Genome-wide mutational signatures of aristolochic acid and its application as a screening tool

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

doi:10.1126/scitranslmed.3006086

Genome-wide mutational signatures of aristolochic acid and its application as a screening tool

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

Genomic Medicine

Research output: Contribution to journal › Article › peer-review

231 Scopus citations

Abstract

Aristolochic acid (AA), a natural product of Aristolochia plants found in herbal remedies and health supplements, is a group 1 carcinogen that can cause nephrotoxicity and upper urinary tract urothelial cell carcinoma (UTUC). Whole-genome and exome analysis of nine AA-associated UTUCs revealed a strikingly high somatic mutation rate (150 mutations/Mb), exceeding smoking-associated lung cancer (8 mutations/Mb) and ultraviolet radiation-associated melanoma (111 mutations/Mb). The AA-UTUC mutational signature was characterized by A:T to T:A transversions at the sequence motif A[C|T]AGG, located primarily on nontranscribed strands. AA-induced mutations were also significantly enriched at splice sites, suggesting a role for splice-site mutations in UTUC pathogenesis. RNA sequencing of AA-UTUC confirmed a general up-regulation of nonsense-mediated decay machinery components and aberrant splicing events associated with splice-site mutations. We observed a high frequency of somatic mutations in chromatin modifiers, particularly KDM6A, in AA-UTUC, demonstrated the sufficiency of AA to induce renal dysplasia in mice, and reproduced the AA mutational signature in experimentally treated human renal tubular cells. Finally, exploring other malignancies that were not known to be associated with AA, we screened 93 hepatocellular carcinoma genomes/exomes and identified AA-like mutational signatures in 11. Our study highlights an unusual genome-wide AA mutational signature and the potential use of mutation signatures as "molecular fingerprints" for interrogating high-throughput cancer genome data to infer previous carcinogen exposures.

Original language	English (US)
Article number	197ra101
Journal	Science translational medicine
Volume	5
Issue number	197
DOIs	https://doi.org/10.1126/scitranslmed.3006086
State	Published - Aug 7 2013

ASJC Scopus subject areas

General Medicine

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Poon, S. L., Pang, S. T., McPherson, J. R., Yu, W., Huang, K. K., Guan, P., Weng, W. H., Siew, E. Y., Liu, Y., Heng, H. L., Chong, S. C., Gan, A., Tay, S. T., Lim, W. K., Cutcutache, I., Huang, D., Ler, L. D., Nairismägi, M. L., Lee, M. H., ... Teh, B. T. (2013). Genome-wide mutational signatures of aristolochic acid and its application as a screening tool. Science translational medicine, 5(197), Article 197ra101. https://doi.org/10.1126/scitranslmed.3006086

Poon, SL, Pang, ST, McPherson, JR, Yu, W, Huang, KK, Guan, P, Weng, WH, Siew, EY, Liu, Y, Heng, HL, Chong, SC, Gan, A, Tay, ST, Lim, WK, Cutcutache, I, Huang, D, Ler, LD, Nairismägi, ML, Lee, MH, Chang, YH, Yu, KJ, Chan-On, W, Li, BK, Yuan, YF, Qian, CN, Ng, KF, Wu, CF, Hsu, CL, Bunte, RM, Stratton, MR, Andrew Futreal, P, Sung, WK, Chuang, CK, Ong, CK, Rozen, SG, Tan, P & Teh, BT 2013, 'Genome-wide mutational signatures of aristolochic acid and its application as a screening tool', Science translational medicine, vol. 5, no. 197, 197ra101. https://doi.org/10.1126/scitranslmed.3006086

@article{30d1d0b815634b7b94ae6aafa4c213ee,

title = "Genome-wide mutational signatures of aristolochic acid and its application as a screening tool",

abstract = "Aristolochic acid (AA), a natural product of Aristolochia plants found in herbal remedies and health supplements, is a group 1 carcinogen that can cause nephrotoxicity and upper urinary tract urothelial cell carcinoma (UTUC). Whole-genome and exome analysis of nine AA-associated UTUCs revealed a strikingly high somatic mutation rate (150 mutations/Mb), exceeding smoking-associated lung cancer (8 mutations/Mb) and ultraviolet radiation-associated melanoma (111 mutations/Mb). The AA-UTUC mutational signature was characterized by A:T to T:A transversions at the sequence motif A[C|T]AGG, located primarily on nontranscribed strands. AA-induced mutations were also significantly enriched at splice sites, suggesting a role for splice-site mutations in UTUC pathogenesis. RNA sequencing of AA-UTUC confirmed a general up-regulation of nonsense-mediated decay machinery components and aberrant splicing events associated with splice-site mutations. We observed a high frequency of somatic mutations in chromatin modifiers, particularly KDM6A, in AA-UTUC, demonstrated the sufficiency of AA to induce renal dysplasia in mice, and reproduced the AA mutational signature in experimentally treated human renal tubular cells. Finally, exploring other malignancies that were not known to be associated with AA, we screened 93 hepatocellular carcinoma genomes/exomes and identified AA-like mutational signatures in 11. Our study highlights an unusual genome-wide AA mutational signature and the potential use of mutation signatures as {"}molecular fingerprints{"} for interrogating high-throughput cancer genome data to infer previous carcinogen exposures.",

