Whole-genome sequencing and comprehensive molecular profiling identify new driver mutations in gastric cancer

Kai Wang; Siu Tsan Yuen; Jiangchun Xu; Siu Po Lee; Helen H. Yan; Stephanie T. Shi; Hoi Cheong Siu; Shibing Deng; Kent Man Chu; Simon Law; Kok Hoe Chan; Annie S. Chan; Wai Yin Tsui; Siu Lun Ho; Anthony K. Chan; Jonathan L. Man; Valentina Foglizzo; Man Kin Ng; April S. Chan; Yick Pang Ching; Grace H. Cheng; Tao Xie; Julio Fernandez; Vivian S. Li; H.C. Clevers; Paul A. Rejto; Mao Mao; Suet Yi Leung

Whole-genome sequencing and comprehensive molecular profiling identify new driver mutations in gastric cancer

Translated title of the contribution: Whole-genome sequencing and comprehensive molecular profiling identify new driver mutations in gastric cancer

Kai Wang, Siu Tsan Yuen, Jiangchun Xu, Siu Po Lee, Helen H. Yan, Stephanie T. Shi, Hoi Cheong Siu, Shibing Deng, Kent Man Chu, Simon Law, Kok Hoe Chan, Annie S. Chan, Wai Yin Tsui, Siu Lun Ho, Anthony K. Chan, Jonathan L. Man, Valentina Foglizzo, Man Kin Ng, April S. Chan, Yick Pang ChingGrace H. Cheng, Tao Xie, Julio Fernandez, Vivian S. Li, H.C. Clevers, Paul A. Rejto, Mao Mao, Suet Yi Leung

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

Abstract

Gastric cancer is a heterogeneous disease with diverse molecular and histological subtypes. We performed whole-genome sequencing in 100 tumor-normal pairs, along with DNA copy number, gene expression and methylation profiling, for integrative genomic analysis. We found subtype-specific genetic and epigenetic perturbations and unique mutational signatures. We identified previously known (TP53, ARID1A and CDH1) and new (MUC6, CTNNA2, GLI3, RNF43 and others) significantly mutated driver genes. Specifically, we found RHOA mutations in 14.3% of diffuse-type tumors but not in intestinal-type tumors (P <0.001). The mutations clustered in recurrent hotspots affecting functional domains and caused defective RHOA signaling, promoting escape from anoikis in organoid cultures. The top perturbed pathways in gastric cancer included adherens junction and focal adhesion, in which RHOA and other mutated genes we identified participate as key players. These findings illustrate a multidimensional and comprehensive genomic landscape that highlights the molecular complexity of gastric cancer and provides a road map to facilitate genome-guided personalized therapy

Translated title of the contribution	Whole-genome sequencing and comprehensive molecular profiling identify new driver mutations in gastric cancer
Original language	Undefined/Unknown
Pages (from-to)	573-582
Number of pages	10
Journal	Nature Genetics
Volume	46
Issue number	6
Publication status	Published - 2014

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Wang, K., Tsan Yuen, S., Xu, J., Po Lee, S., H. Yan, H., T. Shi, S., Cheong Siu, H., Deng, S., Man Chu, K., Law, S., Hoe Chan, K., S. Chan, A., Yin Tsui, W., Lun Ho, S., K. Chan, A., L. Man, J., Foglizzo, V., Kin Ng, M., S. Chan, A., ... Yi Leung, S. (2014). Whole-genome sequencing and comprehensive molecular profiling identify new driver mutations in gastric cancer. Nature Genetics, 46(6), 573-582.

@article{e1c74a67410a45ff9e9e62c7a8dd4d13,

title = "Whole-genome sequencing and comprehensive molecular profiling identify new driver mutations in gastric cancer",

abstract = "Gastric cancer is a heterogeneous disease with diverse molecular and histological subtypes. We performed whole-genome sequencing in 100 tumor-normal pairs, along with DNA copy number, gene expression and methylation profiling, for integrative genomic analysis. We found subtype-specific genetic and epigenetic perturbations and unique mutational signatures. We identified previously known (TP53, ARID1A and CDH1) and new (MUC6, CTNNA2, GLI3, RNF43 and others) significantly mutated driver genes. Specifically, we found RHOA mutations in 14.3% of diffuse-type tumors but not in intestinal-type tumors (P <0.001). The mutations clustered in recurrent hotspots affecting functional domains and caused defective RHOA signaling, promoting escape from anoikis in organoid cultures. The top perturbed pathways in gastric cancer included adherens junction and focal adhesion, in which RHOA and other mutated genes we identified participate as key players. These findings illustrate a multidimensional and comprehensive genomic landscape that highlights the molecular complexity of gastric cancer and provides a road map to facilitate genome-guided personalized therapy",

