Epigenomic annotation of noncoding mutations identifies mutated pathways in primary liver cancer

Lowdon, Rebecca F.; Wang, Ting

doi:10.1371/journal.pone.0174032

Cited by 9 publications

(7 citation statements)

References 95 publications

(122 reference statements)

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“…Consistent with previous discovery, 25 we found elevated observed/expected values across most tissues analyzed in repressed ChromHMM states, including heterochromatin (13_Het), repressed Polycomb states (17_ReprPCWk) and Quies (18_Quies) (Fig. 4a).…”

Section: Repressed Regions In Normal Mucosa Are Demethylated In Lstsupporting

confidence: 92%

Genome‐wide DNA methylation profiling of primary colorectal laterally spreading tumors identifies disease‐specific epimutations on common pathways

Zhu

Yan

Wang

et al. 2018

Intl Journal of Cancer

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Colorectal laterally spreading tumors (LSTs) grow to extremely large size while rarely invade deeply. Also, there is a low tendency to become cancerous. We used the Illumina Human Methylation 450K array to query the main epigenetic difference of LSTs. We built a discovery cohort with 10 matched cases, and a validation cohort with 9 additional matched cases. Our results suggest that LST displays significant decrease in DNA methylation, highlighted by the discovery of 1,018 hypomethylated intergenic regions (IGRs). Comparing to classic differentially methylated probes and regions that overlap transcription starting site and CpG island, IGR-regions were associated more closely with genes involved in functional biological processes and correlated with specific histone modifications. Hypomethylated IGR regions were often annotated as tissue-specific regulatory elements for noncolon tissues and were typically epigenetically silenced in normal colon mucosa. By integration of public data, we defined the commonality and specific epigenetic signatures for adenomas, LSTs and colon adenocarcinomas. Only 435 hypermethylated differentially methylated probes (DMPs) and differentially methylated regions (DMRs) and 517 hypomethylated DMPs and DMRs were shared by the three diseases. However, our pathway-level analysis discovered that genes in four pathways were common target of epimutations in LSTs, adenomas and CRCs. More interestingly, different diseases seem to employ distinct epigenetic insult to disturb specific pathways. Between LST and adenoma, we found eight pathways including Ras signaling and Rap1 signaling pathway were commonly targeted but the epimutation patterns were opposite. Comparison between precancerous conditions and invasive states revealed the key pathways governing the progression to malignancy, including PI3K-Akt pathways.

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Section: Repressed Regions In Normal Mucosa Are Demethylated In Lstsupporting

confidence: 92%

Genome‐wide DNA methylation profiling of primary colorectal laterally spreading tumors identifies disease‐specific epimutations on common pathways

Zhu

Yan

Wang

et al. 2018

Intl Journal of Cancer

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“…In instances where there was insufficient power, for example, rs77325852 with a power of 30.5% for DBP and CADD score of 7.62 in Table , the CADD score indicated that this variant was likely to have causal variation effects. Evidence is mounting that noncoding variants located in DNA regulatory elements, as are all the NOS3 variants that passed multiple testing thresholds in our analyses (Table ), may have functional consequences by creating, deleting, or altering binding sites for transcriptional regulators (Lowdon and Wang ). Indeed, Chip‐seq annotations of NOS3 rs373009, rs867225, and rs77325852 from ENCODE‐based datasets provide strong evidence supporting regulatory effects, however, linking a specific regulatory effect to these polymorphisms is beyond the scope of our investigation.…”

Section: Discussionmentioning

confidence: 99%

Deep‐targeted sequencing of endothelial nitric oxide synthase gene exons uncovers exercise intensity and ethnicity‐dependent associations with post‐exercise hypotension

