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Öğe Downregulation of ABCE1 via siRNA affects the sensitivity of A549 cells against chemotherapeutic agents(Humana Press Inc, 2015) Kara, Goknur; Tuncer, Sema; Turk, Mustafa; Denkbas, Emir BakiATP-binding cassette E1 (ABCE1) is involved in several biological functions in cancer cells such as tumor proliferation, antiapoptotic pathway and chemoresistance mechanism. This work aimed to investigate the alterations in chemosensitivity of A549 lung cancer cells for 5-Fluorouracil (5-FU) and irinotecan by silencing ABCE1 using specific small interfering RNAs (siRNA). The cells were treated with low doses of drugs, alone and also their combinations with ABCE1 siRNA. Cytotoxicity, cell proliferation and apoptosis/necrosis evaluations were performed in order to examine the effects of the combined treatment. Reverse transcriptase polymerase chain reaction (RT-PCR) was used to confirm the downregulation of ABCE1. We also investigated the levels of B cell lymphoma 2 (Bcl-2) and mammalian target of rapamycin (mTOR) after the treatments by RT-PCR. Downregulation of ABCE1 improved the anticancer effects of 5-FU in inducing cell viability/proliferation inhibition and apoptosis/necrosis, whereas interestingly, almost did not change or slightly reduced the anticancer effects of irinotecan. ABCE1 expression significantly decreased by transfecting the cells with ABCE1 siRNA. Moreover, Bcl-2 and mTOR levels changed after the single or combined therapy in parallel with the apoptotic and antiproliferation effect. In conclusion, the simultaneous treatment of lung cancer cells with ABCE1 siRNA and 5-FU exhibited synergistic or additive effects; however, ABCE1 siRNA and irinotecan had unexpected antagonistic effects. Our findings demonstrate that the strategy of downregulation of ABCE1 may be included in conventional 5-FU chemotherapy for lung cancer, minimizing the usage of 5-FU at high dosages.Öğe Effects of ABCE1 Down-Regulation by RNAi on Chemosensitivity of Lung Cancer Cells(Int Inst Anticancer Research, 2014) Kara, Goknur; Tuncer, Sema; Turk, Mustafa; Denkbas, Emir Baki…Öğe Therapeutic potential of inhibiting ABCE1 and eRF3 genes via siRNA strategy using chitosan nanoparticles in breast cancer cells(Springer, 2015) Cengiz, Bagdat Burcu; Asik, Mehmet Dogan; Kara, Goknur; Turk, Mustafa; Denkbas, Emir BakiIn recent years, targeted cancer therapy strategies have begun to take the place of the conventional treatments. Inhibition of the specific genes, involved in cancer progress, via small interfering RNA (siRNA) has become one of the promising therapeutic approaches for cancer therapy. However, due to rapid nuclease degradation and poor cellular uptake of siRNA, a suitable carrier for siRNA penetration inside the cells is required. We used chitosan nanoparticles (CS-NPs) to efficiently deliver ATP-binding casette E1 (ABCE1) and eukaryotic release factor 3 (eRF3)-targeting siRNAs, individually and together, to reduce the proliferation and induce the apoptosis of breast cancer cells. The CS-NPs were generated by ionic gelation method using tripolyphosphate (TPP) as a crosslinker. Nanoparticles (NPs) were obtained with diameters ranging between 110 and 230 nm and the zeta potential of approximately 27 mV optimizing the solution pH to 4.5 and CS/TPP mass ratio to 3: 1. Loading efficiencies of 98.69 % +/- 0.051 and 98.83 % +/- 0.047 were achieved when ABCE1 siRNA and eRF3 siRNA were entrapped into the NPs, respectively. Cell proliferation assay demonstrated that siRNA-loaded CS-NPs were more effective on cancer cells when compared to siRNAs without CS-NPs. Parallel results were also obtained by apoptosis/necrosis, double-staining analysis. Within our study, the potency of ABCE1 and eRF3 siRNAs were shown for the first time with this kind of polymeric delivery system. The results also indicated that ABCE1 and eRF3, important molecules in protein synthesis, could serve as effective targets to inhibit the cancer cells.
