Inflammation is a common, fast and innate response of the immune system to sterile or infectious tissue damage or autoimmune triggers. It aims at minimising tissue destruction and maintaining organ function, hence is vital to life. Yet, overshooting or chronic inflammation is a frequent severe cofactor in the development of widespread diseases. The last decades have seen significant progress in understanding the principal pathways leading to inflammatory processes. However, organ-specific properties of inflammatory diseases and the local dynamics of innate immune cell action and interactions remain poorly investigated. Important questions are the extent and functional relevance of innate immune cell polarisation in vivo and the consequences of local effector functions for migration dynamics and, hence, the course of organ-specific inflammation. In addition, recent single cell RNA sequencing data has revealed significant vascular heterogeneity in different tissues and organs, the effect of which on inflammation have not been addressed to date. CRC inSight brings together an interfaculty team of scientists with the aim of understanding the cellular and molecular basis of inflammation in different tissues and in response to different insults through the development of innovative tools and new cellular and molecular in vivo imaging strategies. Through detailed spatial and temporal analyses, we will investigate the dynamics and plasticity of distinct immune cell populations. We will image their penetration of endothelial barriers, their activation at sites of inflammation, and their contribution to tissue damage, and hence, generate novel insights into the complex innate immune response to sterile and infectious noxes in whole organisms. Intravital and dynamic visualisation of cellular and molecular processes using high-resolution optical and whole-body imaging are central to our approach. We will generate so far unavailable multiscale image data sets through novel methodological strategies that integrate information from imaging modalities across spatial and temporal scales. This will involve genetic and chemical biology-based targeting of immune cells and bacteria combined with new versatile labels for visualising the same molecular mechanism using imaging modalities at different scales. A mathematical and computational strategy will be applied to bridge scales, interactively visualize multiscale data sets and for pattern recognition. The methods developed by this CRC will be applied to preclinical inflammatory models mimicking diseases such as heart and kidney infarction, autoimmune disease and infection. Our studies will promote a better understanding of the interplay between molecular regulators and immune cells at local sites of inflammation in vivo that distinguishes and determines productive versus destructive inflammation.

DFG Programme Collaborative Research Centres

• A01 - Cell-type and activation-specific labelling of different leukocyte populations in vivo by bioorthogonal tagging (Project Heads Mootz, Henning D. ;  Rentmeister, Andrea )
• A02 - Tailored coordination compounds as multimodal labels for multiscale imaging (Project Head Strassert, Cristian Alejandro )
• A03 - Targeting of S100A8/A9 for imaging of inflammatory disorders (Project Heads Faust, Andreas ;  Fritz, Günter )
• A04 - Metabolic targeting of bacteria through complex carbohydrates (Project Heads Faust, Andreas ;  Gilmour, Ryan ;  Niemann, Silke )
• A05 - Targeting immune cell dynamics by longitudinal whole-body imaging and mathematical modelling (Project Heads Schäfers, Klaus ;  Wirth, Benedikt )
• A06 - Improving intravital microscopy of inflammatory cell response by active motion compensation using controlled adaptive optics (Project Heads Huser, Thomas ;  Wirth, Benedikt )
• B01 - Quantitative assessment of endothelial permeability by novel scalable BODIPY nanostructures (Project Heads Fernandez-Huertas, Gustavo ;  Masthoff, Max )
• B02 - Quantitative MRI of organ-specific vascular permeability and immune cell dynamics by combination with mass spectrometric imaging (Project Heads Faber, Cornelius ;  Karst, Uwe )
• B03 - Regulation of vascular permeability and leukocyte extravasation in inflammation: mechanisms and heterogeneity in different organs (Project Head Vestweber, Dietmar )
• B04 - Multiscale visualisation and analysis of innate immune cell migration at sites of hypoxic inflammation in vivo (Project Heads Kiefer, Friedemann ;  Risse, Benjamin )
• B05 - Mechanisms of NET formation during sterile and bacterial inflammation (Project Heads Block, Helena ;  Zarbock, Alexander )
• B06 - Dynamic PET-MRI for integrated quantification of molecular immune responses and their vascular consequences (Project Heads Backhaus, Philipp ;  Büther, Florian )
• C01 - Metabolic priming of monocytes during inflammation in vivo (Project Heads Roth, Johannes ;  Schäfers, Michael )
• C02 - Phagocyte responses during apoptotic cell clearance in the resolution of inflammation (Project Head Alonso Gonzalez, Noelia )
• C03 - Imaging of inflammatory and regulatory mechanisms in arthritis (Project Heads Hermann, Sven ;  Vogl, Ph.D., Thomas )
• C04 - Dynamic imaging and molecular mechanisms of myeloid cell infiltration into the inflamed peritoneum (Project Head Sorokin, Lydia )
• C05 - The role of IL24 in development and resolution of acute kidney injury (Project Heads Hörr, Verena ;  Reuter, Stefan )
• C06 - Nanocapsule-based functional analysis of myeloid cells and platelets in autoimmune diseases (Project Heads Landfester, Katharina ;  Steinbrink, Kerstin )
• C07 - Imaging of immune cell dynamics and host-pathogen interactions in gut-associated lymphoid tissue during Yersinia pseudotuberculosis infections (Project Heads Dersch, Petra ;  Rossaint, Jan )
• INF - Research data management and infrastructures for visualization, analysis and sustainable software development (Project Head Vogl, Raimund )
• MGK - Integrated Research Training Group (IRTG) Multiscale Imaging (Project Head Kiefer, Friedemann )
• Z01 - Interactive and computational analysis of large multiscale imaging data (Project Heads Jiang, Xiaoyi ;  Linsen, Lars )
• Z02 - Coordination, administration, gender equality measures and scientific communication of the CRC (Project Head Schäfers, Michael )

Applicant Institution Universität Münster

Participating University Universität Bielefeld; Universität Hohenheim

Participating Institution Max-Planck-Institut für Polymerforschung; Max-Planck-Institut für molekulare Biomedizin

Spokesperson Professor Dr. Michael Schäfers