LncRNA CRNDE hinders the progression of osteoarthritis by epigenetic regulation of DACT1.

Osteoarthritis (OA) is mainly characterized by articular cartilage degeneration, synovial fibrosis, and inflammation. LncRNA CRNDE (colorectal neoplasia differentially expressed) has been reported to be down-regulated in age-related OA, but its role in injury-induced OA needs to be further explored. In this study, an OA rat model was established using anterior cruciate ligament transection, and the adenovirus-mediated CRNDE overexpression (Ad-CRNDE) or DACT1 (dapper antagonist of catenin-1) interference (sh-DACT1) vectors were administered by intraarticular injection. Moreover, chondrocyte­like ATDC5 cells were treated with IL-1ß (10 ng/mL) to simulate OA conditions in vitro. We found that overexpression of CRNDE alleviated cartilage damage and synovitis in OA rats, and suppressed IL-1ß-induced apoptosis, inflammation, and extracellular matrix (ECM) degradation in chondrocyte­like ATDC5 cells, while silencing DACT1 effectively antagonized the protective effect of CRNDE both in vivo and in vitro. Mechanism studies revealed that DACT1 could act as a downstream target of CRNDE. By recruiting p300, CRNDE promoted the enrichment of H3K27ac in the DACT1 promoter, thus promoting DACT1 transcription. In addition, CRNDE hindered the activation of the Wnt/ß-catenin pathway in IL-1ß-stimulated cells by inducing DACT1 expression. In conclusion, CRNDE promoted DACT1 expression through epigenetic modification and restrained the activation of Wnt/ß-catenin signaling to impede the progression of OA.

Differential expression of regulators of the canonical Wnt pathway during the compensatory beta-cell hyperplasia in prediabetic mice.

We previously reported that the canonical Wnt signaling pathway is activated during compensatory islet hyperplasia in prediabetic mice. Here, we aimed to expand our knowledge concerning the Wnt signaling partners and modulators involved in this process. We report here that Axin1, Axin2, and DACT1, inhibitors of the canonical Wnt signaling pathway, displayed no change in their expression, while GSK-3ß, a multi-functional kinase that acts as a negative regulator of this pathway as well as affects insulin secretion/action, was up-regulated in hyperplastic islets of prediabetic mice. We also observed that COUP-TFII, a protein that acts positively on Wnt-target genes related to cell proliferation, displays a significant increase in gene expression and protein content and is highly immunolabeled in islet cell nuclei of prediabetic mice compared to control islets. These findings suggest that GSK-3ß and COUP-TFII may play a role in beta-cell dysfunction and hyperplasia during type 2 prediabetes.

A newly identified lncRNA H1FX-AS1 targets DACT1 to inhibit cervical cancer via sponging miR-324-3p.

BACKGROUND: Cervical cancer (CC) is the 4th most common cancer-related death in gynecological cancer worldwide. It has been reported that many lncRNAs contribute to oncogenesis although the fundamental mechanisms are basically unknown. Here, we aimed to identify a novel lncRNA H1FX-AS1 and explore a ceRNA network in CC oncogenesis and progression. METHODS: The expression level and the association with the prognosis of H1FX-AS1 in CC patients were analyzed based on Cancer Genome Atlas (TCGA) datasets, and further verified in 50 CC patients. The biological role of H1FX-AS1 was investigated in vitro and in vivo by over-expression of H1FX-AS1 in CC cells; the potential binding sites between H1FX-AS1 and miRNA, between miR-324-3p and DACT1 were predicted by LncBASE and Targetscan respectively, which were further verified by dual-luciferase reporter assay, RNA pull-down and point mutation; the relationship between genes was analyzed by Pearson correlation; the rescue experiments were used to further explore the involved molecular mechanism. RESULTS: Lower H1FX-AS1 expression in CC tissues was found to be associated with the poor prognosis of CC patients. Over-expression of H1FX-AS1 inhibited CC cell proliferation, migration and invasion, while induced apoptosis by sponging miR-324-3p to up-regulate the DACT1 expression level. CONCLUSION: A novel lncRNA H1FX-AS1 was identified, which acted as a competing endogenous RNA (ceRNA) of miR-324-3p to inhibit DACT1 mediated CC progression. Therefore, H1FX-AS1 is a new prognostic predictor and targeting the factors in the H1FX-AS1/miR-324-3p/DACT1 axis is the novel potential therapeutic strategy for CC.

