Immune cells, and T cells in particular, display an enormous degree of developmental plasticity, which manifests itself in the existence of multiple functional subsets, each displaying characteristic effector functions, cytokine profiles and tissue specificities. On the one hand, the segregation of the αβ T cell compartment into distinct ‘lineages’ (e.g. helper cells, killer cells, regulatory T cells, iNKT cells) is imprinted through homeostatic developmental programs. On the other hand, the encounter of invading pathogens, but also many other perturbations of immune homeostasis such as chronic infection, neoplasia or environmental changes, can elicit adaptive differentiation programs in ‘mature’ T cells that result in the acquisition of distinct functional characteristics. Since the discovery of the classical Th1/Th2 paradigm, and more recently sparked by highly sophisticated methodology for phenotypic, transcriptional and epigenetic profiling of complex cell populations at the single cell level, it has become increasingly clear that many of these apparently distinct T cell ‘subsets’ represent a continuum of flexible states with a varying degree of overlapping characteristics. Moreover, there is ample evidence that the effector phase in a T cell’s life is not necessarily a manifestation of terminal differentiation; instead, armed effectors oftentimes retain a substantial degree of plasticity, allowing them to acquire ‘novel’ functions that are tailored to subsequent immune challenges and/or changing conditions, and this may likewise apply to innate immune cells such as NK cells. Against this background, the CRC 1054 has set out to explore the determinants of this remarkable plasticity of cell-fate decisions in the immune system, both in terms of the developmental decisions of precursor cells under homeostatic conditions and in terms of the flexible and often reversible adaptation of ‘mature’ cells to immune challenges. Elucidating the signals that control immune cell-fate decisions and how these signals are read and interpreted provides fundamental insights into the biology of the immune system. At the same time, our approach is of highest relevance for translational medicine, as it reveals novel perspectives for targeted immune therapies.

DFG Programme Collaborative Research Centres

• A01 - Determinants of Intrathymic T-Cell Fate Decisions (Project Head Klein, Ludger )
• A02 - Differentiation pathways of semi-invariant innate-like T-cells (Project Head Schmidt-Supprian, Marc )
• A03 - Post-transcriptional gene regulation in T cell activation, effector function and memory formation (Project Head Heissmeyer, Vigo )
• A04 - Regulation of T cell homeostasis and activation by MALT1-TRAF6 interaction (Project Head Krappmann, Ph.D., Daniel )
• A05 - Deciphering the role of Cyclin-T1 in human immune cell plasticity – Insights from children with inflammatory bowel disease (Project Heads Klein, Christoph ;  Kotlarz, Daniel )
• A06 - Dendritic cell precursor fate and function in steady state and viral infection (Project Head Krug, Anne )
• B01 - Mechanismen der CBM-Signalübertragung in regulatorischen T-Zellen (Project Head Ruland, Jürgen )
• B02 - Structural Mechanisms of MALT1 Signaling in T-Cell Differentiation and Activation (Project Heads Hopfner, Karl-Peter ;  Lammens, Katja )
• B03 - Dendritic cell control of T cell differentiation and immune responses by exosomes (Project Head Brocker, Thomas )
• B06 - Development and functional specialization of Aquaporin-4-specific T-cells in a disease model of neuromyelitis optica (Project Head Korn, Thomas )
• B09 - Tracking T cell receptor-dependent imprinting of cellular differentiation states during polyclonal and chronic immune responses (Project Heads Buchholz, Veit ;  Busch, Dirk ;  Schober, Kilian )
• B10 - Regulation of a human Th17 cell polarized tissue resident memory fate in the skin (Project Head Zielinski, Christina )
• B11 - Mechanisms of immune activation vs. tolerance in autoimmune Type 1 diabetes (Project Head Daniel, Carolin )
• B14 - Mechanism that mediate maintenance and differentiation of proliferation competent progenitor T cells in chronic infection (Project Head Zehn, Dietmar )
• B15 - Deciphering cell fate decisions of single NK cells during infection (Project Head Buchholz, Veit )
• B16 - Epigenetic modulators in human T helper cell differentiation – identification and characterization with CRISPR screens (Project Head Schumann, Kathrin )
• B17 - The role of the CARD8 inflammasome in controlling T cell fate (Project Head Hornung, Veit )
• MGK - Integrated Research Training Group "Cell-Fate Decisions in the Immune System" (Project Head Klein, Ludger )
• Z01 - Central Tasks of the Collaborative Research Centre (Project Head Brocker, Thomas )
• Z02 - Cell-Fate Decision Analysis Platform (Project Heads Heissmeyer, Vigo ;  Kranich, Jan ;  Richter, Lisa ;  Schroeder, Ph.D., Timm )

• A07 - Molecular Control of Dendritic Cell Generation (Project Head Schroeder, Ph.D., Timm )
• B04 - Chemokine Receptor-Mediated Control of T Cell and DC Plasticity in Chronic Inflammation (Project Head Weber, Christian )
• B05 - Role of Viral miRNAs in T Cell Control of Epstein-Barr Virus Infection (Project Head Hammerschmidt, Wolfgang )
• B07 - TCR Tuning by Transient and Persistent Antigen Presentation (Project Head Obst, Reinhard )
• B08 - The Effect of Hypercholesterolemia on Co-Stimulatory Molecule Function: From Stem and Progenitor Cells to the Mature Immune System (Project Head Lutgens, Esther )
• B12 - Dissecting T Cell-Extrinsic Requirements for Early Tfh Cell Differentiation (Project Head Baumjohann, Dirk )
• T01 - Poxvirus Infection Model and Vaccine Development (Project Head Brocker, Thomas )

Applicant Institution Ludwig-Maximilians-Universität München

Participating University Technische Universität München (TUM)

Participating Institution Helmholtz Zentrum München
Deutsches Forschungszentrum für Gesundheit und Umwelt

Spokesperson Professor Dr. Thomas Brocker