrate why the architecture of healthy lymph nodes is altered in malignant lymphomas.

Traumatic brain injuries often lead to complications with long-lasting consequences on memory, concentration and movement control. Detrimental secondary inflammatory reactions at the injured tissue sites are often responsible for this. Researchers from Ulm have now shown that a transcription factor plays a key role in reactions to TBI. When this gene regulator is activated, an elevated neuroimmune response promotes inflammation.

Technology impulse for the Lake Constance region: The new Single Cell Centre at the University of Konstanz offers technology and expertise to study cells individually and at high resolution – for applications in medical diagnostics, medication development and basic research at universities.

A severe side effect of radiation therapy can be debilitating fibrotic skin damage. Scientists at the German Cancer Research Center (DKFZ) have now identified a key factor in the development of this radiation damage. Modulating this factor could potentially prevent this severe adverse effect.

Alithea Biotechnology GmbH - 12/02/2026

Intelligent immunotherapy – safety ensured

Immunological cell fingerprints are Alithea Bio’s core expertise. The Freiburg-based company combines advanced molecular biology with cutting-edge IT and operates one of the world’s largest immunopeptidomics databases. Alithea Bio leverages this integrated platform to offer both contract research services and software-as-a-service solutions to develop safer and more precise personalised immunotherapies more quickly.

Inflammation has to work fast against pathogens—but it can't get out of control. Researchers at the German Cancer Research Center (DKFZ) have now deciphered in more detail how the organism masters this balancing act. Their work shows that cells use two different strategies to precisely control inflammatory genes and thus precisely regulate the inflammatory response.

Can the weakened immune systems of older individuals be rejuvenated? Researchers from the DKFZ, HI-STEM*, and the Broad Institute have demonstrated that this is possible with an innovative approach. In a study, the team showed that mRNA technology can be used to transform the liver in mice into a temporary source of important immune regulatory factors that are naturally lost during aging.

It has only recently become known that two parallel systems of blood formation exist in the body. Researchers at the DKFZ have developed a method to examine both systems separately in mice for the first time. Their surprising finding: the majority of immune cells do not originate from classic blood stem cells in the bone marrow, but from precursor cells that are independent of blood stem cells and are already present in the embryo.

Physician and cancer researcher Mirco Julian Friedrich from the German Cancer Research Center (DKFZ), the stem cell research institute HI-STEM*, and Heidelberg University Hospital (UKHD) has received two awards for two independent research projects: his novel approach to preventing liver metastases and his research on T cells, which he modifies to better protect them from attacks by natural killer cells.

The Federal Ministry of Research, Technology and Space (BMFTR) is supporting the “Sleep-Neuro-Path” research network with around 1.6 million euros. Coordinated by the Central Institute of Mental Health (CIMH) in Mannheim, a team of scientists is investigating the role of sleep-related biomarkers in the development of myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS).

Human immunodeficiency viruses (HIV) are insidious. They can evade the immune defence and antiviral drugs by becoming "latent". In this state, they are largely invisible and unassailable. As long as these dormant viruses persist, there is no cure for HIV/AIDS. However, researchers at Ulm University Hospital have discovered a new way to reactivate latent HI viruses.

FOXP1 syndrome is a congenital disorder in which the brain development of affected children is severely impaired due to a genetic variant. A research team from the Medical Faculty Heidelberg at Heidelberg University has now demonstrated in mice, that the inhibition of a specific enzyme in the brain can improve abnormal behavior and immune cell dysfunction in the brain. The results have been published in the journal Advanced Science.

Stem cell-like leukemia cells are responsible for relapses in children and adolescents with a certain type of blood cancer, T-ALL. Researchers at the Hopp Children's Cancer Center Heidelberg (KiTZ), the Molecular Medicine Partnership Unit and the German Cancer Research Center were able to show this in a study. The results could help to overcome resistance in this form of blood cancer and prevent relapses.

Researchers from the Max Planck Institute of Immunobiology and Epigenetics in Freiburg and ETH Zürich have created the first integrated map detailing the metabolic and molecular changes in human blood stem cells as they age, specialize, or turn cancerous. Their innovative research, made possible by highly sensitive low-input techniques, identifies the nutrient choline, as a key player in preserving youthful stem cell traits.

Scientists have been working on the artificial production of blood for several decades. Making a new discovery, researchers from the Institute for Cellular Biology and Immunology Thurgau at the University of Konstanz, in collaboration with Queen Mary University of London, have come an important step closer to this goal.