Author:
Shannon Nicholas Brian,Tan Laura Ling Ying,Tan Qiu Xuan,Tan Joey Wee-Shan,Hendrikson Josephine,Ng Wai Har,Ng Gillian,Liu Ying,Ong Xing-Yi Sarah,Nadarajah Ravichandran,Wong Jolene Si Min,Tan Grace Hwei Ching,Soo Khee Chee,Teo Melissa Ching Ching,Chia Claramae Shulyn,Ong Chin-Ann Johnny
Abstract
AbstractOvarian cancer is associated with poor prognosis. Platinum resistance contributes significantly to the high rate of tumour recurrence. We aimed to identify a set of molecular markers for predicting platinum sensitivity. A signature predicting cisplatin sensitivity was generated using the Genomics of Drug Sensitivity in Cancer and The Cancer Genome Atlas databases. Four potential biomarkers (CYTH3, GALNT3, S100A14, and ERI1) were identified and optimized for immunohistochemistry (IHC). Validation was performed on a cohort of patients (n = 50) treated with surgical resection followed by adjuvant carboplatin. Predictive models were established to predict chemosensitivity. The four biomarkers were also assessed for their ability to prognosticate overall survival in three ovarian cancer microarray expression datasets from The Gene Expression Omnibus. The extreme gradient boosting (XGBoost) algorithm was selected for the final model to validate the accuracy in an independent validation dataset (n = 10). CYTH3 and S100A14, followed by nodal stage, were the features with the greatest importance. The four gene signature had comparable prognostication as clinical information for two-year survival. Assessment of tumour biology by means of gene expression can serve as an adjunct for prediction of chemosensitivity and prognostication. Potentially, the assessment of molecular markers alongside clinical information offers a chance to further optimise therapeutic decision making.
Funder
SingHealth Duke-NUS Academic Medical Centre
National Medical Research Council
NCCS Cancer Fund
Publisher
Springer Science and Business Media LLC
Cited by
16 articles.
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