| Literature DB >> 31585082 |
Maximilien Grandclaudon1, Marie Perrot-Dockès2, Coline Trichot1, Léa Karpf1, Omar Abouzid1, Camille Chauvin1, Philémon Sirven1, Wassim Abou-Jaoudé3, Frédérique Berger4, Philippe Hupé5, Denis Thieffry3, Laure Sansonnet2, Julien Chiquet2, Céline Lévy-Leduc2, Vassili Soumelis6.
Abstract
Cell-cell communication involves a large number of molecular signals that function as words of a complex language whose grammar remains mostly unknown. Here, we describe an integrative approach involving (1) protein-level measurement of multiple communication signals coupled to output responses in receiving cells and (2) mathematical modeling to uncover input-output relationships and interactions between signals. Using human dendritic cell (DC)-T helper (Th) cell communication as a model, we measured 36 DC-derived signals and 17 Th cytokines broadly covering Th diversity in 428 observations. We developed a data-driven, computationally validated model capturing 56 already described and 290 potentially novel mechanisms of Th cell specification. By predicting context-dependent behaviors, we demonstrate a new function for IL-12p70 as an inducer of Th17 in an IL-1 signaling context. This work provides a unique resource to decipher the complex combinatorial rules governing DC-Th cell communication and guide their manipulation for vaccine design and immunotherapies.Entities:
Keywords: T helper cell differentiation; cell-cell communication; dendritic cells; immunology; mathematical modeling; signal integration; systems immunology
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Year: 2019 PMID: 31585082 DOI: 10.1016/j.cell.2019.09.012
Source DB: PubMed Journal: Cell ISSN: 0092-8674 Impact factor: 41.582