Project description:Birth Defects: Moebius Syndrome and Related Facial Weakness Disorders

Project description:Molecular defects in pseudohypoparathyroidism or related disorders

Project description:Kids First: Congenital Heart Defects and Laterality Birth Defects

Project description:Kids First: Congenital Heart Defects and Laterality Birth Defects

Project description:Prevailing dogma maintains that Fetal Alcohol Syndrome (FAS) craniofacial and neurological birth defects are the sole consequence of maternal alcohol use during pregnancy. Using a physiologically relevant mouse model, we contrasted the incidence of alcohol-related growth and craniofacial defects between offspring derived from maternal, paternal, and dual parental alcohol exposures. Geometric morphometric analyses reveal that maternal, paternal, and dual parental exposures each induce unique craniofacial malformations and program dose-dependent increases in microcephaly, particularly in male offspring. Notably, dual parental exposures do not exhibit additive or synergistic effects; instead, our transcriptomic analyses demonstrate that each treatment programs distinct sex-specific changes in gene expression within the developing brain. Our data are the first to demonstrate that male drinking is a plausible driver of alcohol- related birth defects and that epidemiological examination of male alcohol consumption may help explain the enormous variation in FAS clinical presentations and severity.

Project description:Paternal exposure alone induces alcohol-related birth defects in a mouse model: Implications of paternal drinking in FAS birth defects.

Project description:Genetic Defects in familial renal disorders

Project description:Exposure to environmental teratogenic pollutant leads to severe birth defects. However, the biological events underlying these developmental abnormalities remain undefined. Here we report a molecular link between an environmental stress response pathway and key developmental genes during craniofacial development. In our study, we focused on the development of the facial prominences at E11.5. To do so, we compared the transcriptomes of mutant embryos (*Pax3Pax3-ERD/GFP *called DM in the microarray samples) to the one of control embryos (*Pax3GFP/+ *called GFP in the sample names). These are knock-in genetic models described in Bajard et al., 2006 and Relaix et al., 2005. In both of them a cassette coding for the GFP is replacing one allele of the Pax3 gene. The Pax3-ERD allele is a conditional one that drives the expression of the dominant negative form of Pax3 (Pax3-ERD) composed of the Pax3 DNA binding domain fused to the engrailed repressor domain (ERD) upon activation of a Cre recombinase. In this study, the Cre was driven by the zygote specific PGK enhancer. Strikingly, mutant mice with impaired Pax3/7 function display severe craniofacial defects. We show these are associated with an up-regulation of the signaling pathway mediated by the Aryl hydrocarbon Receptor (AhR), the receptor to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), revealing a genetic interaction between Pax3 and AhR signaling. Activation of AhR signaling in Pax3-deficient embryos drives facial mesenchymal cells out of the cell cycle through the up-regulation of p21 expression. Accordingly, inhibiting AhR activity rescues the cycling status of these cells and the facial closure of Pax3/7 mutants. Together, our findings demonstrate that the regulation of AhR signaling by Pax3/7 is required to protect against TCDD/AhR-mediated teratogenesis during craniofacial development.

Project description:Kids First: Genomic Studies of Orofacial Cleft Birth Defects

Project description:To study the development of pig facial skin after birth, we use the facial skin tissues of healthy Chenghua sows as experimental materials. we then performed gene expression profiling analysis using data obtained from RNA-seq of pig facial skin tissues at four time points.