Dissection of immune gene networks in primary melanoma tumors critical for antitumor surveillance of patients with stage II-III resectable disease

Shanthi Sivendran; Rui Chang; Lisa Pham; Robert G. Phelps; Sara T. Harcharik; Lawrence D. Hall; Sebastian G. Bernardo; Marina M. Moskalenko; Meera Sivendran; Yichun Fu; Ellen H. De Moll; Michael Pan; Jee Young Moon; Sonali Arora; Ariella Cohain; Analisa Difeo; Tammie C. Ferringer; Mikhail Tismenetsky; Cindy L. Tsui; Philip A. Friedlander; Michael K. Parides; Jacques Banchereau; Damien Chaussabel; Mark G. Lebwohl; Jedd D. Wolchok; Nina Bhardwaj; Steven J. Burakoff; William K. Oh; Karolina Palucka; Miriam Merad; Eric E. Schadt; Yvonne M. Saenger

doi:10.1038/jid.2014.85

Dissection of immune gene networks in primary melanoma tumors critical for antitumor surveillance of patients with stage II-III resectable disease

Shanthi Sivendran, Rui Chang, Lisa Pham, Robert G. Phelps, Sara T. Harcharik, Lawrence D. Hall, Sebastian G. Bernardo, Marina M. Moskalenko, Meera Sivendran, Yichun Fu, Ellen H. De Moll, Michael Pan, Jee Young Moon, Sonali Arora, Ariella Cohain, Analisa Difeo, Tammie C. Ferringer, Mikhail Tismenetsky, Cindy L. Tsui, Philip A. FriedlanderMichael K. Parides, Jacques Banchereau, Damien Chaussabel, Mark G. Lebwohl, Jedd D. Wolchok, Nina Bhardwaj, Steven J. Burakoff, William K. Oh, Karolina Palucka, Miriam Merad, Eric E. Schadt, Yvonne M. Saenger

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

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Abstract

Patients with resected stage II-III cutaneous melanomas remain at high risk for metastasis and death. Biomarker development has been limited by the challenge of isolating high-quality RNA for transcriptome-wide profiling from formalin-fixed and paraffin-embedded (FFPE) primary tumor specimens. Using NanoString technology, RNA from 40 stage II-III FFPE primary melanomas was analyzed and a 53-immune-gene panel predictive of non-progression (area under the curve (AUC)=0.920) was defined. The signature predicted disease-specific survival (DSS P<0.001) and recurrence-free survival (RFS P<0.001). CD2, the most differentially expressed gene in the training set, also predicted non-progression (P<0.001). Using publicly available microarray data from 46 primary human melanomas (GSE15605), a coexpression module enriched for the 53-gene panel was then identified using unbiased methods. A Bayesian network of signaling pathways based on this data identified driver genes. Finally, the proposed 53-gene panel was confirmed in an independent test population of 48 patients (AUC=0.787). The gene signature was an independent predictor of non-progression (P<0.001), RFS (P<0.001), and DSS (P=0.024) in the test population. The identified driver genes are potential therapeutic targets, and the 53-gene panel should be tested for clinical application using a larger data set annotated on the basis of prospectively gathered data.

Original language	English (US)
Pages (from-to)	2202-2211
Number of pages	10
Journal	Journal of Investigative Dermatology
Volume	134
Issue number	8
DOIs	https://doi.org/10.1038/jid.2014.85
State	Published - Aug 2014
Externally published	Yes

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Dermatology
Cell Biology

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/jid.2014.85

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Sivendran, S., Chang, R., Pham, L., Phelps, R. G., Harcharik, S. T., Hall, L. D., Bernardo, S. G., Moskalenko, M. M., Sivendran, M., Fu, Y., De Moll, E. H., Pan, M., Moon, J. Y., Arora, S., Cohain, A., Difeo, A., Ferringer, T. C., Tismenetsky, M., Tsui, C. L., ... Saenger, Y. M. (2014). Dissection of immune gene networks in primary melanoma tumors critical for antitumor surveillance of patients with stage II-III resectable disease. Journal of Investigative Dermatology, 134(8), 2202-2211. https://doi.org/10.1038/jid.2014.85

