TY - JOUR
T1 - Novel molecular subtypes of serous and endometrioid ovarian cancer linked to clinical outcome
AU - Tothill, Richard W.
AU - Tinker, Anna V.
AU - George, Joshy
AU - Brown, Robert
AU - Fox, Stephen B.
AU - Lade, Stephen
AU - Johnson, Daryl S.
AU - Trivett, Melanie K.
AU - Etemadmoghadam, Dariush
AU - Locandro, Bianca
AU - Traficante, Nadia
AU - Fereday, Sian
AU - Hung, Jillian A.
AU - Chiew, Yoke Eng
AU - Haviv, Izhak
AU - Gertig, Dorota
AU - Defazio, Anna
AU - Bowtell, David D.L.
PY - 2008/8/15
Y1 - 2008/8/15
N2 - Purpose: The study aim to identify novel molecular subtypes of ovarian cancer by gene expression profiling with linkage to clinical and pathologic features. Experimental Design: Microarray gene expression profiling was done on 285 serous and endometrioid tumors of the ovary, peritoneum, and fallopian tube, K-means clustering was applied to identify robust molecular subtypes. Statistical analysis identified differentially expressed genes, pathways, and gene ontologies. Laser capture microdissection, pathology review, and immunohistochemistry validated the array-based findings. Patient survival within K-means groups was evaluated using Cox proportional hazards models. Class prediction validated K-means groups in an independent dataset. A semisupervised survival analysis of the array data was used to compare against unsupervised clustering results. Results: Optimal clustering of array data identified six molecular subtypes. Two subtypes represented predominantly serous low malignant potential and low-grade endometrioid subtypes, respectively. The remaining four subtypes represented higher grade and advanced stage cancers of serous and endometrioid morphology. A novel subtype of high-grade serous cancers reflected a mesenchymal cell type, characterized by overexpression of N-cadherin and P-cadherin and low expression of differentiation markers, including CA125 and MUC1. A poor prognosis subtype was defined by a reactive stroma gene expression signature, correlating with extensive desmoplasia in such samples. A similar poor prognosis signature could be found using a semisupervised analysis. Each subtype displayed distinct levels and patterns of immune cell infiltration. Class prediction identified similar subtypes in an independent ovarian dataset with similar prognostic trends. Conclusion: Gene expression profiling identified molecular subtypes of ovarian cancer of biological and clinical importance.
AB - Purpose: The study aim to identify novel molecular subtypes of ovarian cancer by gene expression profiling with linkage to clinical and pathologic features. Experimental Design: Microarray gene expression profiling was done on 285 serous and endometrioid tumors of the ovary, peritoneum, and fallopian tube, K-means clustering was applied to identify robust molecular subtypes. Statistical analysis identified differentially expressed genes, pathways, and gene ontologies. Laser capture microdissection, pathology review, and immunohistochemistry validated the array-based findings. Patient survival within K-means groups was evaluated using Cox proportional hazards models. Class prediction validated K-means groups in an independent dataset. A semisupervised survival analysis of the array data was used to compare against unsupervised clustering results. Results: Optimal clustering of array data identified six molecular subtypes. Two subtypes represented predominantly serous low malignant potential and low-grade endometrioid subtypes, respectively. The remaining four subtypes represented higher grade and advanced stage cancers of serous and endometrioid morphology. A novel subtype of high-grade serous cancers reflected a mesenchymal cell type, characterized by overexpression of N-cadherin and P-cadherin and low expression of differentiation markers, including CA125 and MUC1. A poor prognosis subtype was defined by a reactive stroma gene expression signature, correlating with extensive desmoplasia in such samples. A similar poor prognosis signature could be found using a semisupervised analysis. Each subtype displayed distinct levels and patterns of immune cell infiltration. Class prediction identified similar subtypes in an independent ovarian dataset with similar prognostic trends. Conclusion: Gene expression profiling identified molecular subtypes of ovarian cancer of biological and clinical importance.
UR - http://www.scopus.com/inward/record.url?scp=52649085237&partnerID=8YFLogxK
U2 - 10.1158/1078-0432.CCR-08-0196
DO - 10.1158/1078-0432.CCR-08-0196
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C2 - 18698038
AN - SCOPUS:52649085237
SN - 1078-0432
VL - 14
SP - 5198
EP - 5208
JO - Clinical Cancer Research
JF - Clinical Cancer Research
IS - 16
ER -