Pescatello

Schifano

Ash

et al. 2017

Physiological Reports

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In previous studies, we found an endothelial nitric oxide synthase gene (NOS3) variant rs2070744 associated with the ambulatory blood pressure (BP) response following bouts of moderate and vigorous intensity acute exercise, termed post‐exercise hypotension (PEH). In a validation cohort, we sequenced NOS3 exons for associations with PEH. Obese (30.9 ± 3.6 kg.m−2) African American (n = 14) [AF] and Caucasian (n = 9) adults 42.0 ± 9.8 years with hypertension (139.8 ± 10.4/84.6 ± 6.2 mmHg) performed three random experiments: bouts of vigorous and moderate intensity cycling and control. Subjects were attached to an ambulatory BP monitor for 19 h. We performed deep‐targeted exon sequencing with the Illumina TruSeq Custom Amplicon kit. Variant genotypes were coded as number of minor alleles (#MA) and selected for additional statistical analysis based upon Bonferonni or Benjamini–Yekutieli multiple testing‐corrected P‐values under time‐adjusted linear models for 19 hourly BP measurements for each subject. After vigorous intensity over 19 h, among NOS3 variants passing multiple testing thresholds, as the #MA increased in rs891512 (P = 6.4E‐04), rs867225 (P = 6.5E‐04), rs743507 (P = 2.6E‐06), and rs41483644 (P = 2.4E‐04), systolic (SBP) decreased from 17.5 to 33.7 mmHg; and in rs891512 (P = 9.7E‐05), rs867225 (P = 2.6E‐05), rs41483644 (P = 1.6E‐03), rs3730009 (P = 2.6E‐04), and rs77325852 (P = 5.6E‐04), diastolic BP decreased from 11.1 mmHg to 20.3 mmHg among AF only. In contrast, after moderate intensity over 19 h in NOS3 rs3918164, as the #MA increased, SBP increased by 16.6 mmHg (P = 2.4E‐04) among AF only. NOS3 variants exhibited associations with PEH after vigorous, but not moderate intensity exercise among AF only. NOS3 should be studied further for its effects on PEH in a large, ethnically diverse sample of adults with hypertension to confirm our findings.

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“…An increasing number of studies have reported variants located in intronic and regulatory regions as causative of rare disorders (Johnston et al, 2019; Vuckovic et al, 2020; Whiffin et al, 2020). Moreover, disruption of regulatory mechanisms of gene expression is recognized as an important factor in carcinogenesis (K. Li et al, 2020; Lowdon & Wang, 2017; Orlando et al, 2018; Weinhold et al, 2014). Furthermore, some studies have been able to define tumor subtypes by the recurrent noncoding variants they carry, suggesting the possibility of the use of epigenetic signatures in diagnosis and treatment (Hayward et al, 2017; Torchia et al, 2016; Wellenreuther et al, 1995)…”

Section: Discussionmentioning

confidence: 99%

Pathogenic noncoding variants in the neurofibromatosis and schwannomatosis predisposition genes

2021

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Neurofibromatosis type 1 (NF1), type 2 (NF2), and schwannomatosis are a group of autosomal dominant disorders that predispose to the development of nerve sheath tumors. Pathogenic variants (PVs) that cause NF1 and NF2 are located in the NF1 and NF2 loci, respectively. To date, most variants associated with schwannomatosis have been identified in the SMARCB1 and LZTR1 genes, and a missense variant in the DGCR8 gene was recently reported to predispose to schwannomas. In spite of the high detection rate for PVs in NF1 and NF2 (over 90% of non‐mosaic germline variants can be identified by routine genetic screening) underlying PVs for a proportion of clinical cases remain undetected. A higher proportion of non‐NF2 schwannomatosis cases have no detected PV, with PVs currently only identified in around 70%–86% of familial cases and 30%–40% of non‐NF2 sporadic schwannomatosis cases. A number of variants of uncertain significance have been observed for each disorder, many of them located in noncoding, regulatory, or intergenic regions. Here we summarize noncoding variants in this group of genes and discuss their established or potential role in the pathogenesis of NF1, NF2, and schwannomatosis.

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Epigenomic annotation of noncoding mutations identifies mutated pathways in primary liver cancer

Cited by 9 publications

References 95 publications

Genome‐wide DNA methylation profiling of primary colorectal laterally spreading tumors identifies disease‐specific epimutations on common pathways

Genome‐wide DNA methylation profiling of primary colorectal laterally spreading tumors identifies disease‐specific epimutations on common pathways

Deep‐targeted sequencing of endothelial nitric oxide synthase gene exons uncovers exercise intensity and ethnicity‐dependent associations with post‐exercise hypotension

Pathogenic noncoding variants in the neurofibromatosis and schwannomatosis predisposition genes

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