Methylation of p15INK4b and Expression of ANRIL on Chromosome 9p21 Are Associated with Coronary Artery Disease

Background

Genome-wide association studies have identified that multiple single nucleiotide polymorphisms on chromosome 9p21 are tightly associated with coronary artery disease (CAD). However, the mechanism linking this risk locus to CAD remains unclear.

Methodology/Principal Findings

The methylation status of six candidate genes (BAX, BCL-2, TIMP3, p14^ARF, p15^INK4b and p16^INK4a) in 205 patients and controls who underwent coronary angiography were analyzed by quantitative MethyLight assay. Rs10757274 was genotyped and expression of INK4/ARF and antisense non-coding RNA in the INK4 locus (ANRIL) was determined by real-time RT-PCR. Compared with controls, DNA methylation levels at p15^INK4b significantly increased in CAD patients (p = 0.006). To validate and dissect the methylation percentage of each target CpG site at p15^INK4b, pyrosequencing was performed, finding CpG +314 and +332 remarkably hypermethylated in CAD patients. Further investigation determined that p15^INK4b hypermethylation prevalently emerged in lymphocytes of CAD patients (p = 0.013). The rs10757274 genotype was significantly associated with CAD (p = 0.003) and GG genotype carriers had a higher level of ANRIL exon 1–5 expression compared among three genotypes (p = 0.009). There was a stepwise increase in p15^INK4b and p16^INK4a methylation as ANRIL exon 1–5 expression elevated (r = 0.23, p = 0.001 and r = 0.24, p = 0.001, respectively), although neither of two loci methylation was directly linked to rs10757274 genotype.

Conclusions/Significance

p15^INK4b methylation is associated with CAD and ANRIL expression. The epigenetic changes in p15^INK4b methylation and ANRIL expression may involve in the mechanisms of chromosome 9p21 on CAD development.     

Methylation profile of INK4B-ARF-INK4A locus in atherosclerosis

Single-nucleotide polymorphisms (SNPs) in the 9p21.3 locus have recently been demonstrated to be strongly associated with atherosclerosis. However, the pathophysiology of this locus is insufficiently studied. Here, the methylation profile of the nearest mapped genes for cyclin-dependent kinase inhibitors CDKN2A (p16^INK4a, p14^ARF) and CDKN2B (p15^INK4b) in the tissues of the carotid artery in patients with atherosclerosis was evaluated for the first time. Aberrant DNA methylation of the analyzed loci was not established in either the atherosclerotic plaques or in the tissues from the macroscopically intact vascular wall in the same patients.     

Constitutional promoter methylation and risk of familial melanoma

Constitutional epigenetic changes detected in blood or non-disease involving tissues have been associated with disease susceptibility. We measured promoter methylation of CDKN2A (p16 and p14ARF) and 13 melanoma-related genes using bisulfite pyrosequencing of blood DNA from 114 cases and 122 controls in 64 melanoma-prone families (26 segregating CDKN2A germline mutations). We also obtained gene expression data for these genes using microarrays from the same blood samples. We observed that CDKN2A epimutation is rare in melanoma families, and therefore is unlikely to cause major susceptibility in families without CDKN2A mutations. Although methylation levels for most gene promoters were very low (<5%), we observed a significantly reduced promoter methylation (odds ratio = 0.63, 95% confidence interval = 0.50, 0.80, P < 0.001) and increased expression (fold change = 1.27, P = 0.048) for TNFRSF10C in melanoma cases. Future research in large prospective studies using both normal and melanoma tissues is required to assess the significance of TNFRSF10C methylation and expression changes in melanoma susceptibility.     

Allele-mining of rice blast resistance genes at AC134922 locus

The AC134922 locus is one of the most rapidly evolving nucleotide binding site-leucine-rich repeat (NBS-LRR) gene family in rice genome. Six rice blast resistance (R) genes have been cloned from this locus and other two resistance candidate genes, Pi34 and Pi47, are also mapped to this complex locus. Therefore, it seems that more functional R genes could be identified from this locus. In this study, we cloned 22 genes from 12 cultivars based on allele-mining strategy at this locus and identified 6 rice blast R genes with 4 of them recognizing more than one isolates. Our result suggests that gene stacking might be the evolutionary strategy for complex gene locus to interact with rapidly evolving pathogens, which might provide a potential way for the cloning of durable resistance genes. Moreover, the mosaic structure and ambiguous ortholog/paralog relationships of these homologous genes, caused by frequent recombination and gene conversion, indicate that multiple alleles of this complex locus may serve as a reservoir for the evolutionary novelty of these R genes.     

