Moreover, a detailed statistical analysis revealed that, in adenocarcinoma and in the early stage of carcinomas (pathologic stage I/II), expression of miR-200a was higher in the AKT2+ group compared with the AKT1+ group, and these differences were statistically significant (P=.0334 and P=.0239, respectively).
Fluorescence in situ hybridization for AKT1 and AKT2 genes in 62 carcinomas exhibiting total-Akt overexpression indicated amplification of AKT1 in 6.5% of total-Akt-expressing cases (3.5% of total cases) and AKT1 gain by polysomy of chromosome 14 in 40% (high level in 8% and low level in 32%).
Seven amplicons were selected for dual color fluorescence in situ hybridization analysis in approximately 90 high-grade serous carcinomas and 26 low-grade serous tumors, and a high level of DNA copy number gain (amplification) was found in CCNE1, Notch3, HBXAP/Rsf-1, AKT2, PIK3CA and chr12p13 occurring in 36.1%, 7.8%, 15.7%, 13.6%, 10.8% and 7.3% of high-grade serous carcinomas.
Unlike mutations in ERBB2, KRAS and BRAF which are mutually exclusive in SBTs, coamplification of PIK3CA and AKT2 was present in five high-grade carcinomas including the OVCAR3 cells.
Interestingly, the array-CGH (CGHa) profile showed an increase in copy number along most of 19q including the AKT2 oncogene and the KLKs gene family, which have previously been shown to be amplified in pancreatic carcinomas and upregulated in several tumors, respectively.
AKT2, an oncogene encoding a protein serine-threonine kinase implicated in phosphatidylinositol-3-OH kinase signaling, is amplified in some human ovarian and pancreatic carcinomas.