New T-FINDER Platform Provides Deep Insights Into T Cell Responses Against Novel Cancer Vaccine
Researchers at the BioMed X Institute and the Universitätsmedizin Mannheim just published the results of their collaboration around a new neoepitope vaccine in diffuse midline glioma in Science Advances.
BioMed X and the Universitätsmedizin Mannheim (UMM) announced today the publication of two manuscripts in the field of cancer immunology in the journal Science Advances. The work is based on a collaboration between both institutions and researchers at the German Cancer Research Center (DKFZ), the Heidelberg University, and the Helmholtz Institute for Translational Oncology (HI-TRON). The main objective of the collaboration was to understand the role of specific T cell responses in a patient with an aggressive subtype of diffuse glioma who showed sustained remission after receiving a neoepitope peptide vaccine at the University Hospital Mannheim.
T cells are critical for maintaining human health by eliminating tumor cells from the body - a process which is driven by the specific interaction of unique receptors on the surface of T cells (T cell receptors or TCRs) to mutant peptides (antigens) on the surface of tumor cells. The identification of such cancer-specific antigens, and the TCRs that bind them, underlies current efforts to develop targeted cancer therapies. Until now, functionally robust high-throughput approaches to this challenge were lacking.
Dr. John M. Lindner and his research team at the BioMed X Institute in Heidelberg designed the T-FINDER platform to solve this problem. The platform, published now in Science Advances, is capable of rapidly screening thousands of potential interactions between TCRs and antigens on the surface of potential target cells for their ability to activate T cells. Driven by a trio of lead scientists (Miray Cetin, Dr. Veronica Pinamonti, and Dr. Theresa Schmid), the team first generated a highly sensitive reporter cell line for T cell activation. This reporter lies at the heart of T-FINDER, which can sensitively read out the specificity of any number of T cell-activating receptors (for example, CAR-T receptors in addition to classical TCRs) and ligands. For the latter, Dr. Pinamonti provided solutions to key aspects of enabling the detection of class II HLA-presented peptides during her PhD thesis work, leading to the development of novel strategies for boosting antigen processing and presentation by the target cell. This class of ligand was until now very challenging to investigate experimentally, and together with its superior sensitivity form the foundation of T-FINDER’s advantages in the field.
In a companion manuscript also appearing today, the team collaborated with a research team led by Dr. Ed Green from the Clinical Cooperation Unit Neuroimmunology and Brain Tumor Immunology (Head: Prof. Michael Platten) at DKFZ and University Hospital Mannheim. The researchers applied T-FINDER to decode the immune response of two diffuse midline glioma patients vaccinated against the H3 mutation which was driving their cancer. Patients receiving the H3-vaccine have shown promising but heterogeneous results, and with the aid of T-FINDER, the two groups could precisely map the functional immune response of a patient in remission to TCRs binding HLA class II-presented epitopes of mutant H3. This work provides key insights into the mechanism of anti-tumor T cell responses in these patients, and will support ongoing vaccination studies.
“We are excited about the publication of the results of our collaboration with Ed Green, Michael Platten, and colleagues,” said John Lindner, Head of Immunology Discovery at the BioMed X Institute. “Our joint research demonstrated the unique sensitivity, flexibility, and overall performance of our new T-FINDER platform, especially for class II HLA-presented targets, which have always been a challenge in the past.”
“Previously, we have been limited in the tools we could use to study class II-presented epitopes such as mutant H3. The T-FINDER platform has enabled us to identify and benchmark dozens of H3-reactive TCRs, allowing us to track patient responses to vaccination today, as well as benchmark TCRs for the autologous cell therapies of tomorrow,” said Ed Green, Head of the ImmunoGenomics team in Michael Platten’s lab at the DKFZ.
Wissenschaftlicher Ansprechpartner:
Prof. Dr. Michael Platten
Direktor | Chairman
Neurologische Klinik | Department of Neurology
Universitätsmedizin Mannheim
Theodor-Kutzer-Ufer 1-3
68167 Mannheim
michael.platten@umm.de
Originalpublikation:
Cetin et al.
T- FINDER: A highly sensitive, pan- HLA platform for functional T cell receptor and ligand discovery
Science Advances, 2 Feb 2024, Vol 10, Issue 5
http://doi.org/10.1126/sciadv.adk3060
Boschert et al.
H3K27M neoepitope vaccination in diffuse mid¬line glioma induces B and T cell responses across diverse HLA loci of a recovered patient
Science Advances, 2 Feb 2024, Vol 10, Issue 5
http://doi.org/10.1126/sciadv.adi9091