Promoter hypermethylation of tumour suppressor genes (p14/ARF and p16/INK4a): case–control study in North Indian population

The epigenetic modifications have been reported to be key factors in breast carcinogenesis. In the current study, it has been tried to determine the methylation status of two tumour suppressor genes p14/ARF and p16/INK4a in 150 breast cancer patients as well as 150 controls by using MSP-PCR. There was, highly significant difference in methylation of p14/ARF and p16/INK4a (P = 0.000) between patients and controls. Methylation of both the genes together significantly increased the risk of breast cancer by 12.31 folds. The present study concludes that hypermethylation of p14/ARF and p16/INK4a promoters demonstrate significant association with the risk of breast cancer, hence indicating these as important tumour suppressor genes involved in the pathogenesis of breast cancer in North Indian population (i.e. Punjab, Haryana, Uttar Pradesh, Himachal Pradesh as well as Union Territory of Chandigarh).     

Normal Japanese individuals harbor polymorphisms in the p14 ARF /INK4 locus promoters and/or other gene introns. — Variation in nucleotide sequences in each individual

In order to investigate variation in nucleotide sequences in normal individuals, we isolated genomic DNA from the blood of healthy Japanese individuals and sequenced promoters in the p14 ^ARF /INK4 (p16 ^INK4a and p15 ^INK4b ) locus genes and introns in murine double minute 2, vitamin D receptor, and presenilin 1 genes. We found nucleotide alterations in the promoters, including substitutions at positions ?2610 and ?1536 and deletions at positions ?4489, ?4488 to ?4483, ?2241 to ?2240, and ?2221 to ?2218 in p14 ^ARF and substitutions at positions ?1643 and ?1270 in p15 ^INK4b , and we found that each individual harbored polymorphisms in the locus promoters and/or introns. Some polymorphic nucleotides were included in the same set of associatively altered nucleotides. Reporter gene analysis by using luciferase revealed that altered nucleotides, including those containing the set, changed luciferase gene activity in some cell lines. The results of this study show that multi-nucleotide sequences are altered in each normal Japanese individual.     

Detection of MGMT, RASSF1A, p15INK4B, and p14ARF promoter methylation in circulating tumor-derived DNA of central nervous system cancer patients

Despite the growing understanding of the mechanisms of carcinogenesis, cancers of the central nervous system are usually associated with unfavorable prognosis. The use of an appropriate molecular marker may improve the treatment outcome by allowing early diagnosis and treatment susceptibility monitoring. Since methylation of tumor-derived DNA can be detected in the serum of cancer patients, this makes DNA methylation-based biomarkers one of the most promising diagnostic strategies. In this study, the methylation profiles of MGMT, RASSF1A, p15INK4B, and p14ARF genes were evaluated in serum free-circulating DNA and the corresponding tumor tissue in a group of 33 primary or metastatic central nervous system cancer patients. Gene promoter methylation was assessed using methylation-specific polymerase chain reaction (PCR). All the tested genes were found to be methylated to a different extent in both serum and tumor samples. In comparison to metastatic brain tumor patients, the patients with glial tumors were characterized by a higher frequency of gene hypermethylation. The hypermethylation of RASSF1A differentiated primary from metastatic brain cancers. Moreover, the gene methylation profiles observed in serum, in most cases, matched the methylation profiles detected in paired tumor samples.     

Upregulation of PHLDA2 in Dicer knockdown HEK293 cells

It has been reported that RNAi-dependent chromatin silencing in vertebrates is not restricted to the centromeres. To address whether RNAi machinery could regulate the chromatin structure of imprinted genes, we knocked down Dicer in HEK293 cells and found that the expression of PHLDA2, one of the several genes in the imprinted gene domain of 11p15.5, was specifically upregulated. This was accompanied by a shift towards more activated chromatin at PHLDA2 locus as indicated by change in H3K9 acetylation, however, the methylation state at this locus was not affected. Furthermore, we found that PHLDA2 was downregulated in growth-arrested HEK293 cells induced by either serum deprivation or contact inhibition. This suggests that PHLDA2 upregulation might be a direct result of Dicer depletion rather than the consequence of growth arrest induced by Dicer knockdown. Considering the reports that there is consistent placental outgrowth in PHLDA2 knockout mice and that PHLDA2 overexpression in mice causes growth inhibition, we speculate that PHLDA2 may be a candidate for contributing to the reduced growth rate of Dicer-deficient cells and the very early embryonic lethality in Dicer knockout mice.     

Molecular characterization and expression analysis of Acmago and AcY14 in Antrodia cinnamomea

Mago nashi (Mago) and Y14 proteins, highly conserved among eukaryotes, participate in mRNA localization and splicing, and as such play important roles in oogenesis, embryogenesis and germ-line sex determination during animal development. Here we identified mago (Acmago) and Y14 (AcY14) homologues derived from Antrodia cinnamomea. Acmago encodes 149 amino acids and AcY14 encodes 168 amino acids. Multiple amino acid sequence alignment as well as secondary and tertiary structure prediction showed that AcMago and AcY14 have similar protein structure to the reported crystal structures of other Mago and Y14 proteins. During fungal development both Acmago and AcY14 genes were abundantly expressed in natural basidiomes. This is the first report of the molecular characterization and expression analysis of the mago and Y14 genes from fungi.