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Optimized Culture Conditions for Improved Growth and Functional Differentiation of Mouse and Human Colon Organoids

Sarah S. Wilson, Martha Mayo, Terry Melim, Heather Knight, Lori Patnaude, Xiaoming Wu, Lucy Phillips, Susan V. Westmoreland, Robert W. Dunstan, Edda Fiebiger, Sonia Terrillon

2021Frontiers in Immunology69 citationsDOIOpen Access PDF

Abstract

Background & Aims: Diligent side-by-side comparisons of how different methodologies affect growth efficiency and quality of intestinal colonoids have not been performed leaving a gap in our current knowledge. Here, we summarize our efforts to optimize culture conditions for improved growth and functional differentiation of mouse and human colon organoids. Methods: imaging and a cell viability readout over five passages. The impact of diverse media on differentiation was assessed by quantifying the number of epithelial cell types using markers for enterocytes, stem cells, Goblet cells, and enteroendocrine cells by qPCR and histology upon removal of growth factors. Results: In contrast to Wnt3a-conditioned media, media supplemented with recombinant Wnt3a alone did not support long-term survival of human or mouse colon organoids. Mechanistically, this observation can be attributed to the fact that recombinant Wnt3a did not support stem cell survival or proliferation as demonstrated by decreased LGR5 and Ki67 expression. When monitoring expression of markers for epithelial cell types, the highest level of organoid differentiation was observed after combined removal of Wnt3a, Noggin, and R-spondin from Wnta3a-conditioned media cultures. Conclusion: Our study defined Wnt3a-containing conditioned media as optimal for growth and survival of human and mouse organoids. Furthermore, we established that the combined removal of Wnt3a, Noggin, and R-spondin results in optimal differentiation. This study provides a step forward in optimizing conditions for intestinal organoid growth to improve standardization and reproducibility of this model platform.

Topics & Concepts

OrganoidCell biologyBiologyComputational biologyCancer Cells and MetastasisWnt/β-catenin signaling in development and cancerLiver physiology and pathology
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