Maxwell C. Coyle scite author profile

Reconstituting tissues from their cellular building blocks facilitates the modeling of morphogenesis, homeostasis, and disease in vitro. Here, we describe DNA Programmed Assembly of Cells (DPAC) to reconstitute the multicellular organization of tissues having programmed size, shape, composition, and spatial heterogeneity. DPAC uses dissociated cells that are chemically functionalized with degradable oligonucleotide “velcro,” allowing rapid, specific, and reversible cell adhesion to other surfaces coated with complementary DNA sequences. DNA-patterned substrates function as removable and adhesive templates, and layer-by-layer DNA-programmed assembly builds arrays of tissues into the third dimension above the template. DNase releases completed arrays of microtissues from the template concomitant with full embedding in a variety of extracellular matrix (ECM) gels. DPAC positions subpopulations of cells with single-cell spatial resolution and generates cultures several centimeters long. We used DPAC to explore the impact of ECM composition, heterotypic cell-cell interactions, and patterns of signaling heterogeneity on collective cell behaviors.

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Engineered Tissue Folding by Mechanical Compaction of the Mesenchyme

Hughes

et al. 2018

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Many tissues fold into complex shapes during development. Controlling this process in vitro would represent an important advance for tissue engineering. We use embryonic tissue explants, finite element modeling, and 3D cell-patterning techniques to show that mechanical compaction of the extracellular matrix during mesenchymal condensation is sufficient to drive tissue folding along programmed trajectories. The process requires cell contractility, generates strains at tissue interfaces, and causes patterns of collagen alignment around and between condensates. Aligned collagen fibers support elevated tensions that promote the folding of interfaces along paths that can be predicted by modeling. We demonstrate the robustness and versatility of this strategy for sculpting tissue interfaces by directing the morphogenesis of a variety of folded tissue forms from patterns of mesenchymal condensates. These studies provide insight into the active mechanical properties of the embryonic mesenchyme and establish engineering strategies for more robustly directing tissue morphogenesis ex vivo.

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A flagellate-to-amoeboid switch in the closest living relatives of animals

Brunet

Albert

Roman

et al. 2021

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Amoeboid cells are fundamental to animal biology and broadly distributed across animal diversity, but their evolutionary origin is unclear. The closest living relatives of animals, the choanoflagellates, display a polarized cell architecture (with an apical flagellum encircled by microvilli) that closely resembles that of epithelial cells and suggests homology, but this architecture differs strikingly from the deformable phenotype of animal amoeboid cells. Here, we show that choanoflagellates subjected to confinement differentiate into an amoeboid form by retracting their flagella and activating myosin-based motility. This switch allows escape from confinement and is conserved across choanoflagellate diversity. The conservation of the amoeboid cell phenotype across animals and choanoflagellates, together with the conserved role of myosin, is consistent with the homology of amoeboid motility in both lineages. We hypothesize that the differentiation between animal epithelial and crawling cells might have evolved from a stress-induced phenotypic switch between flagellate and amoeboid forms in their single-celled ancestors.

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An RFX transcription factor regulates ciliogenesis in the closest living relatives of animals

et al. 2023

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Maxwell C. Coyle

Programmed synthesis of three-dimensional tissues

Engineered Tissue Folding by Mechanical Compaction of the Mesenchyme

A flagellate-to-amoeboid switch in the closest living relatives of animals

An RFX transcription factor regulates ciliogenesis in the closest living relatives of animals

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