Effects of DACT1 methylation status on invasion and metastasis of nasopharyngeal carcinoma.

BACKGROUND: The purpose of the present study was to investigate the role of the methylation status of the DACT1 gene on the invasion and metastasis of nasopharyngeal carcinoma cells. METHODS: The levels of methylation and expression of the DACT1 gene in nasopharyngeal carcinoma tissues and CNE2 cells were determined by methylation-specific PCR and RT-PCR, respectively. CNE2 cells were treated with 5-aza-2-deoxycytidine, and the variation in the methylation status of the DACT1 gene was detected, as well as the influence of methylation on invasiveness of nasopharyngeal carcinoma cells. RESULTS: The DACT1 gene was hyper-methylated in 44 of 62 cases of nasopharyngeal carcinoma. The DACT1 gene was hyper-methylated in 32 of 38 cases of nasopharyngeal carcinoma with lymph node metastasis, and the DACT1 gene was hyper-methylated in 7 of 24 cases of nasopharyngeal carcinoma without lymph node metastasis. The DACT1 mRNA level was weakly expressed or not expressed in all nasopharyngeal carcinoma tissues with hyper-methylated DACT1 genes; however, the DACT1 mRNA level was highly expressed in nasopharyngeal carcinoma tissues with low expression of the methylated DACT1 gene. The DACT1 gene was hyper-methylated and not expressed in CNE2 cells that did not have 5-aza-2-deoxycytidine treatment. After 5-aza-2-deoxycytidine treatment, the DACT1 gene was demethylated and the expression of DACT1 was restored. Moreover, the invasion ability was inhibited in CNE2 cells treated with 5-aza-2-deoxycytidine. CONCLUSION: The expression of DACT1 was related to the methylation status. High expression of DACT1 may inhibit the invasion and metastasis of nasopharyngeal carcinoma cells.

miR-124 promotes proliferation and neural differentiation of neural stem cells through targeting DACT1 and activating Wnt/ß-catenin pathways.

Neural stem cells (NSCs) are multipotent and undifferentiated cells with the potential to differentiate into neuronal lineages and gliocytes. NSCs have the ability to generate and regenerate the brain, indicating the possibility of cell-based therapies for neurological disorders. miR-124 has been demonstrated as a modulator in the survival, expansion, and differentiation of NSCs. However, the underlying molecular mechanisms of miR-124 in NSC development are still far from being understood. The expressions of miR-124, dishevelled binding antagonist of beta-catenin 1 (DACT1), ki-67, Nestin, ß-tubulin III, glial fibrillary acidic protein (GFAP), ß-catenin, cyclinD1, and glycogen synthase kinase-3ß (GSK-3ß) were examined by qRT-PCR or western blot. Bioinformatics and Dual-Luciferase reporter assay were used to identify the interaction between miR-124 and DACT1. MTS analysis was performed to measure the viability of NSCs. Enhanced expression of miR-124 and lowered expression of DACT1 were observed during a 14-day NSC differentiation period. DACT1 was verified as a direct target of miR-124. Moreover, overexpression of miR-124 promoted NSC proliferation and induced neuron-specific differentiation, presented as increased cell viability, higher neurosphere number, elevated ki-67, Nestin, ß-tubulin III expressions, and decreased GFAP expression. Similarly, DACT1 downregulation facilitated proliferation and neuronal differentiation of NSCs. Furthermore, DACT1 overexpression impaired miR-124-induced proliferation and differentiation of NSCs. Additionally, miR-124 stimulated Wnt/ß-catenin signaling via suppressing DACT1 expression. miR-124 promoted proliferation and induced NSC differentiation to neurons by activation of Wnt/ß-catenin pathway via targeting DACT1, providing a potential target and aiding the development of cell-based therapies for neurological disorders.