Sivendran, S, Chang, R, Pham, L, Phelps, RG, Harcharik, ST, Hall, LD, Bernardo, SG, Moskalenko, MM, Sivendran, M, Fu, Y, De Moll, EH, Pan, M, Moon, JY, Arora, S, Cohain, A, Difeo, A, Ferringer, TC, Tismenetsky, M, Tsui, CL, Friedlander, PA, Parides, MK, Banchereau, J, Chaussabel, D, Lebwohl, MG, Wolchok, JD, Bhardwaj, N, Burakoff, SJ, Oh, WK, Palucka, K, Merad, M, Schadt, EE & Saenger, YM 2014, 'Dissection of immune gene networks in primary melanoma tumors critical for antitumor surveillance of patients with stage II-III resectable disease', Journal of Investigative Dermatology, vol. 134, no. 8, pp. 2202-2211. https://doi.org/10.1038/jid.2014.85

@article{dea3ca15143a4963aae5205014af3315,

title = "Dissection of immune gene networks in primary melanoma tumors critical for antitumor surveillance of patients with stage II-III resectable disease",

abstract = "Patients with resected stage II-III cutaneous melanomas remain at high risk for metastasis and death. Biomarker development has been limited by the challenge of isolating high-quality RNA for transcriptome-wide profiling from formalin-fixed and paraffin-embedded (FFPE) primary tumor specimens. Using NanoString technology, RNA from 40 stage II-III FFPE primary melanomas was analyzed and a 53-immune-gene panel predictive of non-progression (area under the curve (AUC)=0.920) was defined. The signature predicted disease-specific survival (DSS P<0.001) and recurrence-free survival (RFS P<0.001). CD2, the most differentially expressed gene in the training set, also predicted non-progression (P<0.001). Using publicly available microarray data from 46 primary human melanomas (GSE15605), a coexpression module enriched for the 53-gene panel was then identified using unbiased methods. A Bayesian network of signaling pathways based on this data identified driver genes. Finally, the proposed 53-gene panel was confirmed in an independent test population of 48 patients (AUC=0.787). The gene signature was an independent predictor of non-progression (P<0.001), RFS (P<0.001), and DSS (P=0.024) in the test population. The identified driver genes are potential therapeutic targets, and the 53-gene panel should be tested for clinical application using a larger data set annotated on the basis of prospectively gathered data.",

author = "Shanthi Sivendran and Rui Chang and Lisa Pham and Phelps, {Robert G.} and Harcharik, {Sara T.} and Hall, {Lawrence D.} and Bernardo, {Sebastian G.} and Moskalenko, {Marina M.} and Meera Sivendran and Yichun Fu and {De Moll}, {Ellen H.} and Michael Pan and Moon, {Jee Young} and Sonali Arora and Ariella Cohain and Analisa Difeo and Ferringer, {Tammie C.} and Mikhail Tismenetsky and Tsui, {Cindy L.} and Friedlander, {Philip A.} and Parides, {Michael K.} and Jacques Banchereau and Damien Chaussabel and Lebwohl, {Mark G.} and Wolchok, {Jedd D.} and Nina Bhardwaj and Burakoff, {Steven J.} and Oh, {William K.} and Karolina Palucka and Miriam Merad and Schadt, {Eric E.} and Saenger, {Yvonne M.}",

note = "Funding Information: We wish to acknowledge the support of the clinical research education program, under the direction of Dr Gabrilove and CePORTED funded under the auspices of CONDUITS, the Icahn School of Medicine NCATS ULITR4067, an NIH T32HL094283 grant under the direction of Dr Margaret Baron, the Von Hess Grant from Lancaster General Hospital, and a fellow's grant from Bristol Myers Squibb (Shanthi Sivendran, PI). Funding to support this work was provided by the Tisch Cancer Institute, a career development award from the Dermatology Foundation (Yvonne Saenger PI), the Von Hess grant from Lancaster General Health, and a fellow{\textquoteright}s grant from Bristol Myers Squibb (Shanthi Sivendran PI). ",

year = "2014",

month = aug,

doi = "10.1038/jid.2014.85",

language = "English (US)",

volume = "134",

pages = "2202--2211",

journal = "Journal of Investigative Dermatology",

issn = "0022-202X",

publisher = "Nature Publishing Group",

number = "8",

}

TY - JOUR

T1 - Dissection of immune gene networks in primary melanoma tumors critical for antitumor surveillance of patients with stage II-III resectable disease

AU - Sivendran, Shanthi

AU - Chang, Rui

AU - Pham, Lisa

AU - Phelps, Robert G.

