Molecular markers of endometrial carcinoma detected in uterine aspirates.
Colas, Eva; Perez, Cristina; Cabrera, Silvia; Pedrola, Nuria; Monge, Marta; Castellvi, Josep; Eyzaguirre, Fernando; Gregorio, Jesus; Ruiz, Anna; Llaurado, Marta; Rigau, Marina; Garcia, Marta; Ertekin, Tug\cce Tugce; Montes, Melania; López López, Rafael; Carreras, Ramon; Xercavins, Jordi; Ortega, Alicia; Maes, Tamara; Rosell, Elisabet; Doll, Andreas; Abal Posada, Miguel; Reventos, Jaume; Gil-Moreno, Antonio
Identifiers
Identifiers
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Files view or download
Date issued
2011Journal title
INTERNATIONAL JOURNAL OF CANCER
Type of content
Artigo
MeSH
Female | Humans | Reproducibility of Results | Biomarkers, Tumor | Gene Expression Profiling | Body Fluids | Endometrial NeoplasmsAbstract
Endometrial cancer (EC) is the most frequent of the invasive tumors of the female genital tract. Although usually detected in its initial stages, a 20% of the patients present with advanced disease. To date, no characterized molecular marker has been validated for the diagnosis of EC. In addition, new methods for prognosis and classification of EC are needed to combat this deadly disease. We thus aimed to identify new molecular markers of EC and to evaluate their validity on endometrial aspirates. Gene expression screening on 52 carcinoma samples and series of real-time quantitative PCR validation on 19 paired carcinomas and normal tissue samples and on 50 carcinoma and noncarcinoma uterine aspirates were performed to identify and validate potential biomarkers of EC. Candidate markers were further confirmed at the protein level by immunohistochemistry and Western blot. We identified ACAA1, AP1M2, CGN, DDR1, EPS8L2, FASTKD1, GMIP, IKBKE, P2RX4, P4HB, PHKG2, PPFIBP2, PPP1R16A, RASSF7, RNF183, SIRT6, TJP3, EFEMP2, SOCS2 and DCN as differentially expressed in ECs. Furthermore, the differential expression of these biomarkers in primary endometrial tumors is correlated to their expression level in corresponding uterine fluid samples. Finally, these biomarkers significantly identified EC with area under the receiver-operating-characteristic values ranging from 0.74 to 0.95 in uterine aspirates. Interestingly, analogous values were found among initial stages. We present the discovery of molecular biomarkers of EC and describe their utility in uterine aspirates. These findings represent the basis for the development of a highly sensitive and specific minimally invasive method for screening ECs.