Browsing by Author "Alagoz, Mehmet Abdullah"

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2-Phenyl Substituted Benzimidazole Derivatives: Design, Synthesis, and Evaluation of Their Antiproliferative and Antimicrobial Activities
(Springer Birkhauser, 2022) Ersan, Ronak Haj; Kuzu, Burak; Yetkin, Derya; Alagoz, Mehmet Abdullah; Dogen, Aylin; Burmaoglu, Serdar; Algul, Oztekin
The inability to meet the desired outcomes of anticancer treatment and decrease in treatment success of bacterial and fungal infections accelerated research in these areas. Our research group has conducted numerous studies, especially on benzimidazole ring systems' antiproliferative and antimicrobial activities. In this study, the antiproliferative activity of benzimidazole compounds was tested against A549, A498, HeLa, A375, and HepG2 cancer cell lines by MTT assay. All compounds exhibited good to potent antiproliferative activity against all tested cancer cell lines. Compounds 6-chloro-2-(4-fluorobenzyl)-1H-benzo[d] imidazole (30) and 6-chloro-2-phenethyl-1H-benzo[d]imidazole (46) were especially active against HeLa and A375 cancer cell lines with IC50 values in the range of 0.02-0.04 mu M. In contrast, compounds 6-chloro-2-((p-tolyloxy)methyl)-1H-benzo[d] imidazole (67) and 5(6)-chloro-2-((4-hydroxyphenoxy)methyl)-1H-benzimidazole (68) were active against A549 and A498 cancer cell lines with an IC50 value of 0.08 mu M. These compounds (30, 46, 67, and 68) were less toxic to normal human cells than the positive control compound methotrexate, which was screened to determine its toxicity against normal cell lines (HEK293). In the second part of the study, all compounds were tested to demonstrate their antimicrobial properties. All compounds exhibited moderate activity against all tested bacteria and fungi. However, some phenoxy methyl derivatives 5-chloro-2-((4-chlorophenoxy)methyl)-1H-benzo[d]imidazole (69) and 5,6-dichloro-2-((4-chlorophenoxy)methyl)-1H-benzo[d] imidazole and (74) were most active against Candida (<3.90 mu g/mL). Molecular docking studies were carried out against certain proteins in order to identify potential targets of the antiproliferative effects of the synthesized compounds. The docking scores of the compounds were found to be significantly compatible with the antiproliferative activity results. [GRAPHICS] .
Development of Benzoxazole Derivatives Targeting Mtor: a Promising Approach for Breast Cancer Therapy
(Wiley-V C H Verlag Gmbh, 2025) Alagoz, Mehmet Abdullah; Resitoglu, Meryem Temiz; Kuzu, Burak; Sabrie, Zainab; Yetkin, Derya; Zobi, Cengiz; Algul, Oztekin
Clinical use of mTOR inhibitors in cancer treatment is well established due to the critical role of mTOR signaling in tumor progression. In this study, we report the structure-based design and biological evaluation of a series of benzoxazole derivatives as potential mTOR inhibitors. Cytotoxicity studies using MTT assays showed that compounds B4, B11, B12, and B20 exhibited significant antiproliferative effects against breast cancer cell lines with IC50 values between 4.96 and 9.82 mu M. Colorimetric enzymatic assays further revealed that among these, only B12 and B20 effectively inhibited mTOR phosphorylation at Ser2448 in MCF-7 cells. Additionally, both compounds modulated the expression of key apoptotic proteins, including Bax, caspase-3, p53, and Bcl2. Molecular docking studies against the 4JT5 protein demonstrated binding affinities with docking scores ranging from -7.084 to -7.426 kcal/mol, comparable to the reference compound P2X (-7.309 kcal/mol). Molecular dynamics simulations over 150 ns confirmed the stability of B12 and B20 in the active site, with an average RMSD of 2.8 & Aring; and 3.0 & Aring;, respectively. The absorption, distribution, metabolism, excretion, and toxicity (ADMET) properties of the synthesized compounds were evaluated in silico. Among them, B4, B11, B12, and B20 exhibited drug-like characteristics and showed no undesirable toxic effects. These findings highlight the potential of B12 and B20 as lead compounds for the development of novel mTOR inhibitors in breast cancer therapy.
Screening and Toxicity Evaluation of Natural Compounds as Adenosine 2a and 2b Receptor Ligands: Insights From Molecular Docking, Dynamics, and Admet Analysis
(Taylor & Francis Ltd, 2024) Karakus, Fuat; Alagoz, Mehmet Abdullah; Kuzu, Burak
Recent studies suggest that immunological and inflammatory responses in cardiovascular disorders, such as hypertension, myocardial infarction, ischemia injury, heart failure, arrhythmias, and atherosclerosis, may be affected by changes in the adenosine system. Pharmacological modulation of adenosine occurs through its receptor subtypes. In numerous preclinical studies, the activation of adenosine receptor 2A (A2AR) or the blockade of adenosine receptor 2B (A2BR) has shown promising results against cardiovascular diseases. This in silico study aimed to identify potential natural compounds that can activate A2AR or block A2BR without causing toxicity. Natural compounds were screened using COlleCtion of Open Natural ProdUcTs (COCONUT) or Natural Product Activity and Species Source Database (NPASS) databases to find agonists for A2AR or an antagonists/inverse agonists for A2BR. These compounds were then pre-filtered based on their toxicity profiles. The remaining compounds were subjected to molecular docking against A2AR and A2BR followed by molecular dynamics simulations were conducted. Finally, selected compounds' ADMET properties were determined using ADMETlab 2.0 web tool. Ultimately, one novel natural compound with potential agonistic activity (COCONUT IDs: CNP0450901) for A2AR and one antagonist/inverse agonist (rauwolscine) for A2BR were identified.
Synthesis, Biological Evaluation and in Silico Studies of Some 2-Substituted Benzoxazole Derivatives as Potential Anticancer Agents To Breast Cancer
(Wiley-v C H verlag Gmbh, 2022) Kuzu, Burak; Hepokur, Ceylan; Alagoz, Mehmet Abdullah; Burmaoglu, Serdar; Algul, Oztekin
In an attempt to develop potent and selective anticancer agents, some 5- or 6- and N-substituted benzoxazol-2-carboxamide derivatives were designed, synthesized, and evaluated for their cyclooxygenase inhibitory, antioxidant, and anti-proliferative activity against MCF-7 and MDA-MB-231 cell lines. Among them 5-OMe, N-piperidine substituted (compound 30), 5-OMe, N-4-methylpiperidine substituted (compound 31) and 5-Cl, N-piperidine substituted (compound 34) benzoxazole 2-carboxamide compounds have a moderate inhibitory effect in COX-1 and COX-2 enzymes. Anti-proliferative studies show that compound 30 (IC50=5.35 mu M) and compound 31 (IC50=5.82 mu M) have similar activity to reference drug 5-FU (IC50=3.95 mu M) on MCF-7 cell but they have lower toxic effect for healthy WI-38 cell line. For the MCF-7 cell line, compounds 30 and 31 show approximately 1.5 times higher selectivity compared to the 5-FU control. Among the synthesized compounds 30, 31, and 34 had the best anti-proliferative effect and were used to perform flow cytometry and cell cycle analysis on MCF-7 cell line. To predict the binding modes and pharmacokinetic parameters of all compounds, in silico studies were carried out. These compounds may shed light on cancer treatment and cancer research.