AU - Harcharik, Sara T.

AU - Hall, Lawrence D.

AU - Bernardo, Sebastian G.

AU - Moskalenko, Marina M.

AU - Sivendran, Meera

AU - Fu, Yichun

AU - De Moll, Ellen H.

AU - Pan, Michael

AU - Moon, Jee Young

AU - Arora, Sonali

AU - Cohain, Ariella

AU - Difeo, Analisa

AU - Ferringer, Tammie C.

AU - Tismenetsky, Mikhail

AU - Tsui, Cindy L.

AU - Friedlander, Philip A.

AU - Parides, Michael K.

AU - Banchereau, Jacques

AU - Chaussabel, Damien

AU - Lebwohl, Mark G.

AU - Wolchok, Jedd D.

AU - Bhardwaj, Nina

AU - Burakoff, Steven J.

AU - Oh, William K.

AU - Palucka, Karolina

AU - Merad, Miriam

AU - Schadt, Eric E.

AU - Saenger, Yvonne M.

N1 - Funding Information: We wish to acknowledge the support of the clinical research education program, under the direction of Dr Gabrilove and CePORTED funded under the auspices of CONDUITS, the Icahn School of Medicine NCATS ULITR4067, an NIH T32HL094283 grant under the direction of Dr Margaret Baron, the Von Hess Grant from Lancaster General Hospital, and a fellow's grant from Bristol Myers Squibb (Shanthi Sivendran, PI). Funding to support this work was provided by the Tisch Cancer Institute, a career development award from the Dermatology Foundation (Yvonne Saenger PI), the Von Hess grant from Lancaster General Health, and a fellow’s grant from Bristol Myers Squibb (Shanthi Sivendran PI).

PY - 2014/8

Y1 - 2014/8

N2 - Patients with resected stage II-III cutaneous melanomas remain at high risk for metastasis and death. Biomarker development has been limited by the challenge of isolating high-quality RNA for transcriptome-wide profiling from formalin-fixed and paraffin-embedded (FFPE) primary tumor specimens. Using NanoString technology, RNA from 40 stage II-III FFPE primary melanomas was analyzed and a 53-immune-gene panel predictive of non-progression (area under the curve (AUC)=0.920) was defined. The signature predicted disease-specific survival (DSS P<0.001) and recurrence-free survival (RFS P<0.001). CD2, the most differentially expressed gene in the training set, also predicted non-progression (P<0.001). Using publicly available microarray data from 46 primary human melanomas (GSE15605), a coexpression module enriched for the 53-gene panel was then identified using unbiased methods. A Bayesian network of signaling pathways based on this data identified driver genes. Finally, the proposed 53-gene panel was confirmed in an independent test population of 48 patients (AUC=0.787). The gene signature was an independent predictor of non-progression (P<0.001), RFS (P<0.001), and DSS (P=0.024) in the test population. The identified driver genes are potential therapeutic targets, and the 53-gene panel should be tested for clinical application using a larger data set annotated on the basis of prospectively gathered data.

AB - Patients with resected stage II-III cutaneous melanomas remain at high risk for metastasis and death. Biomarker development has been limited by the challenge of isolating high-quality RNA for transcriptome-wide profiling from formalin-fixed and paraffin-embedded (FFPE) primary tumor specimens. Using NanoString technology, RNA from 40 stage II-III FFPE primary melanomas was analyzed and a 53-immune-gene panel predictive of non-progression (area under the curve (AUC)=0.920) was defined. The signature predicted disease-specific survival (DSS P<0.001) and recurrence-free survival (RFS P<0.001). CD2, the most differentially expressed gene in the training set, also predicted non-progression (P<0.001). Using publicly available microarray data from 46 primary human melanomas (GSE15605), a coexpression module enriched for the 53-gene panel was then identified using unbiased methods. A Bayesian network of signaling pathways based on this data identified driver genes. Finally, the proposed 53-gene panel was confirmed in an independent test population of 48 patients (AUC=0.787). The gene signature was an independent predictor of non-progression (P<0.001), RFS (P<0.001), and DSS (P=0.024) in the test population. The identified driver genes are potential therapeutic targets, and the 53-gene panel should be tested for clinical application using a larger data set annotated on the basis of prospectively gathered data.

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Dissection of immune gene networks in primary melanoma tumors critical for antitumor surveillance of patients with stage II-III resectable disease

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