Zuping Zhang

MiR-185 Targets the DNA Methyltransferases 1 and Regulates Global DNA Methylation in human glioma

BackgroundPerturbation of DNA methylation is frequent in cancers and has emerged as an important mechanism involved in tumorigenesis. To determine how DNA methylation is modified in the genome of primary glioma, we used Methyl-DNA immunoprecipitation (MeDIP) and Nimblegen CpG promoter microarrays to identify differentially DNA methylation sequences between primary glioma and normal brain tissue samples.MethodsMeDIP-chip technology was used to investigate the whole-genome differential methylation patterns in glioma and normal brain tissues. Subsequently, the promoter methylation status of eight candidate genes was validated in 40 glioma samples and 4 cell lines by Sequenoms MassARRAY system. Then, the epigenetically regulated expression of these genes and the potential mechanisms were examined by chromatin immunoprecipitation and quantitative real-time PCR.ResultsA total of 524 hypermethylated and 104 hypomethylated regions were identified in glioma. Among them, 216 hypermethylated and 60 hypomethylated regions were mapped to the promoters of known genes related to a variety of important cellular processes. Eight promoter-hypermethylated genes (ANKDD1A, GAD1, HIST1H3E, PCDHA8, PCDHA13, PHOX2B, SIX3, and SST) were confirmed in primary glioma and cell lines. Aberrant promoter methylation and changed histone modifications were associated with their reduced expression in glioma. In addition, we found loss of heterozygosity (LOH) at the miR-185 locus located in the 22q11.2 in glioma and induction of miR-185 over-expression reduced global DNA methylation and induced the expression of the promoter-hypermethylated genes in glioma cells by directly targeting the DNA methyltransferases 1.ConclusionThese comprehensive data may provide new insights into the epigenetic pathogenesis of human gliomas.

POTEH hypomethylation, a new epigenetic biomarker for glioma prognosis.

POTE ankyrin domain family, member H (POTEH) belongs to POTE family, which expresses in many cancers. In this study, methylation status of POTEH promoter and its correlation with clinicopathological parameters were evaluated in glioma tissues and cells. Bisulfite sequencing PCR was carried out to investigate the promoter methylation status of POTEH in tumor of 96 glioma patients and glioma cells U251, SF767, and SF126. The effect of promoter hypomethylation on protein expression was evaluated by immunohistochemistry. POTEH was hypomethylated in 81.3% gliomas and none in normal brain tissues, and correlated significantly with its protein expression. But there was no remarkable relationship between sex, age, advanced tumor grade and POTEH hypomethylation. With the grade progressing, POTEH protein expression was enhanced. The correlation between POTEH hypomethylation, protein expression and overall survival was statistically significant. In POTEH hypomethylation group, patients with POTEH high expression had shorter overall survival than those with low expression. Hypomethylation of POTEH promoter in gliomas accounted for POTEH protein overexpression and poor outcome in a subset of patients. Detection of these epigenetic changes in tumors may provide information regarding prognosis.

SPLUNC1 is associated with nasopharyngeal carcinoma prognosis and plays an important role in all-trans-retinoic acid-induced growth inhibition and differentiation in nasopharyngeal cancer cells