author = "Kai Wang and {Tsan Yuen}, Siu and Jiangchun Xu and {Po Lee}, Siu and {H. Yan}, Helen and {T. Shi}, Stephanie and {Cheong Siu}, Hoi and Shibing Deng and {Man Chu}, Kent and Simon Law and {Hoe Chan}, Kok and {S. Chan}, Annie and {Yin Tsui}, Wai and {Lun Ho}, Siu and {K. Chan}, Anthony and {L. Man}, Jonathan and Valentina Foglizzo and {Kin Ng}, Man and {S. Chan}, April and {Pang Ching}, Yick and {H. Cheng}, Grace and Tao Xie and Julio Fernandez and {S. Li}, Vivian and H.C. Clevers and {A. Rejto}, Paul and Mao Mao and {Yi Leung}, Suet",

note = "J UN 2014 6",

year = "2014",

language = "Undefined/Unknown",

volume = "46",

pages = "573--582",

journal = "Nature Genetics",

issn = "1061-4036",

publisher = "Nature Research",

number = "6",

}

Wang, K, Tsan Yuen, S, Xu, J, Po Lee, S, H. Yan, H, T. Shi, S, Cheong Siu, H, Deng, S, Man Chu, K, Law, S, Hoe Chan, K, S. Chan, A, Yin Tsui, W, Lun Ho, S, K. Chan, A, L. Man, J, Foglizzo, V, Kin Ng, M, S. Chan, A, Pang Ching, Y, H. Cheng, G, Xie, T, Fernandez, J, S. Li, V, Clevers, HC, A. Rejto, P, Mao, M & Yi Leung, S 2014, 'Whole-genome sequencing and comprehensive molecular profiling identify new driver mutations in gastric cancer', Nature Genetics, vol. 46, no. 6, pp. 573-582.

TY - JOUR

T1 - Whole-genome sequencing and comprehensive molecular profiling identify new driver mutations in gastric cancer

AU - Wang, Kai

AU - Tsan Yuen, Siu

AU - Xu, Jiangchun

AU - Po Lee, Siu

AU - H. Yan, Helen

AU - T. Shi, Stephanie

AU - Cheong Siu, Hoi

AU - Deng, Shibing

AU - Man Chu, Kent

AU - Law, Simon

AU - Hoe Chan, Kok

AU - S. Chan, Annie

AU - Yin Tsui, Wai

AU - Lun Ho, Siu

AU - K. Chan, Anthony

AU - L. Man, Jonathan

AU - Foglizzo, Valentina

AU - Kin Ng, Man

AU - S. Chan, April

AU - Pang Ching, Yick

AU - H. Cheng, Grace

AU - Xie, Tao

AU - Fernandez, Julio

AU - S. Li, Vivian

AU - Clevers, H.C.

AU - A. Rejto, Paul

AU - Mao, Mao

AU - Yi Leung, Suet

N1 - J UN 2014 6

PY - 2014

Y1 - 2014

N2 - Gastric cancer is a heterogeneous disease with diverse molecular and histological subtypes. We performed whole-genome sequencing in 100 tumor-normal pairs, along with DNA copy number, gene expression and methylation profiling, for integrative genomic analysis. We found subtype-specific genetic and epigenetic perturbations and unique mutational signatures. We identified previously known (TP53, ARID1A and CDH1) and new (MUC6, CTNNA2, GLI3, RNF43 and others) significantly mutated driver genes. Specifically, we found RHOA mutations in 14.3% of diffuse-type tumors but not in intestinal-type tumors (P <0.001). The mutations clustered in recurrent hotspots affecting functional domains and caused defective RHOA signaling, promoting escape from anoikis in organoid cultures. The top perturbed pathways in gastric cancer included adherens junction and focal adhesion, in which RHOA and other mutated genes we identified participate as key players. These findings illustrate a multidimensional and comprehensive genomic landscape that highlights the molecular complexity of gastric cancer and provides a road map to facilitate genome-guided personalized therapy

AB - Gastric cancer is a heterogeneous disease with diverse molecular and histological subtypes. We performed whole-genome sequencing in 100 tumor-normal pairs, along with DNA copy number, gene expression and methylation profiling, for integrative genomic analysis. We found subtype-specific genetic and epigenetic perturbations and unique mutational signatures. We identified previously known (TP53, ARID1A and CDH1) and new (MUC6, CTNNA2, GLI3, RNF43 and others) significantly mutated driver genes. Specifically, we found RHOA mutations in 14.3% of diffuse-type tumors but not in intestinal-type tumors (P <0.001). The mutations clustered in recurrent hotspots affecting functional domains and caused defective RHOA signaling, promoting escape from anoikis in organoid cultures. The top perturbed pathways in gastric cancer included adherens junction and focal adhesion, in which RHOA and other mutated genes we identified participate as key players. These findings illustrate a multidimensional and comprehensive genomic landscape that highlights the molecular complexity of gastric cancer and provides a road map to facilitate genome-guided personalized therapy

M3 - Article

SN - 1061-4036

VL - 46

SP - 573

EP - 582

JO - Nature Genetics

JF - Nature Genetics

IS - 6

ER -

Whole-genome sequencing and comprehensive molecular profiling identify new driver mutations in gastric cancer

Abstract

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