Transcriptional activity analysis of promoter region of human PAX9 gene under dexamethasone, retinoic acid, and ergocalciferol treatment in MCF-7 and MDPC23.

PAX9 gene is a member of the family homeobox of transcription factors and performs important function in development and organogenesis. Mutations in PAX9 coding sequences have been implicated in autosomal dominant oligodontia affecting predominantly permanent molars and second premolars. Previous studies have shown that PAX9 is required for secondary palate development and teratogens have been identified as inducers of a tooth and craniofacial malformations. This work focused on the analysis on the 5'-flanking region of the PAX9 gene studying the influence of retinoic acid, dexamethasone, and vitamin D on the expression of PAX9 by expression constructs that carry the reporter gene luciferase. As results, retinoic acid and dexamethasone showed progressive decrease of PAX9 expression. PAX9-pGL3B1 and PAX9-pGL3B2 promoter was inhibited under the treatment of dexamethasone and ergocalciferol. Retinoic acid and dexamethasone did not alter PAX9-pGL3B3 behavior indicating that sequences present between -1106 and +92 were important for the transcriptional activity of PAX9 promoter. In this study, we characterized the transcriptional activity of specific regions of the PAX9 promoter gene and we demonstrated that retinoic acid and ergocalciferol can modulate the transcriptional activity of PAX9 gene.

Extraction of genomic DNA from paraffin-embedded tissue sections of human fetuses fixed and stored in formalin for long periods.

The advent of polymerase chain reaction (PCR) technology has increased the interest in fetal specimens housed in anatomy museums, as they may represent a unique source of genetic material for the study of uncommon or rare pathological conditions such as congenital malformations, neoplastic processes and parasitic as well as other infectious diseases. The aim of this study is to evaluate the quality of genomic DNA extracted from paraffin-embedded tissue sections of human fetuses that have been maintained in formalin for several years. Fetal tissues were embedded in paraffin, and tissue sections were submitted to ethanol/xylene dewaxing, followed by DNA extraction with ammonium acetate. DNA fragments were amplified from DNA extracted from formalin-fixed tissue sections, but not from Bouin-fixed tissues (average yield of 13.7 microg/ml from 10 umbilical cord sections of 10 microm; A(260):A(280)=1.55,). The addition of bovine serum albumim increased the yield of PCR amplification. Genomic DNA can be reliably amplified from paraffin-embedded human fetal tissues that had been fixed in formalin during 19 years and used for microdissection studies. This simple, cost-effective, and non-laborious method should facilitate the molecular analysis of a large number of specimens fixed for long periods of time.