Heterozygous Pathogenic Variant in DACT1 Causes an Autosomal-Dominant Syndrome with Features Overlapping Townes-Brocks Syndrome.

A heterozygous nonsense variant was identified in dapper, antagonist of beta-catenin, 1 (DACT1) via whole-exome sequencing in family members with imperforate anus, structural renal abnormalities, genitourinary anomalies, and/or ear anomalies. The DACT1 c.1256G>A;p.Trp419* variant segregated appropriately in the family consistent with an autosomal dominant mode of inheritance. DACT1 is a member of the Wnt-signaling pathway, and mice homozygous for null alleles display multiple congenital anomalies including absent anus with blind-ending colon and genitourinary malformations. To investigate the DACT1 c.1256G>A variant, HEK293 cells were transfected with mutant DACT1 cDNA plasmid, and immunoblotting revealed stability of the DACT1 p.Trp419* protein. Overexpression of DACT1 c.1256G>A mRNA in Xenopus embryos revealed a specific gastrointestinal phenotype of enlargement of the proctodeum. Together, these findings suggest that the DACT1 c.1256G>A nonsense variant is causative of a specific genetic syndrome with features overlapping Townes-Brocks syndrome.

DACT1 overexpression inhibits proliferation, enhances apoptosis, and increases daunorubicin chemosensitivity in KG-1α cells.

DACT1 has been shown to participate in the development of many types of tumors; however, its role and precise molecular mechanisms in leukemia are unclear. In this study, we investigated the effect of DACT1 on KG-1α leukemia cells to further understand the mechanisms of DACT1-mediated tumor suppression. We transfected a DACT1 expression plasmid to upregulate DACT1 in KG-1α cells and analyzed the resulting phenotypic changes. The results demonstrated that DACT1 overexpression inhibited KG-1α proliferation, increased apoptosis, and arrested cells in the G0/G1 phase. Mechanistically, DACT1 overexpression inhibited Wnt/ß-catenin signaling by reducing nuclear ß-catenin levels in KG-1α cells. Furthermore, the viability of KG-1α cells transfected with DACT1 was significantly reduced when treated with daunorubicin. We also found that DACT1 reduced P-glycoprotein expression in KG-1α cells. These findings revealed an inhibitory role for DACT1 in leukemogenesis and provided evidence that DACT1 is an attractive target for the development of novel anti-leukemia therapies.

High resolution melt curve analysis based on methylation status for human semen identification.

A high resolution melt curve assay to differentiate semen from blood, saliva, urine, and vaginal fluid based on methylation status at the Dapper Isoform 1 (DACT1) gene was developed. Stains made from blood, saliva, urine, semen, and vaginal fluid were obtained from volunteers and DNA was isolated using either organic extraction (saliva, urine, and vaginal fluid) or Chelex® 100 extraction (blood and semen). Extracts were then subjected to bisulfite modification in order to convert unmethylated cytosines to uracil, consequently creating sequences whose amplicons have melt curves that vary depending on their initial methylation status. When primers designed to amplify the promoter region of the DACT1 gene were used, DNA from semen samples was distinguishable from other fluids by a having a statistically significant lower melting temperature. The assay was found to be sperm-significant since semen from a vasectomized man produced a melting temperature similar to the non-semen body fluids. Blood and semen stains stored up to 5 months and tested at various intervals showed little variation in melt temperature indicating the methylation status was stable during the course of the study. The assay is a more viable method for forensic science practice than most molecular-based methods for body fluid stain identification since it is time efficient and utilizes instrumentation common to forensic biology laboratories. In addition, the assay is advantageous over traditional presumptive chemical methods for body fluid identification since results are confirmatory and the assay offers the possibility of multiplexing which may test for multiple body fluids simultaneously.

Genetic analysis of DACT1 in 100 Chinese Han women with Müllerian duct anomalies.

