An improved multicellular human organoid model for the study of chemical effects on palatal fusion

Author:

Wolf Cynthia J.1ORCID,Fitzpatrick Hunter2,Becker Carrie2,Smith Jessica2,Wood Carmen1

Affiliation:

1. Center for Public Health and Environmental Assessment, Office of Research and Development US Environmental Protection Agency Research Triangle Park North Carolina USA

2. Oak Ridge Institute for Science and Education Oak Ridge Tennessee USA

Abstract

AbstractBackgroundTissue fusion is a mechanism involved in the development of the heart, iris, genital tubercle, neural tube, and palate during embryogenesis. Failed fusion of the palatal shelves could result in cleft palate (CP), a common birth defect. Organotypic models constructed of human cells offer an opportunity to investigate developmental processes in the human. Previously, our laboratory developed an organoid model of the human palate that contains human mesenchyme and epithelial progenitor cells to study the effects of chemicals on fusion.MethodsHere, we developed an organoid model more representative of the embryonic palate that includes three cell types: mesenchyme, endothelial, and epithelial cells. We measured fusion by a decrease in epithelial cells at the contact point between the organoids and compared the effects of CP teratogens on fusion and toxicity in the previous and current organoid models. We further tested additional suspect teratogens in our new model.ResultsWe found that the three‐cell‐type model is more sensitive to fusion inhibition by valproic acid and inhibitors of FGF, BMP, and TGFβRI/II. In this new model, we tested other suspect CP teratogens and found that nocodazole, topiramate, and Y27632 inhibit fusion at concentrations that do not induce toxicity.ConclusionThis sensitive human three‐cell‐type organotypic model accurately evaluates chemicals for cleft palate teratogenicity.

Publisher

Wiley

Subject

Health, Toxicology and Mutagenesis,Developmental Biology,Toxicology,Embryology,Pediatrics, Perinatology and Child Health

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