DNA methylation, nucleosome formation and positioning.

Recent mapping of nucleosome positioning on several long gene regions subject to DNA methylation has identified instances of nucleosome repositioning by this base modification. The evidence for an effect of CpG methylation on nucleosome formation and positioning in chromatin is reviewed here in the context of the complex sequence-structure requirements of DNA wrapping around the histone octamer and the role of this epigenetic mark in gene repression.     

Histone deacetylation directs DNA methylation in survivin gene silencing

DNA methylation and histone acetylation are major epigenetic modifications in gene silencing. In our previous research, we found that the methylated oligonucleotide (SurKex) complementary to a region of promoter of survivin could induce DNA methylation in a site-specific manner leading to survivin silencing. Here, we further studied the role of histone acetylation in survivin silencing and the relationship between histone acetylation and DNA methylation.First we observed the levels of histone H4 and H4K16 acetylation that were decreased after SurKex treatment by using the chromatin immunoprecipitation (ChIP) assay. Next, we investigated the roles of histone acetylation and DNA methylation in survivin silencing after blockade of histone deacetylation with Trichostatin A (TSA). We assessed survivin mRNA expression by RT-PCR, measured survivin promoter methylation by bisulfite sequencing and examined the level of histone acetylation by the ChIP assay. The results showed that histone deacetylation blocked by TSA reversed the effects of SurKex on inhibiting the expression of survivin mRNA, inducing a site-specific methylation on survivin promoter and decreasing the level of histone acetylation. Finally, we examined the role of histone acetylation in the expression of DNA methyltransferase 1 (DNMT1) mRNA. The results showed that histone deacetylation blocked by TSA reversed the increasing effect of histone deacetylation on the expression of survivin mRNA. This study suggests that histone deacetylation guides SurKex-induced DNA methylation in survivin silencing possibly through increasing the expression of DNMT1 mRNA.     

Conditional gene silencing in mammalian cells mediated by a stress-inducible promoter

MicroRNAs (miRNAs) are endogenous non-coding small RNAs, which negatively regulate gene expression in a sequence-specific manner through the RNA interference (RNAi) pathway. Here we describe a new miRNA-based conditional RNAi expression system that relies on cellular stress-response mechanisms in mammalian cells. In our constructs, expression of miRNA mimics is tightly controlled by a heat shock-inducible promoter. This system is highly effective in silencing permanently or conditionally expressed luciferase. The stress inducible vectors also effectively deplete co-expressed pro-apoptotic protein CHOP with heat shock. Furthermore, we demonstrate cloning of a protein-coding sequence between the stress-inducible promoter and the miRNA expression cassette allows simultaneous silencing of a target gene and activation of synthesis of a protein of choice in response to stress stimulation. This new conditional gene silencing approach could be an invaluable tool for various areas of basic and applied research and for therapeutic intervention.     

Gene silencing results in instability of antibody production in transgenic plants

The stability of antibody and F_ab expression was assessed in five different homozygous transgenic Arabidopsis lines. Each of these lines showed silencing of the transgenes that encode the antibody polypeptides, leading to instability of antibody production. However, each line had a different and specific instability profile. The characteristic variation in the level of antibody accumulation in each line as a function of developmental stage indicated that the T-DNA integration pattern played a role in triggering silencing, and also that the history and the integration position of simple transgene loci can influence the susceptibility to epigenetic silencing. In different lines with low antibody accumulation levels, methylation was found either in the promoter alone, in both the promoter and the transcribed region, in the transcribed region only, or in the transcribed region and downstream sequences. In conclusion, our data suggest that epigenetic effects result in different transgene expression profiles in each of the five Arabidopsis lines analyzed. Received: 27 July 1998 / Accepted: 12 October 1998     

CDO1 promoter methylation is associated with gene silencing and is a prognostic biomarker for biochemical recurrence-free survival in prostate cancer patients