author = "Poon, {Song Ling} and Pang, {See Tong} and McPherson, {John R.} and Willie Yu and Huang, {Kie Kyon} and Peiyong Guan and Weng, {Wen Hui} and Siew, {Ee Yan} and Yujing Liu and Heng, {Hong Lee} and Chong, {Soo Ching} and Anna Gan and Tay, {Su Ting} and Lim, {Weng Khong} and Ioana Cutcutache and Dachuan Huang and Ler, {Lian Dee} and Nairism{\"a}gi, {Maarja Liisa} and Lee, {Ming Hui} and Chang, {Ying Hsu} and Yu, {Kai Jie} and Waraporn Chan-On and Li, {Bin Kui} and Yuan, {Yun Fei} and Qian, {Chao Nan} and Ng, {Kwai Fong} and Wu, {Ching Fang} and Hsu, {Cheng Lung} and Bunte, {Ralph M.} and Stratton, {Michael R.} and {Andrew Futreal}, P. and Sung, {Wing Kin} and Chuang, {Cheng Keng} and Ong, {Choon Kiat} and Rozen, {Steven G.} and Patrick Tan and Teh, {Bin Tean}",

year = "2013",

month = aug,

day = "7",

doi = "10.1126/scitranslmed.3006086",

language = "English (US)",

volume = "5",

journal = "Science translational medicine",

issn = "1946-6234",

publisher = "American Association for the Advancement of Science",

number = "197",

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TY - JOUR

T1 - Genome-wide mutational signatures of aristolochic acid and its application as a screening tool

AU - Poon, Song Ling

AU - Pang, See Tong

AU - McPherson, John R.

AU - Yu, Willie

AU - Huang, Kie Kyon

AU - Guan, Peiyong

AU - Weng, Wen Hui

AU - Siew, Ee Yan

AU - Liu, Yujing

AU - Heng, Hong Lee

AU - Chong, Soo Ching

AU - Gan, Anna

AU - Tay, Su Ting

AU - Lim, Weng Khong

AU - Cutcutache, Ioana

AU - Huang, Dachuan

AU - Ler, Lian Dee

AU - Nairismägi, Maarja Liisa

AU - Lee, Ming Hui

AU - Chang, Ying Hsu

AU - Yu, Kai Jie

AU - Chan-On, Waraporn

AU - Li, Bin Kui

AU - Yuan, Yun Fei

AU - Qian, Chao Nan

AU - Ng, Kwai Fong

AU - Wu, Ching Fang

AU - Hsu, Cheng Lung

AU - Bunte, Ralph M.

AU - Stratton, Michael R.

AU - Andrew Futreal, P.

AU - Sung, Wing Kin

AU - Chuang, Cheng Keng

AU - Ong, Choon Kiat

AU - Rozen, Steven G.

AU - Tan, Patrick

AU - Teh, Bin Tean

PY - 2013/8/7

Y1 - 2013/8/7

N2 - Aristolochic acid (AA), a natural product of Aristolochia plants found in herbal remedies and health supplements, is a group 1 carcinogen that can cause nephrotoxicity and upper urinary tract urothelial cell carcinoma (UTUC). Whole-genome and exome analysis of nine AA-associated UTUCs revealed a strikingly high somatic mutation rate (150 mutations/Mb), exceeding smoking-associated lung cancer (8 mutations/Mb) and ultraviolet radiation-associated melanoma (111 mutations/Mb). The AA-UTUC mutational signature was characterized by A:T to T:A transversions at the sequence motif A[C|T]AGG, located primarily on nontranscribed strands. AA-induced mutations were also significantly enriched at splice sites, suggesting a role for splice-site mutations in UTUC pathogenesis. RNA sequencing of AA-UTUC confirmed a general up-regulation of nonsense-mediated decay machinery components and aberrant splicing events associated with splice-site mutations. We observed a high frequency of somatic mutations in chromatin modifiers, particularly KDM6A, in AA-UTUC, demonstrated the sufficiency of AA to induce renal dysplasia in mice, and reproduced the AA mutational signature in experimentally treated human renal tubular cells. Finally, exploring other malignancies that were not known to be associated with AA, we screened 93 hepatocellular carcinoma genomes/exomes and identified AA-like mutational signatures in 11. Our study highlights an unusual genome-wide AA mutational signature and the potential use of mutation signatures as "molecular fingerprints" for interrogating high-throughput cancer genome data to infer previous carcinogen exposures.

AB - Aristolochic acid (AA), a natural product of Aristolochia plants found in herbal remedies and health supplements, is a group 1 carcinogen that can cause nephrotoxicity and upper urinary tract urothelial cell carcinoma (UTUC). Whole-genome and exome analysis of nine AA-associated UTUCs revealed a strikingly high somatic mutation rate (150 mutations/Mb), exceeding smoking-associated lung cancer (8 mutations/Mb) and ultraviolet radiation-associated melanoma (111 mutations/Mb). The AA-UTUC mutational signature was characterized by A:T to T:A transversions at the sequence motif A[C|T]AGG, located primarily on nontranscribed strands. AA-induced mutations were also significantly enriched at splice sites, suggesting a role for splice-site mutations in UTUC pathogenesis. RNA sequencing of AA-UTUC confirmed a general up-regulation of nonsense-mediated decay machinery components and aberrant splicing events associated with splice-site mutations. We observed a high frequency of somatic mutations in chromatin modifiers, particularly KDM6A, in AA-UTUC, demonstrated the sufficiency of AA to induce renal dysplasia in mice, and reproduced the AA mutational signature in experimentally treated human renal tubular cells. Finally, exploring other malignancies that were not known to be associated with AA, we screened 93 hepatocellular carcinoma genomes/exomes and identified AA-like mutational signatures in 11. Our study highlights an unusual genome-wide AA mutational signature and the potential use of mutation signatures as "molecular fingerprints" for interrogating high-throughput cancer genome data to infer previous carcinogen exposures.

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ER -

Genome-wide mutational signatures of aristolochic acid and its application as a screening tool

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