In a landmark clinical study just published in Nature Communications, researchers from the Luxembourg Institute of Health (LIH), the Luxembourg Centre for Systems Biomedicine (LCSB) of the University of Luxembourg, the Allergy Center Wiesbaden, Ulm University Hospital and Vrije Universiteit Brussels and UZ Brussel revealed the early immune mechanisms behind the exceptional success of insect venom immunotherapy. The study identified early molecular and cellular changes already at 8 hours immediately following the first immunotherapy administrations, changes that will pave the way for curative immune tolerance. Overall it provides novel insights that could revolutionise allergy treatment and improve outcomes for millions suffering from chronic immune disorders.
Allergic diseases are rapidly increasing globally, becoming the most common chronic immune-mediated conditions, largely driven by modern lifestyle factors and environmental influences. While allergen-specific immunotherapy (AIT) is the only available treatment that can potentially cure certain allergies, its effectiveness varies greatly among various forms of allergies. Insect venom allergies—such as those caused by bee or wasp stings—are the exception, with AIT offering clinical cure rates exceeding 90-95%.
A new study by the Luxembourg Institute of Health (LIH), in collaboration with the Centre Hospitalier de Luxembourg (CHL), the Allergy Center Wiesbaden, Ulm University Hospital and the Vrije Universiteit Brussels and UZ Brussel, shed light on the early immune mechanisms that underpin this remarkably successful therapy. By exploring how the immune system develops long-term tolerance to insect venom, the clinical research study identified key molecular and cellular switches that occur in the early stages of treatment, providing hope for improving AIT against other allergic diseases, where AIT is less successful, and contributing to the broader effort to combat the global allergy epidemic.
The study involved over 200 blood samples from patients recruited and treated at CHL by a team of allergy specialists, which then underwent detailed analysis at LIH’s Department of Infection and Immunity (DII), the Integrated BioBank of Luxembourg (IBBL), and the Luxembourg Centre for Systems Biomedicine (LCSB). This represents the deepest and most comprehensive data analysis ever performed in patients with insect sting allergy, which affects roughly 2.6%-4% of the population in Europe and worldwide—approximately 13-20 million people across the EU and UK—who are at risk of a fatal outcome from an insect sting if not treated by insect venom AIT. International collaborators from the VUB university hospital UZ Brussel in Brussels and Allergy Centre Wiesbaden in Germany provided additional expertise, ensuring a thorough and wide-reaching investigation.
The research also highlighted the importance of B regulatory cells (Bregs) very early during AIT, which are vital by producing IL-10 for maintaining immune system balance in many diseases. Additionally, the study identified specific hybrid plastic immune cells that combine features of several well-known classical immune subsets. These hybrid cells play a key role in bridging the innate and adaptive immune responses, facilitating the immune system’s transition to tolerance. The discovery of these flexible immune cells offers new insights into the “molecular magic” behind insect venom AIT.
In addition to its scientific contributions, the study has practical implications. It demonstrates the necessity of considering circadian rhythms when designing clinical studies, as immune responses fluctuate throughout the day. The findings have also inspired the creation of an interactive immune data platform that is directly linked to the publication and allows researchers worldwide to explore the study’s results and use them as a foundation for further research.
The study was published in the renowned journal Nature Communications under the full title: “Multiomics approaches disclose very-early molecular and cellular switches during insect-venom allergen-specific immunotherapy: an observational study.”
Funding and collaborations
This study, registered in ClinicalTrials.gov, was conducted in collaboration with the Centre Hospitalier de Luxembourg (CHL), where patients were recruited and treated by allergy specialists following standard clinical protocols. Immune profiling and sample analysis were performed by LIH’s Department of Infection and Immunity (DII) and the Integrated Biobank of Luxembourg (IBBL), with data analysis supported by international partners including EMBL Heidelberg and the Luxembourg Centre for Systems Biomedicine (LCSB). Contributions from clinical laboratories in Belgium and Germany enabled the processing of thousands of allergen-specific antibody tests, demonstrating a multidisciplinary approach.
Funding and collaboration support were provided by the Luxembourg Personalized Medicine Consortium (PMC), Luxembourg National Research Fund (FNR) programs (PRIDE, AFR, CORE), European Academy of Allergy and Clinical Immunology (EAACI) long-term fellowship, Horizon Europe project COMMUTE, the European Research Council (ERC) under Horizon 2020, the HPC Bridges programme, the Luxembourg Government’s CoVaLux programme, and Action Lions Vaincre le Cancer.
About the Luxembourg Institute of Health (LIH)
The Luxembourg Institute of Health (LIH) is a public biomedical research organisation focused on precision health and invested in becoming a leading reference in Europe for the translation of scientific excellence into meaningful benefits for patients.
The LIH places the patient at the heart of all its activities, driven by a collective obligation towards society to use knowledge and technology arising from research on patient derived data to have a direct impact on people’s health. Its dedicated teams of multidisciplinary researchers strive for excellence, generating relevant knowledge linked to immune related diseases and cancer.
The institute embraces collaborations, disruptive technology and process innovation as unique opportunities to improve the application of diagnostics and therapeutics with the long-term goal of preventing disease.
About the LCSB
The Luxembourg Centre for Systems Biomedicine (LCSB) is an interdisciplinary research centre at the University of Luxembourg. Its 250 staff members combine their expertise in a broad spectrum of disciplines – from computational biology to clinical and experimental neuroscience – to study the brain and its diseases. Research at the LCSB focuses on neurodegenerative disorders such as Alzheimer’s or Parkinson’s. Collaboration between biologists, medical and computer scientists, physicists, engineers as well as mathematicians offers new insights into complex biological mechanisms and disease processes, with the aim of developing new tools for diagnostics, prevention, and therapy.
The LCSB has established strategic partnerships with scientific partners worldwide and with all major biomedical research units in Luxembourg. The centre also carries out collaborative projects with hospitals and research-oriented companies, accelerating the translation of fundamental research results into clinical applications, for the benefit of patients.
About the Centre Hospitalier de Luxembourg
A state-of-the-art hospital with 581 beds and a national reference centre for many disciplines, the Centre Hospitalier de Luxembourg (CHL) provides innovative diagnostic and treatment services that meet internationally recognised quality standards accredited by the Joint Commission International (JCI), as well as a teaching and research mission as a public institution. www.chl.lu
Scientific contact
Prof. Dr. med. Markus Ollert
Director, Department of Infection and Immunity
Luxembourg Institute of Health
Email: markus.ollert@lih.lu
Press contact
Arnaud D’Agostini
Head of Marketing and Communication
Luxembourg Institute of Health
Tel: +352 26970-524
Email: communication@lih.lu