Dapper antagonist of catenin-1 (DACT1) plays an important role in embryogenesis and organogenesis of the female reproductive tract in mouse models. The aim of this study was to investigate the association between DACT1 mutations and human Müllerian duct anomalies (MDA). One hundred clinically well-defined Chinese Han patients with MDA and 200 healthy controls were recruited in this study. All four exons coding for DACT1 were amplified and sequenced. A missense mutation (c.G1084A, p.V362M) was identified in a patient who had a didelphic uterus and was absent from the control group. This variant changed the hydrophilicity of the amino acid residue and was predicted to be deleterious to the structure and function of DACT1 protein. The data indicate that the p.V362M mutation of DACT1 may be an underlying cause of MDA.

Different expression of DACT1, DACT2, and CYCLIN D1 genes in human colorectal cancer tissues and its association with clinicopathological characteristics.

Aberrant activation of Wnt pathway is linked to dysregulation of several genes. DACT1 and DACT2 are members of the DACT family that participate in antagonizing of the Wnt signaling cascade. Thus in this study, we assessed the mRNA levels of DACT1, DACT2, and CYCLIN D1 in 70 pairs of CRC tissues compared to the adjacent tissues. Determination of the mRNA levels of DACT1, DACT2, and CYCLIN D1 was done by Quantitative Real-Time PCR (qRT-PCR). The correlation between DACT1, DACT2, and CYCLIN D1 genes was also examined. Receiver operating characteristic (ROC) curves was plotted to assess the diagnostic power. The association between histopathological parameters and the DACT1, DACT2, and CYCLIN D1 genes was investigated. The expression levels of DACT1 and CYCLIN D1 were remarkably higher in CRC tissues compared to the adjacent tissues (p < 0.0001). However, the expression of DACT2 was decreased (p < 0.001). Our results showed a significant correlation between the expression of DACT1 and CYCLIN D1 (p < 0.0001). DACT1 (AUC = 0.74, p < 0.0001), DACT2 (AUC = 0.69, p < 0.0003), and CYCLIN D1 (AUC = 0.75, p < 0.0001) had good effectiveness in separation between CRC samples and adjacent tissues. We found a significant association between DACT1 expression with tumor site (p < 0.01). Also, a significant association was detected between DACT2 and CYCLIN D1 with tumor stage (p < 0.005 and p < 0.038, respectively). The findings suggested that DACT1 could function as an oncogene, whereas DACT2 was downregulated and can be considered as a tumor suppressor in CRC.

In vitro evaluation of the pogostone effects on the expression of PTEN and DACT1 tumor suppressor genes, cell cycle, and apoptosis in ovarian cancer cell line.

Background and purpose: Ovarian cancer is one of the most dangerous cancers among women. Pogostone has anticancer effects and is rich in polyphenol compounds. In the present study, we investigated the effects of pogostone on ovarian cancer cell lines (OVCAR-3). Experimental approach: OVCAR-3 cells were treated with pogostone at IC50(90 µg/mL) for 24 and 48 h. Cell viability and apoptotic rate in the cells were measured using MTT assay and flow cytometry. Real-time PCR was used to determine the expression of genes involved in the cell cycle and apoptosis. The expression of caspase-3 (CASP3) protein was evaluated by the CASP3 assay. Findings/Results: Treatment of OVCAR-3 cells with pogostone increased the expression levels of phosphatase and tensin homologue deleted on chromosome ten (PTEN) and Dapper antagonist of catenin-1 (DACT1) tumor suppressor genes, as well as the apoptotic genes CASPs3, 8, and 9. Moreover, the ratio of the expressed BCL2 associated X (BAX)/BCl2 genes, as pro- and anti-apoptotic genes, was increased. The expression levels of the genes related to the cell cycle progression including cyclin D1 (CCND1) and cyclin- dependent kinase 4 (CDK4) were inhibited. The data obtained from flow cytometry indicated that pogostone induced cell apoptosis in 24 and 48 pogostone groups. The CASP3 colorimetric assay revealed that pogostone increased the expression of CASP3 protein in the treated groups. Conclusion and implication: Pogostone, by inducing the expression of PTEN and DACT1 tumor suppressor genes and regulation of downstream genes may decrease cell proliferation and increase the rate of apoptosis in OVCAR-3.

