Genome-Wide Mutational Signatures of Aristolochic Acid and Its Application as a Screening Tool

Poon, Song Ling; Pang, See Tong; McPherson, John R.; Yu, Willie; Huang, Kie Kyon; Guan, Peiyong; Weng, Wen Hui; Siew, Ee Yan; Liu, Yujing; Heng, Hong Lee; Chong, Siong Choy; Gan, Anna; Tay, Su Ting; Lim, Weng Khong; Cutcutache, Ioana; Huang, Dachuan; Ler, Lian Dee; Nairismägi, Maarja Liisa; Lee, Ming Hui; Chang, Yu‐Ling; Yu, Kai; Chan-On, Waraporn; Li, Bin Kui; Yuan, Yunfei; Qian, Chao Nan; Ng, Kwai Fong; Wu, Ching-Feng; Hsu, Cheng Lung; Bunte, Ralph M.; Stratton, Michael R.; Futreal, P. Andrew; Sung, Wing-Kin; Chuang, Cheng Keng; Ong, Choon Kiat; Rozen, Steve; Tan, Patrick; Teh, Bin Tean

doi:10.1126/scitranslmed.3006086

Cited by 251 publications

(278 citation statements)

References 48 publications

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“…The predominance of A4T transversion on the non-transcribed strand of DNA along with a preference for deoxyadenosine in the C/T[A:T]A/G motif supports exposure to AA as the underlying factor. Similar patterns have recently been observed in urothelial carcinoma of the upper urinary tract in patients 12,27 as well as in cultured primary cells 27,28 exposed to AA, with C/T[A:T]G being the preferential sequence context. Our WGS data show that a less marked increase in A4T transversions also occurs in other sequence contexts.…”

Section: Discussionsupporting

confidence: 56%

Variation in genomic landscape of clear cell renal cell carcinoma across Europe

Scélo¹,

Riazalhosseini²,

Greger³

et al. 2014

Nat Commun

177

166

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The incidence of renal cell carcinoma (RCC) is increasing worldwide, and its prevalence is particularly high in some parts of Central Europe. Here we undertake whole-genome and transcriptome sequencing of clear cell RCC (ccRCC), the most common form of the disease, in patients from four different European countries with contrasting disease incidence to explore the underlying genomic architecture of RCC. Our findings support previous reports on frequent aberrations in the epigenetic machinery and PI3K/mTOR signalling, and uncover novel pathways and genes affected by recurrent mutations and abnormal transcriptome patterns including focal adhesion, components of extracellular matrix (ECM) and genes encoding FAT cadherins. Furthermore, a large majority of patients from Romania have an unexpected high frequency of A:T4T:A transversions, consistent with exposure to aristolochic acid (AA). These results show that the processes underlying ccRCC tumorigenesis may vary in different populations and suggest that AA may be an important ccRCC carcinogen in Romania, a finding with major public health implications.

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Section: Discussionsupporting

confidence: 56%

Variation in genomic landscape of clear cell renal cell carcinoma across Europe

Scélo¹,

Riazalhosseini²,

Greger³

et al. 2014

Nat Commun

177

166

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“…The ICC-unique mutation spectrum (CTG4CAG and CAG4CTG) is tightly associated with liver inflammation, fibrosis and cirrhosis, suggesting that mutagens that have caused such mutations have also caused inflammation, fibrosis and cirrhosis. It is also likely that these ICC patients who harbour the ICC-unique mutation spectrum may have been exposed to aristolochic acid (AA), a nitrophenanthrene carboxylic acid found in all members of the genus Aristolochia plants that have been used in medicine for over 2,000 years 65,66 . Recent studies showed that humans exposed to AA causes A:T4T:A transversions 65,66 .…”

Section: Discussionmentioning

confidence: 99%

“…It is also likely that these ICC patients who harbour the ICC-unique mutation spectrum may have been exposed to aristolochic acid (AA), a nitrophenanthrene carboxylic acid found in all members of the genus Aristolochia plants that have been used in medicine for over 2,000 years 65,66 . Recent studies showed that humans exposed to AA causes A:T4T:A transversions 65,66 . AA has been demonstrated to be a causative carcinogen of urothelial carcinoma of the upper urinary tract (UTUC) 30,31 .…”

Section: Discussionmentioning

confidence: 99%

Mutational landscape of intrahepatic cholangiocarcinoma

et al. 2014

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“…Exposure of human bronchial cells to the diol epoxide of the PAH benzo[a]pyrene causes DNA damage at the same G:C pairs that are frequently mutated into T:A in lung cancers from smokers (Denissenko et al 1996;Tretyakova et al 2002). Recently, a mutational fingerprint of aristolochic acid has been reported in urothelial carcinomas of subjects with a history of exposure to herbal remedies and food products containing seeds of Aristolochia clematitis (Hollstein et al 2013;Poon et al 2013). Last, all cancer types harbor at least 20% of G:C.A:T mutations at hypermutable CpG dinucleotides, attributed to the normal cellular event of deamination of 5-methylcytosine to thymine.…”

Section: Mutation Patterns As Signatures Of Mutagenic Processesmentioning

confidence: 99%

SomaticTP53Mutations in the Era of Genome Sequencing

Hainaut

Pfeifer

2016

Cold Spring Harb Perspect Med

185

137

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Amid the complexity of genetic alterations in human cancer, TP53 mutation appears as an almost invariant component, representing by far the most frequent genetic alteration overall. Compared with previous targeted sequencing studies, recent integrated genomics studies offer a less biased view of TP53 mutation patterns, revealing that .20% of mutations occur outside the DNA-binding domain. Among the 12 mutations representing each at least 1% of all mutations, five occur at residues directly involved in specific DNA binding, four affect the tertiary fold of the DNA-binding domain, and three are nonsense mutations, two of them in the carboxyl terminus. Significant mutations also occur in introns, affecting alternative splicing events or generating rearrangements (e.g., in intron 1 in sporadic osteosarcoma). In aggressive cancers, mutation is so common that it may not have prognostic value (all these cancers have impaired p53 function caused by mutation or by other mechanisms). In several other cancers, however, mutation makes a clear difference for prognostication, as, for example, in HER2-enriched breast cancers and in lung adenocarcinoma with EGFR mutations. Thus, the clinical significance of TP53 mutation is dependent on tumor subtype and context. Understanding the clinical impact of mutation will require integrating mutationspecific information (type, frequency, and predicted impact) with data on haplotypes and on loss of heterozygosity.

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Genome-Wide Mutational Signatures of Aristolochic Acid and Its Application as a Screening Tool

Cited by 251 publications

References 48 publications

Variation in genomic landscape of clear cell renal cell carcinoma across Europe

Variation in genomic landscape of clear cell renal cell carcinoma across Europe

Mutational landscape of intrahepatic cholangiocarcinoma

SomaticTP53Mutations in the Era of Genome Sequencing

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