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A quantitative analysis of the interplay of environment,neighborhood, and cell state in 3D spheroids
Authors:Vito RT Zanotelli,Matthias Leutenegger,Xiao‐  Kang Lun,Fanny Georgi,Natalie de Souza,Bernd Bodenmiller
Affiliation:1. Department of Quantitative Biomedicine, University of Zurich, Zürich Switzerland ; 2. Life Science Zürich Graduate School, ETH Zürich and University of Zürich, Zürich Switzerland ; 3. Department of Molecular Life Sciences, University of Zurich, Zürich Switzerland ; 4. Institute of Molecular Systems Biology, ETH Zurich, Zürich Switzerland ; 5. Wyss Institute for Biologically Inspired Engineering, Harvard University, Boston MA, USA
Abstract:Cells react to their microenvironment by integrating external stimuli into phenotypic decisions via an intracellular signaling network. To analyze the interplay of environment, local neighborhood, and internal cell state effects on phenotypic variability, we developed an experimental approach that enables multiplexed mass cytometric imaging analysis of up to 240 pooled spheroid microtissues. We quantified the contributions of environment, neighborhood, and intracellular state to marker variability in single cells of the spheroids. A linear model explained on average more than half of the variability of 34 markers across four cell lines and six growth conditions. The contributions of cell‐intrinsic and environmental factors to marker variability are hierarchically interdependent, a finding that we propose has general implications for systems‐level studies of single‐cell phenotypic variability. By the overexpression of 51 signaling protein constructs in subsets of cells, we also identified proteins that have cell‐intrinsic and cell‐extrinsic effects. Our study deconvolves factors influencing cellular phenotype in a 3D tissue and provides a scalable experimental system, analytical principles, and rich multiplexed imaging datasets for future studies.
Keywords:high‐  throughput assay, multiplexed imaging, spatial signaling, spatial variance, tissue organization
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