Methylation analysis of APC, AXIN2, DACT1, RASSF1A and MGMT gene promoters in non-small cell lung cancer.

Silencing of tumour-suppressor genes through promoter methylation is frequently observed in carcinogenesis. In this study, we determined the methylation status of RASSF1A, MGMT, APC, AXIN2 and DACT1 genes in 73 cases of non-small cell lung cancer. Methylation-sensitive high-resolution melting analysis (MS-HRM) was used to analyse the promoter methylation, which was further validated with Bisulfite pyrosequencing or Sanger sequencing. Promoter methylation of RASSF1A and APC was frequently found (56% and 49% of cases, respectively), while methylation of MGMT, AXIN2, DACT1 was observed in 30%, 19% and 16%, respectively. Concurrent gene methylation of at least two genes was observed in 55% of the examined cases, with a total of 89% of samples displaying methylation in one or more of the investigated genes. Further analysis of concurrent methylation revealed a positive correlation between AXIN2-DACT1 and an inverse correlation of APC-MGMT. Associations of methylated genes and clinicopathological features were emerged. In more detail, APC promoter methylation was correlated with smoking status (p= 0.020) and non-metastatic cases (p= 0.003). Moreover, MGMT methylation was preferentially found in TTF1-negative cases (p= 0.049). Interestingly, correlation occurred between AXIN2/DACT1 methylation and smoking status (p= 0.009) as well as tumour grade (p= 0.013), as none of these genes was methylated in the majority of smokers and one of the genes was methylated in high-grade tumours. We conclude that aberrant promoter methylation was observed in our cohort while concurrent methylation patterns were also determined. APC, MGMT and AXIN2/DACT1 methylation are potentially of clinical importance regarding prognosis and histological subtyping of NSCLC.

Disheveled binding antagonist of ß-catenin 1 interacted with ß-catenin and connexin 43 in human-induced pluripotent stem cells-derived cardiomyocytes.

Previously, we demonstrated that the disheveled binding antagonist of ß-catenin 1 (DACT1) was involved in atrial fibrillation by regulating the reorganization of connexin 43 and ß-catenin in cardiomyocytes. Little is known, however, about DACT1 in human normal myocardial cells. Therefore, we used cardiomyocytes (CMs) derived from human embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) to investigate the role of DACT1 and its connection with ß-catenin and connexin 43. While the ESC-CMs and iPSC-CMs were differentiated using commercial differentiation kits, the cardiac-specific markers were detected by immunofluorescence. The expression level of DACT1 was detected using western blotting, whereas the interaction of DACT1 and connexin 43 or ß-catenin was detected by immunofluorescence and co-immunoprecipitation (co-IP) assays. Both H1-CMs and SF-CMs were immunostained for cardiac-specific markers, including Troponin I, Troponin T, α-actinin, NKX2.5, and GATA6. While DACT1 was not expressed in both H1 ESCs and SF-iPSCs, it was, however, highly expressed in differentiated CMs, being also localized in the cytoplasm and the nucleus of differentiated CMs. Interestingly, the DACT1 expression in different nuclei was different in the same multinucleated cell. Moreover, DACT1 colocalized with ß-catenin in both the cytoplasm and nucleus of differentiated CMs, and it also colocalized with connexin 43 in the perinuclear region and the gap junctions of differentiated CMs. Co-IP results showed that DACT1 could directly bind to ß-catenin and connexin 43. Taken together, DACT1 interacted with ß-catenin and connexin 43 in human-induced pluripotent stem cells-derived cardiomyocytes.

Dact1 is expressed during chicken and mouse skeletal myogenesis and modulated in human muscle diseases.

