WoS İndeksli Yayınlar Koleksiyonu

Permanent URI for this collectionhttps://hdl.handle.net/20.500.12573/394

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Access Right: Open AccessAuthor: search.filters.author.Akcok, Emel Basak Gencer

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Now showing 1 - 4 of 4
  • Article
    Citation - WoS: 6
    Citation - Scopus: 8
    Histone Deacetylase Inhibition and Autophagy Modulation Induces a Synergistic Antiproliferative Effect and Cell Death in Cholangiocarcinoma Cells
    (Amer Chemical Soc, 2023-06-08) Yenigul, Munevver; Akcok, Emel Basak Gencer; Gencer Akçok, Emel Başak
    Cholangiocarcinoma, also known as biliary tract cancer,is an aggressiveadenocarcinoma arising from epithelial cells lining the intra- andextrahepatic biliary system. The effects of autophagy modulators andhistone deacetylase (HDAC) inhibitors in cholangiocarcinoma are notfully known. It is essential to understand the molecular mechanismsand the effects of HDAC inhibitors in the context of cholangiocarcinoma.The antiproliferative effect of different HDAC inhibitors and autophagymodulation was investigated by the MTT cell viability assay in TFK-1and EGI-1 cholangiocarcinoma cell lines. Combination indexes werecalculated using CompuSyn software. Consequently, apoptosis was detectedby Annexin V/PI staining. The effect of the drugs on the cell cyclewas measured by the propidium iodide staining. The HDAC inhibitionwas confirmed via acetylated histone protein levels by western blotting.HDAC inhibitors, MS-275 and romidepsin, showed a better synergisticeffect with the nocodazole combination. The combination treatmentexerted its growth inhibitory effect by cell cycle arrest and inductionof apoptosis. The cell cycle analysis of the combination treatmentshowed that the S phase and G2/M phase were achieved. Moreover, thenecrotic and apoptotic cell population increased after single HDACinhibitors and combination treatment. The anti-cancer effect of HDACinhibitors is revealed by acetylation levels of histones. While acetylationlevels were increased in response to HDAC inhibitors and autophagymodulator combinations, the HDAC expression decreased. This studyhighlights the importance of the combination of HDAC inhibition andautophagy modulators and demonstrates a synergistic effect, whichcould be a promising therapy and novel treatment approach for cholangiocarcinoma.
  • Article
    Discovery of New Candidates Targeting the SH2 Domains of Spleen Tyrosine Kinase (Syk) Through in Silico Studies
    (Wiley-VCH Verlag GmbH, 2025-06) Sansacar, Merve; Sari, Ceyhun; Yucel, Muhsin Samet; Akcok, Emel Basak Gencer; Akcok, Ismail; Gencer Akçok, Emel Başak
    Src homology 2 (SH2) domains have become an increasingly popular candidate for researchers to search for novel therapeutics to target different diseases. Spleen tyrosine kinase (Syk) is one of the proteins with two SH2 domains that has a role in the pathogenesis of many diseases. Here, we report the discovery of a promising natural product (NP) inhibitor that targets the N-terminal SH2 (N-SH2) and C-terminal SH2 (C-SH2) domains of Syk simultaneously, through structure-based drug discovery approach. Molecular docking studies, followed by molecular dynamics (MD) simulations and molecular mechanics Poisson-Boltzmann surface area (MM/PBSA) calculations, were utilized to reveal the interactions between NPs from "the COlleCtion of Open NatUral producTs (COCONUT)" database and Syk enzyme. Five natural products that have lowest Scoring and Minimization with AutoDock Vina (SMINA) scores against both SH2 domains of Syk were selected for further studies and compound CNP0265345 has the best binding free energies toward both C-SH2 and N-SH2 of Syk enzyme with -44.54 and -55.98 kcal/mol, respectively. Drug-likeness properties, absorption, distribution, metabolism, and excretion (ADME) and carcinogenicity predictions were also studied. In conclusion, our work highlights a novel drug candidate to target the Syk enzyme of SH2 domains using in silico methods.
  • Article
    Citation - WoS: 3
    Citation - Scopus: 3
    Determination of Promising Inhibitors for N-SH2 Domain of SHP2 Tyrosine Phosphatase: An in Silico Study
    (Springer, 2024-05-13) Akcok, Emel Basak Gencer; Guner, Huseyin; Akcok, Ismail; Gencer Akçok, Emel Başak
    There are many genes that produce proteins related to diseases and these proteins can be targeted with drugs as a potential therapeutic approach. Recent advancement in drug discovery techniques have created new opportunities for treating variety of diseases by targeting disease-related proteins. Structure-based drug discovery is a faster and more cost-effective approach than traditional methods. SHP2 phosphatase, encoded by the PTPN11 gene, has been the focus of much attention due to its involvement in many types of diseases. The biological function of SHP2 is enabled mostly by protein-protein interaction through its SH2 domains. In this study, we report the identification of a potential small molecule inhibitor for the N-SH2 domain of SHP2 by structure-based drug discovery approach. We utilized molecular docking studies, followed by molecular dynamics simulations and MM/PBSA calculations, to analyze compounds retrieved from the Broad's Drug Repurposing Hub and ZINC15 databases. We selected 10 hit compounds with the best docking scores from the libraries and examined their binding properties in the N-SH2 domain. We found that compound CID 60838 (Irinotecan) was the most suitable compound with a binding free energy value of - 64.45 kcal/mol and significant interactions with the target residues in the domain.
  • Article
    Cytotoxic and Cytostatic Effects of Targeting mTOR and Hedgehog Pathways in Acute Myeloid Leukemia
    (Istanbul Univ, 2022-12-29) Cicek, Enes; Kucuktas, Fulya Mina; Yenigul, Munevver; Akcok, Emel Basak Gencer
    Objectives: Acute myeloid leukemia (AML) is a highly aggressive heterogeneous hematopoietic malignancy characterized by a rapid and abnormal proliferation of immature myeloid leukemia cells in the bone marrow and peripheral blood. Aberrant alterations in signal transduction pathways are strongly associated with the progression of AML. This study aimed to investigate cell viability and the cell cycle in AML cells by targeting the Hedgehog and mTOR signaling pathways with rapamycin and GANT61. Materials and Method: The antiproliferative effect of rapamycin and GANT61 was assessed by the MTT cell viability assay in two AML cell lines: CMK and MOLM-13. The effect of the inhibitors on cell-cycle distribution was determined using propidium iodide staining and measured with flow cytometry. Results: Rapamycin, an mTOR inhibitor, and GANT61, a Gli-1 inhibitor, decreased the cell proliferation of CMK and MOLM-13 cells. The IC20 values, which is the drug concentration that inhibits cell growth by 20%, were combined and administered to the cells. The results show the drugs to have a combinatorial inhibitory effect on CMK cells but not on MOLM-13 cells. In addition, the combination of drugs arrested the cells during the G0/G1 phase. Conclusion: This study suggests a novel combination therapy approach for AML via mTOR and Hedgehog signaling pathway inhibition using rapamycin and GANT61, respectively. It also suggest further studies be performed to reveal the mechanism of action.