Zeinab F. Hosseini scite author profile

Epithelial progenitor cells are dependent upon a complex 3D niche to promote their proliferation and differentiation during development, which can be recapitulated in organoids. The specific requirements of the niche remain unclear for many cell types, including the proacinar cells that give rise to secretory acinar epithelial cells that produce saliva. Here, using cultures of E16 primary mouse submandibular salivary gland epithelial cell clusters, we investigated the requirement for mesenchymal cells and other factors in producing salivary organoids in culture. Native E16 salivary mesenchyme, but not NIH3T3 cells or mesenchymal cell conditioned medium, supported robust protein expression of the progenitor marker Kit and the acinar/proacinar marker AQP5, with a requirement for FGF2 expression by the mesenchyme. Enriched salivary epithelial clusters that were grown in laminin-enriched basement membrane extract or laminin-111 together with exogenous FGF2, but not with EGF, underwent morphogenesis to form organoids that displayed robust expression of AQP5 in terminal buds. Knockdown of FGF2 in the mesenchyme or depletion of mesenchyme cells from the organoids significantly reduced AQP5 levels even in the presence of FGF2, suggesting a requirement for autocrine FGF2 signaling in the mesenchyme cells for AQP5 expression. We conclude that basement membrane proteins and mesenchyme cells function as niche factors in salivary organoids.

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ROCK inhibitor increases proacinar cells in adult salivary gland organoids

Koslow

O’Keefe

Hosseini

et al. 2019

Stem Cell Research

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Generating Embryonic Salivary Gland Organoids

et al. 2018

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Organoids are important research tools for studying organ morphogenesis and differentiation because they recapitulate ex vivo the native 3D organization of cells that is essential for proper cell and organ function. The composition of organoids can be manipulated to incorporate specific cell types to facilitate molecular interrogation of cell-cell interactions during organoid formation. A method for generating organoids derived from both embryonic salivary gland epithelial progenitor cells and mesenchymal support cells is described. Methods for isolating enriched populations of the epithelial cells as clusters and the mesenchyme cells as single cells from mouse embryonic submandibular salivary glands are also provided. Separating the epithelial and mesenchymal cell populations allows for independent molecular manipulation of each cell type. In addition, methods for lentiviral transduction of the mesenchyme cells and quantitative image analysis of organoids are provided. The methods described here are useful for exploring mechanisms driving organ formation. C 2018 by John Wiley & Sons, Inc.Keywords: mesenchyme r organoid r proacinar r salivary

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