Vertebrate skeletal muscle development and repair relies on the precise control of Wnt signaling. Dact1 (Dapper/Frodo) is an important modulator of Wnt signaling, interacting with key components of the various Wnt transduction pathways. Here, we characterized Dact1 mRNA and protein expression in chicken and mouse fetal muscles in vivo and during the differentiation of chick primary and mouse C2C12 myoblasts in vitro. We also performed in silico analysis to investigate Dact1 gene expression in human myopathies, and evaluated the Dact1 protein structure to seek an explanation for the accumulation of Dact1 protein aggregates in the nuclei of myogenic cells. Our results show for the first time that in both chicken and mouse, Dact1 is expressed during myogenesis, with a strong upregulation as cells engage in terminal differentiation, cell cycle withdrawal and cell fusion. In humans, Dact1 expression was found to be altered in specific muscle pathologies, including muscular dystrophies. Our bioinformatic analyses of Dact1 proteins revealed long intrinsically disordered regions, which may underpin the ability of Dact1 to interact with its many partners in the various Wnt pathways. In addition, we found that Dact1 has strong propensity for liquid-liquid phase separation, a feature that explains its ability to form nuclear aggregates and points to a possible role as a molecular 'on'-'off' switch. Taken together, our data suggest Dact1 as a candidate, multi-faceted regulator of amniote myogenesis with a possible pathophysiological role in human muscular diseases.

MicroRNA-125b-5p improves pancreatic ß-cell function through inhibiting JNK signaling pathway by targeting DACT1 in mice with type 2 diabetes mellitus.

Type 2 diabetes mellitus (T2DM) is a progressive disease, accompanied by increased insulin resistance and deteriorating ß-cell function. Previous studies have revealed that microRNA (miRNA) plays a crucial role in the treatment of T2DM. Hence, we aim to investigate the role of microRNA-125b-5p (miR-125b-5p) in pancreatic ß-cell function and insulin sensitivity of mice with T2DM with the involvement of Dishevelled antagonist Dapper1 (DACT1) and the c-Jun NH2-terminal kinases (JNK) signaling pathway. Firstly, a mouse model of T2DM was established by administering a high-fat diet plus low dosage of streptozotocin, and function of pancreatic ß-cell and insulin sensitivity in the normal and T2DM mice were detected. Then, the pancreatic ß-cells were collected from pancreatic islet tissues and treated with different mimics, inhibitors and siRNAs. After that, the relationship among miR-125b-5p, DACT1, and the JNK signaling-related factors in T2DM mice was determined. Finally, cell proliferation and apoptosis were determined. Mice with T2DM had lower pancreatic ß-cell function and insulin sensitivity, as well as diminished expression of miR-125b-5p but enhanced expressions of DACT1, JNK and c-Jun. miR-125b-5p inhibited DACT1 expression and the activation of the JNK signaling pathway, as well as restrained cell proliferation and promoted cell apoptosis. The current results suggest that up-regulated miR-125b-5p promotes insulin sensitivity and enhances pancreatic ß-cell function through inhibiting the JNK signaling pathway by negatively mediating DACT1.

TGF-ß signaling regulates DACT1 expression in intestinal epithelial cells.

DACT1, was first identified as a Dishevelled-associated antagonist of Wnt signaling pathway. It has been reported that DACT1 functions in embryonic development and tumorigenesis. However, the regulation of DACT1 still remains unclear. We found Wnt signaling has no effect on DACT1, but TGF-ß increases expression of DACT1 in intestinal epithelial cells. In addition, the minimal promoter is located in the region of -500bp to +1bp and the region between -3000bp to +1bp enhanced promoter activity. Site-directed mutation analysis was performed and indicated that potential regulatory elements was near -335bp. Our study provided the basic information for the exploration of DACT1 regulation and expression. Moreover, TGF-ß inhibits Wnt signaling to enhance the function of DACT1 inhibiting Wnt signaling.

MiR-324-3p promotes tumor growth through targeting DACT1 and activation of Wnt/ß-catenin pathway in hepatocellular carcinoma.

