Discovering the hidden rules of tissue-specific responses to inflammation

This collaboration between the Altan-Bonnet (NCI), Buckley and Coles (Oxford) labs addresses how organs generate distinct inflammatory responses despite sharing common components like immune cells, fibroblasts, and the extracellular matrix. In collaboration with additional teams from the Netherlands, and Canada, we aim to uncover the molecular, cellular, and tissue-level rules governing organ-specific inflammation.

We hypothesize that (1) organ context and cellular experience shape the perception of inflammatory signals, and (2) organ-specific hierarchies integrate responses into coordinated outcomes. Using a data-driven approach, we will combine ex vivo and in silico models of mouse and human tissues to explore these mechanisms. High-throughput robotics will generate diverse tissue models with varying sensitivities to infection or immunopathology. Multimodal datasets from these models will be analyzed using machine learning to build computational models, to guide iterative cycles of discovery.

This project will revolutionize tissue biology by creating a unified framework for understanding tissue-specific inflammation, paving the way for new treatments. We are seeking researchers with expertise in bioengineering, computer science, or immunology to join this interdisciplinary effort.

Project keywords: immunology, systems biology, biomedical engineering.