Molecular biomarkers may facilitate the distinction between aggressive and clinically insignificant prostate cancer (PCa), thereby potentially aiding individualized treatment. We analyzed cysteine dioxygenase 1 (CDO1) promoter methylation and mRNA expression in order to evaluate its potential as prognostic biomarker. CDO1 methylation and mRNA expression were determined in cell lines and formalin-fixed paraffin-embedded prostatectomy specimens from a first cohort of 300 PCa patients using methylation-specific qPCR and qRT-PCR. Univariate and multivariate Cox proportional hazards and Kaplan-Meier analyses were performed to evaluate biochemical recurrence (BCR)-free survival. Results were confirmed in an independent second cohort comprising 498 PCa cases. Methylation and mRNA expression data from the second cohort were generated by The Cancer Genome Atlas (TCGA) Research Network by means of Infinium HumanMethylation450 BeadChip and RNASeq. CDO1 was hypermethylated in PCa compared to normal adjacent tissues and benign prostatic hyperplasia (P < 0.001) and was associated with reduced gene expression (ρ = ?0.91, P = 0.005). Using two different methodologies for methylation quantification, high CDO1 methylation as continuous variable was associated with BCR in univariate analysis (first cohort: HR = 1.02, P = 0.002, 95% CI [1.01–1.03]; second cohort: HR = 1.02, P = 0.032, 95% CI [1.00–1.03]) but failed to reach statistical significance in multivariate analysis. CDO1 promoter methylation is involved in gene regulation and is a potential prognostic biomarker for BCR-free survival in PCa patients following radical prostatectomy. Further studies are needed to validate CDO1 methylation assays and to evaluate the clinical utility of CDO1 methylation for the management of PCa.     

Virus‐induced gene silencing in transgenic plants: transgene silencing and reactivation associate with two patterns of transgene body methylation

We used bisulfite sequencing to study the methylation of a viral transgene whose expression was silenced upon plum pox virus infection of the transgenic plant and its subsequent recovery as a consequence of so‐called virus‐induced gene silencing (VIGS). VIGS was associated with a general increase in the accumulation of small RNAs corresponding to the coding region of the viral transgene. After VIGS, the transgene promoter was not methylated and the coding region showed uneven methylation, with the 5′ end being mostly unmethylated in the recovered tissue or mainly methylated at CG sites in regenerated silenced plants. The methylation increased towards the 3′ end, which showed dense methylation in all three contexts (CG, CHG and CHH). This methylation pattern and the corresponding silenced status were maintained after plant regeneration from recovered silenced tissue and did not spread into the promoter region, but were not inherited in the sexual offspring. Instead, a new pattern of methylation was observed in the progeny plants consisting of disappearance of the CHH methylation, similar CHG methylation at the 3′ end, and an overall increase in CG methylation in the 5′ end. The latter epigenetic state was inherited over several generations and did not correlate with transgene silencing and hence virus resistance. These results suggest that the widespread CG methylation pattern found in body gene bodies located in euchromatic regions of plant genomes may reflect an older silencing event, and most likely these genes are no longer silenced.     

Gene silencing：Double－stranded RNA mediated mRNA degradation and gene inactivation

INTRODUCTIONThe genome structure of plants can be alteredby genetic transformation. During the process ofgene transfer, Agrobacterium tumefaCJens integratepart of their genome into the genome of susceptiblespecies. Recently, genetic transfOrmation techniqueshave been used to modify significantly the organi-zation of the genome. Introducing transgenes intop1ants can both modify the number of copies of agiven sequence and affect gene expression. Becausethe expression of a transgene cannot…     

Gene silencing and endogenous DNA methylation in mammalian cells

It is known that transformed mammalian cells can spontaneously inactivate genes at low frequency by the de novo methylation of promoter sequences. It is usually assumed that this is due to DNA methyl transferase activity, but an alternative possibiity is that 5-methyldCTP is present in these cells and can be directly incorporated into DNA. The ongoing repair of DNA containing 5-methylcytosine will produce 5-methyldeoxycytidine monophosphate (5-methyldCMP), so the question arises whether this can be phosphorylated to 5-methyldCTP. We have tested this using three strains of CHO cells with different levels of 5-methyldCMP deaminase activity. That with the lowest enzyme activity, designated HAM⁻, has previously been shown to incorporate tritium labelled 5-methyldeoxycytidine into 5-methylcytosine in DNA, with a greater amount of label in thymine. This strain is phenotypically unstable producing cells resistant to bromodeoxyuridine (BrdU) and 6-thioguanine (6-TG) at high frequency. In contrast, the strain with the highest 5-methyldCMP deaminease, designated HAM⁺, is extremely stable, and the starting strain K1 HAM^s1 is intermediate between the HAM⁻ and HAM⁺ phenotypes. We have also shown that human diploid fibroblast strain MRC-5 has a phenotype like HAM⁺, whereas its SV40 transformed derivative, MRC-5V2 resembles HAM⁻ in having low 5-methyl dCMP deaminase activity, and is phenotypically unstable with regard to 6-TG resistance. It seems that 5-methyldCMP deaminase can be down-regulated in transformed cells, and this can promote de novo methylation by incorporation of 5-methyldCTP derived from 5-methyldCMP.