Recently, it has been reported that miR-324-3p participates in regulation of the carcinogenesis and tumor progression in various cancers. However, the expression and function of miR-324-3p in hepatocellular carcinoma (HCC) remain unclear. In the current study, miR-324-3p expression was significantly up-regulated in HCC tissues and cell lines. HCC patients with high miR-324-3p level showed poor prognostic features and shorter overall survival and disease-free survival. And in vitro and in vivo experiments revealed that miR-324-3p promoted cell viability, colony formation, proliferation and cell cycle progression of HCC cells. Further studies demonstrated that miR-324-3p could directly target DACT1 (dishevelled binding antagonist of beta catenin 1) and negatively regulated its expression in HCC cells. And rescue experiments revealed that DACT1 could reverse the effects of miR-324-3p on HCC cells. Furthermore, the accumulation of both cytoplasmic and nuclear ß-catenin as well as its downstream targets including c-Myc and cyclin D1 could be positively regulated by miR-324-3p. The regulatory effects of miR-324-3p on ß-catenin, c-Myc and cyclin D1 levels could be reversed by DACT1. Overall, we concluded that miR-324-3p could promote tumor growth through targeting DACT1 and activation of Wnt/ß-catenin pathway in HCC. MiR-324-3p may be a ponderable and promising therapeutic target for HCC.

Association analysis of DACT1 genetic variants and gastric cancer risk in a Chinese Han population: a case-control study.

PURPOSE: Disheveled-binding antagonist of beta-catenin 1 (DACT1) is involved in tumorigenesis through influencing cell apoptosis and proliferation. We aimed to investigate the effect of three tag single-nucleotide polymorphisms (SNPs) in DACT1 (rs863091 C>T, rs17832998 C>T, and rs167481 C>T) on the occurrence of gastric cancer (GC), their association with specific clinical characteristics, and consideration of the functional relevance of GC-related SNPs. SUBJECTS AND METHODS: In this hospital-based case-control study, the genotypes were acquired using the TaqMan-MGB method consisting of 602 cases and 602 controls. DACT1 messenger RNA level was evaluated in 76 paired tumoral and normal tissues using quantitative reverse transcription-polymerase chain reaction. Logistic regression was used to evaluate the associations among the DACT1 SNPs and GC. RESULTS: We found a significant association between the variant genotypes of rs863091 and decreased risk of GC (TT vs CC: P=0.009, adjusted odds ratio =0.34, 95% confidence interval =0.15-0.77; CT + TT vs CC: P=0.030, adjusted odds ratio =0.74, 95% confidence interval =0.57-0.97). In further stratified analyses, rs863091 variant genotypes were associated with a reduced risk of GC in younger individuals (<60 years) and males. No overall significant association with GC risk was observed in SNP rs17832998 or rs167481. Additionally, we assessed DACT1 messenger RNA levels in GC and found that DACT1 expressions of individuals carrying CT and TT genotypes were much higher than those with CC genotype. CONCLUSION: Our findings suggest that the DACT1 rs863091 C>T polymorphism may be associated with a decreased risk of GC in the Chinese Han population and influence DACT1 expression.

Dapper homolog 1 alpha suppresses metastasis ability of gastric cancer through inhibiting planar cell polarity pathway.

Dapper homolog 1 alpha (DACT1α) is a member of DACT family and an important regulator in the planar cell polarity pathway. We aim to clarify its functional role in metastasis ability of gastric cancer. DACT1α was silenced in all gastric cancer cell lines (8/8), but expressed in normal gastric tissue. Ectopic expression of DACT1α in silenced gastric cancer cell lines (AGS, BGC823 and MGC803) by stable transfection significantly suppressed cancer cell spreading (P < 0.05), migration (P < 0.01) and invasion (P < 0.01). These effects were associated with downregulation of planar cell polarity pathway related genes involved in cell proliferation (PDGFB, VEGFA), adhesion (ITGA1, ITGA2, ITGA3, ITGB3) and migration/invasion (PLAU, MMP9, MCAM, Dvl-2 and JNK). DACT1α promoter methylation was detected in 205 gastric cancers and 20 normal controls by direct bisulfite genomic sequencing. DACT1α methylation was detected in 29.3% (60/205) of gastric cancer patients, but not in normal tissues. DACT1α methylation was associated with poor survival of gastric cancer patients. In conclusion, DACT1α plays a pivotal role as a potential tumor suppressor in migration and invasion of gastric cancer. DACT1α methylation may serve as a biomarker for the prognosis of gastric cancer.