Solzak, Jeffrey P.Zhou, Feng C.Roper, Randall J.2016-01-152016-01-152012-04-13Jeffrey P. Solzak, Feng C. Zhou, and Randall J. Roper. (2012, April 13). MOLECULAR AND CELLULAR MECHANISMS LEADING TO SIMILAR PHENOTYPES IN DOWN AND FETAL ALCOHOL SYNDROMES. Poster session presented at IUPUI Research Day 2012, Indianapolis, Indiana.https://hdl.handle.net/1805/8078poster abstractDown syndrome (DS) and Fetal Alcohol Syndrome (FAS) are two leading causes of birth defects with phenotypes ranging from cognitive impairment to craniofacial abnormalities. While DS originates from the trisomy of human chromosome 21 and FAS from prenatal alcohol consumption, many of the defining characteristics for these two disorders are stunningly similar. A sur-vey of the literature revealed over 20 similar craniofacial and structural defi-cits in both human and mouse models of DS and FAS. We hypothesized that the similar phenotypes observed are caused by disruptions in common mo-lecular or cellular pathways during development. To test our hypothesis, we examined morphometric, genetic, and cellular phenotypes during develop-ment of our DS and FAS mouse models at embryonic days 9.5-10.5. Our preliminary evidence indicates that during early development, dysregulation of Dyrk1a and Rcan1, cardinal genes affecting craniofacial and neurological precursors of DS, are also dysregulated in embryonic FAS models. Further-more, Caspase 3 was also found to have similar expression in DS and FAS craniofacial neural crest derived tissues such as the first branchial arch (BA1) and regions of the brain. This may explain a developmental deficit by means of increased apoptosis. We are currently investigating the expression of pAkt, a protein shown to be affected in FAS models, in cells located in these same craniofacial and neurological regions in DS models. Recent re-search shows that Ttc3, a gene that is triplicated and shown to be overex-pressed in our DS mouse model, targets pAkt in the nucleus affecting im-portant transcription factors regulating cell cycle and cell survival. While Akt has been shown to play a role in neuronal development, we hypothesize that it also affects similar cellular properties in craniofacial precursors during de-velopment. By comparing common genotypes and phenotypes of DS and FAS we may provide common mechanisms to target for potential treatments of both disorders.en-USDown syndrome (DS)Fetal Alcohol Syndrome (FAS)birth defectsphenotypesPoster