PAX9 polymorphism and susceptibility to sporadic non-syndromic severe anodontia: a case-control study in southwest China

Our research aimed to look into the clinical traits and genetic mutations in sporadic non-syndromic anodontia and to gain insight into the role of mutations of PAX9, MSX1, AXIN2 and EDA in anodontia phenotypes, especially for the PAX9. Material and Methods The female proband and her family members from the ethnic Han families underwent complete oral examinations and received a retrospective review. Venous blood samples were obtained to screen variants in the PAX9, MSX1, AXIN2, and EDA genes. A case-control study was performed on 50 subjects with sporadic tooth agenesis (cases) and 100 healthy controls, which genotyped a PAX9 gene polymorphism (rs4904210). Results Intra-oral and panoramic radiographs revealed that the female proband had anodontia denoted by the complete absence of teeth in both the primary and secondary dentitions, while all her family members maintained normal dentitions. Detected in the female proband were variants of the PAX9 and AXIN2 including A240P (rs4904210) of the PAX9, c.148C>T (rs2240308), c.1365A>G (rs9915936) and c.1386C>T (rs1133683) of the AXIN2. The same variants were present in her unaffected younger brother. The PAX9 variations were in a different state in her parents. Mutations in the MSX1 and EDA genes were not identified. No significant diferences were found in the allele and genotype frequencies of the PAX9 polymorphism between the controls and the subjects with sporadic tooth agenesis. Conclusions These results suggest that the association of A240P with sporadic tooth agenesis still remains obscure, especially for different populations. The genotype/phenotype correlation in congenital anodontia should be verified. .

Aspectos clínicos e moleculares da agenesia dentária congênita / Molecular and clinical aspects of congenital dental agenesis

A agenesia dentária consiste em uma anomalia comum de desenvolvimento, que resulta na alteração do número de dentes preentes na cavidade bucal e afeta aproximadamente 20% da população. Sua etiologia está associada a fatores ambientais, como infecções, traumas, quimioterapia, radioterapia e causas genéticas. Atualmente a etiologia mais aceita para explicar a ocorrência das anomalias dentárias é a alteração na expressão de genes específicos. Com base no conhecimento dos genes e fatores de transcrição envolvidos na odontogênese, presume-se que diferentes formas fenotípicas de agenesia dentária são causadas por mutações em diferentes genes. Os genes envolvidos na agenesia dentária em humanos incluem os fatores de transcrição (MSX1 e PAX9) que desempenham um papel crítico durante o desenvolvimento craniofacial e o gene que codifica uma proteína envolvida na via de sinalização canônica Wnt (AXIN2). Dessa maneira, a proposta do presente estudo é discorrer sobre os principais genes que têm sido relatados como reguladores da formação dental e a ocorrência de mutações nestes genes que poderiam resultar em agenesias dentárias

Dental agenesis is a common developmental anomaly which affects approximately 20% of the population and results in a reduction of number of teeth present in the oral cavity. The etiology is associated with environmental factors, such as infections, trauma, chemotherapy, radiotherapy, and genetic causes. Currently the widely accepted theory to explain the occurrence of dental agenesis is the change in the expression of specific genes. Different phenotypic patterns of dental agenesis are caused by mutations in genes and transcription factors involved in odontogenesis. In humans those genes include transcription factors (MSX1 and PAX9) that play a critical role during development and the gene coding for a protein involved in the canonical Wnt signaling (AXIN2). Therefore, the purpose of this study is to discuss about dental agenesis and the key genes that have been reported as regulators of dental formation and how the occurrence of mutations in these genes could result in dental agenesis

Transcriptional analysis of the human PAX9 promoter

OBJECTIVES: PAX9 belongs to the Pax family of transcriptional factor genes. This gene is expressed in embryonic tissues such as somites, pharyngeal pouch endoderm, distal limb buds and neural crest-derived mesenchyme. Polymorphisms in the upstream promoter region of the human PAX9 have been associated with human non-syndromic tooth agenesis. In the present study, we verified the in vitro mRNA expression of this gene and the luciferase activity of two constructs containing promoter sequences of the PAX9 gene. MATERIAL AND METHODS: Embryonic tissues were obtained from digits, face, and midbrain/hindbrain regions. Fragments containing PAX9 promoter sequences were cloned into reporter plasmids and were transfected into the different cell cultures. mRNA were extracted from primary cell cultures. RESULTS: The semi-quantitative RT-PCR results showed that in vitro E13.5 limb bud and CNS cells express PAX9, but cells derived from the facial region do not. Moreover, the luciferase assay showed that protein activity of the constructed vector was weaker than pgl3 -basic alone. CONCLUSIONS: The present results suggest that the promoter sequences analyzed are not sufficient to drive PAX9 gene transcription.

Association between polymorphism in the promoter region (G/C-915) of PAX9 gene and third molar agenesis

PURPOSE: Hypodontia is the congenital absence of one or more (up to six) permanent and/or deciduous teeth, being one of the most common alterations of the human dentition. Genetic polymorphisms are variations of DNA sequences occurring in a population. This study investigated whether G-915C single nucleotide polymorphism (SNPs) in the PAX9 gene promoter is associated with hypodontia in humans. MATERIAL AND METHODS: The polymorphism in region G/C-915 of PAX9 gene (NCBI ref SNP ID: rs 2073247) of 240 patients was analyzed, being 110 controls and 130 individuals with third molar agenesis. After DNA extraction, the region of interest was amplified by PCR technique using two different primers. The significance of the differences in observed frequencies of polymorphisms in both groups was assessed by odds-ratio and chi-squared test with 95 percent confidence interval. RESULTS: Genotype CC was more frequent in patients with agenesis (11.5 percent) compared to the control (1.8 percent), while GG was more prevalent in the control group (39.1 percent) compared to the individuals with agenesis (26.2 percent). CONCLUSION: These data showed that the allele C could be associated with the third molar agenesis.