Objective: To investigate the effect of all-trans retinoic acid (atRA) on the development of mouse palates and its possible mechanism, a model of fetal mouse rolling plate organ culture was establishted.
Methods: Mouse embryonic palates were explanted on GD12 and cultured in a roller device for 72h induced by atRA in different concentrations from 10(-5) micromol/L to 10(-1) micromol/L.
Results: Similar to development in vivo, palates in control normal fused. Compared with the control, palates development and fusion were promoted in group of 10(-15) micromol/L, while were inhibited in groups of 10(-4) micromol/L or greater, resulting in cleft palate. The proportion of fusion was reduced in a significant dose-response pattern.
Conclusion: In the model, the cultured palates continued developing and fusing. Palatal fusion was promoted by normally atRA in 10(-5) micromol/L level and were inhibited by atRA in 10(-4) micromol/L level or greater, which resulting in cleft palate. These mentioned confirm the validity and reliability of this model.