Human SPLUNC1 can suppress nasopharyngeal carcinoma (NPC) tumor formation; however, the correlation between SPLUNC1expression and NPC patient prognosis has not been reported. In the present study, we used a large‐scale sample of 1015 tissue cores to detect SPLUNC1 expression and its association with patient prognosis. SPLUNC1 expression was reduced in NPC samples compared to nontumor nasopharyngeal epithelium tissues. Positive expression of SPLUNC1 in NPC predicted a better prognosis (disease‐free survival, P = 0.034; overall survival, P = 0.048). Coxs proportional hazards model revealed that SPLUNC1 could be a significant prognostic factor affecting disease‐free survival (P = 0.027). A cDNA micro‐array analyzed by significant analysis of micro‐array (SAM) and ingenuity pathway analysis (IPA) revealed that an indirect interaction existed between SPLUNC1 and retinoic acid (RA) in the cancer regulatory network. To further investigate the molecular mechanisms involved, we utilized several bioinformatics tools and identified 12 retinoid X receptors heterodimer binding sites in the promoter region of the SPLUNC1 gene. The transcriptional activity of the SPLUNC1 promoter was up‐regulated significantly by all‐trans‐retinoic acid (ATRA). SPLUNC1 and retinoic acid receptor expression were induced significantly by ATRA, and removal of ATRA led to a progressive loss of SPLUNC1 and retinoic acid receptor expression. ATRA inhibited proliferation and induced the differentiation of NPC cells. Interestingly, over‐expression of SPLUNC1 sensitized NPC cells to ATRA, whereas knockdown of SPLUNC1 in HNE1 cells increased cell viability. Under SPLUNC1 knockdown conditions, differentiation was reversed by ATRA treatment. We concluded that SPLUNC1 could potentially predict prognosis for NPC patients and play an important role in ATRA‐induced growth inhibition and differentiation in NPC cells.

F10 gene hypomethylation, a putative biomarker for glioma prognosis

Tumors are usually characterized by an imbalance in cytosine methylation, including hypomethylation of CpG islands. In this study, bisulfite sequencing PCR was used to assess the promoter methylation status of coagulation factor X (F10) gene in tumors of 96 glioma patients and in glioma cells U251, SF767, and SF126, and the effect of promoter hypomethylation on protein expression was evaluated immunohistochemically. The study showed that the demethylation ratio of F10 in SF126, SF767, and U251 cells was 38.6, 26.4, and 24.3% respectively. Hypomethylation of F10 was detected in 82.3% of glioma specimens and in no normal brain tissues, with significant correlation with its protein expression. However there was no remarkable relationship between F10 hypomethylation and sex, age, and advanced tumor grade. The correlation between F10 hypomethylation, protein expression, and overall survival (OS) was statistically significant. Hypomethylation of F10 promoter in gliomas accounted for F10 encoding protein FX overexpression and aggressive biological behavior in a subset of patients. Furthermore, in the F10 hypomethylation group, OS was shorter for patients with F10 overexpression than for those without. Detection of these epigenetic changes in tumors may provide important information regarding prognosis.

Epigenetically controlled Six3 expression regulates glioblastoma cell proliferation and invasion alongside modulating the activation levels of WNT pathway members

Glioma is the most common primary brain tumor in adults. Six3 is a human homologue of the highly conserved sine oculis gene family and essential transcription regulatory factor in process of eye and fetal forebrain development. However, little is known about the role of Six3 in human tumorigenesis. The aim of this study is to investigate the methylation/expression of Six3 and reveal its function and action mechanism in glioma. Our results showed that Six3 was down-regulated in human glioma tissues and human glioma SHG-44, U251, SF126 and U373-MG cells compared with the normal tissues. And the down-regulation of Six3 was associated with the methylation of its promoter. Glioma U251 cells lacked endogenous Six3. Treatment with demethylating agent (5-aza-2′-deoxycytidine) or exogenous expression of Six3 restored Six3 production and resulted in suppression of cell cycle G1/S transition, proliferation and invasion and down-regulation of the expression of Wnt1, p-GSK3-β, β-catenin and cyclin D1 in glioma U251 cells. However, knockdown of Six3 in SHG-44 cells, which have relative higher baseline level of Six3, resulted in an opposite action. These results demonstrate that Six3 silence or loss in glioma is induced by its promoter hypermethylation and Six3 down-regulation contributes to proliferation and invasion of glioma. And this process is involved in activation of Wnt/β-catenin pathway. Six3 play a suppressor role in the initiation and progression of human glioma and potentially serve as a target for the diagnosis and treatment of human glioma.