Genetic screening and functional analysis of CASP9 mutations in a Chinese cohort with neural tube defects.

AIM: Neural tube defects (NTDs) are birth defects of the nervous system and are the second most frequent cause of birth defects worldwide. The etiology of NTDs is complicated and involves both genetic and environmental factors. CASP9 is an initiator caspase in the intrinsic apoptosis pathway, which in Casp9-/- mice has been shown to result in NTDs because of decreased apoptosis. The aim of this study was to evaluate the potential genetic contribution of the CASP9 gene in human NTDs. METHODS: High-throughput sequencing was performed to screen genetic variants of CASP9 genes in 355 NTD cases and 225 matched controls. Apoptosis-relevant assays were performed on transiently transfected E9 neuroepithelial cells or human embryonic kidney 293T cells, to determine the functional characteristics of NTD-specific rare variants under complete or low folic acid (FA) status. RESULTS: We found significant expression of CASP9 rare variants in NTDs and identified 4 NTD-specific missense variants. Functional assays demonstrated that a p.Y251C variant attenuates apoptosis by reducing CASP9 protein expression and decreasing activity of the intrinsic apoptosis pathway. From this, we conclude that this variant may represent a loss-of-function mutation. A 4-time recurrent p.R191G variant did not affect intrinsic apoptosis in complete medium, while it completely inhibited apoptosis induced by low FA medium. CONCLUSION: Our findings identify a genetic link for apoptosis in human NTDs and highlight the effect of gene-environment interactions in a complex disease.

Sonic Hedgehog Signaling Affected by Promoter Hypermethylation Induces Aberrant Gli2 Expression in Spina Bifida.

GLI2 is a key mediator of the sonic hedgehog (Shh) signaling pathway and plays an important role in neural tube development during vertebrate embryogenesis; however, the role of gli2 in human folate-related neural tube defects remains unclear. In this study, we compared methylation status and polymorphisms of gli2 between spina bifida patients and a control group to explore the underlying mechanisms related to folate deficiency in spina bifida. No single nucleotide polymorphism was found to be significantly different between the two groups, although gli2 methylation levels were significantly increased in spina bifida samples, accompanied by aberrant GLI2 expression. Moreover, a prominent negative correlation was found between the folate level in brain tissue and the gli2 methylation status (r = -0.41, P = 0.014), and gli2 hypermethylation increased the risk of spina bifida with an odds ratio of 12.45 (95 % confidence interval: 2.71-57.22, P = 0.001). In addition, we established a cell model to illustrate the effect of gli2 expression and the accessibility of chromatin affected by methylation. High gli2 and gli1 mRNA expression was detected in 5-Aza-treated cells, while gli2 hypermethylation resulted in chromatin inaccessibility and a reduced association with nuclear proteins containing transcriptional factors. More meaningful to the pathway, the effect gene of the Shh pathway, gli1, was found to have a reduced level of expression along with a decreased expression of gli2 in our cell model. Aberrant high methylation resulted in the low expression of gli2 in spina bifida, which was affected by the change in chromatin status and the capacity of transcription factor binding.

[Recombinant expression of human influenza A virus nucleocapsid protein and its antigenicity analyses].

OBJECTIVE: To prepare anti-recombinant protein antibody from immunized mice with recombinant nucleocapsid protein (NP) of human influenza A3 (IFV-A3) virus expressed in prokaryotic cell, and to explore the feasibility of utilizing anti-recombinant protein antibody to detect influenza A virus. METHODS: NP genes of human influenza A virus were analyzed with computer softwares of ClustalX, Antheprot, et al. to determine the antigenicity in conserved regions. Three different partial NP genes were harvested and cloned into pET-28(c) plasmid, the recombinant plasmids were induced to express partial NP segments in BL21 cells. The recombinant proteins were purified with Ni-agarose by affinity chromatography and immunized BALB/c mice. The polyclonal antisera harvested from mice were analyzed with Western Blot and immunohistochemistry assays to detect the reactions with IFV-A. RESULTS: Three recombinant plasmids were expressed with high yield in BL21 cells, about 15-20 mg/L. Western Blot results indicated that the three prepared antisera (1:2000) positively reacted with NP from IFV-A3-infected cells. And immunohistochemistry assays suggested that anti-NP1, anti-NP2, anti-NP3 antisera positively reacted with IFV-A3 or IFV-A1-infected MDCK cells, with titers of 1:640 to 1:1280. CONCLUSION: The recombinant NP of IFV-A3 would induce polyclonal antibodies with high titers in mice. The polyclonal antibodies would cross-react with IFV-A3 and IFV-A1. It is feasible to predict the antigenicity with systematical bioinformatics analyses and then induce anti-IFV antibodies with high dilutions, and it is possible to be utilized in the early detection and subtyping analyses of IFV-infections.