Novel mutations of AXIN2 identified in a Chinese Congenital Heart Disease Cohort.

Congenital heart defects (CHDs), the most common congenital human birth anomalies, involves complex genetic factors. Wnt/ß-catenin pathway is critical for cardiogenesis and proved to be associated with numerous congenital heart abnormities. AXIN2 has a unique role in Wnt/ß-catenin pathway, as it is not only an important inhibitor but also a direct target of Wnt/ß-catenin pathway. However, whether AXIN2 is associated with human CHDs has not been reported. In our present study, we found a differential expression of Axin2 mRNA during the development of mouse heart, indicating its importance in mouse cardiac development. Then using targeted next-generation sequencing, we found two novel case-specific rare mutations [c.28 C > T (p.L10F), c.395 A > G (p.K132R)] in the sequencing region of AXIN2. In vitro functional analysis suggested that L10F might be a loss-of-function mutation and K132R is a gain-of-function mutation. Both mutations disrupted Wnt/ß-catenin pathway and failed to rescue CHD phenotype caused by Axin2 knockdown in zebrafish model. Collectively, our study indicates that rare mutations in AXIN2 might contribute to the risk of human CHDs and a balanced canonical Wnt pathway is critical for cardiac development process. To our knowledge, it is the first study of AXIN2 mutations associated with human CHDs, providing new insights into CHD etiology.

[Self-cleaning and antimicrobial properties of methacrylic acid coupled TiO(2)/PMMA denture base resin].

PURPOSE: To study the influence of TiO2 and methacrylic acid on self-cleaning and antimicrobial properties of denture base resin. METHODS: TiO2 (2%, 4%, 6%) and methacrylic acid were respectively added into two makers' denture base resins. The self-cleaning property was assayed with measuring the decomposition of methylthioninium chloride. The antimicrobial property was tested with the pellicle-sticking method. The data were analysed by SPSS 12.0 software package for two-way ANOVA. RESULTS: The self-cleaning and antimicrobial properties of samples were improved as TiO2 increased. Methacrylic acid had no significant influence on self-cleaning and antimicrobial properties of the samples. The decomposition ratio and antimicrobial ratio of MTi4% (Rijin) were 53.96% and 71.42%, respectively. CONCLUSION: Methacrylic acid coupled TiO2/PMMA denture base resin enjoys good self-cleaning and antimicrobial properties.