Person: CABADAK, HÜLYA
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CABADAK
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HÜLYA
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Publication Open Access The behavioral and neurochemical effects of methylprednisolone or metyrapone in a post-traumatic stress disorder rat model(KARE PUBL, 2019) AYDIN OMAY, BANU; Tanriverdi, Ayse Melek; Aydin, Banu; Bebitoglu, Berna Terzioglu; Cabadak, Hulya; Goren, M. ZaferOBJECTIVE: Mechanisms contributing to the post-traumatic stress disorder (PTSD) that involve several physiological sys- tems, and the activation of the hypothalamic-pituitary-adrenal axis (HPA) is one of the most known systems in the PTSD pathophysiology. The present study investigates the potential effects of methylprednisolone, metyrapone and their association with the noradrenergic system within the rostral pons, a region containing the locus coeruleus (LC) in a rat model of PTSD induced with predator scent. METHODS: In this study, Sprague-Dawley rats were exposed to the stress by exposure to the scent of dirty cat litter, which is a natural stressor of a predator. One week later, the rats were re-exposed to a situational reminder (clean cat litter). The rats were treated using either methylprednisolone, metyrapone or physiological saline before exposure to a situational reminder (n=8 in each group). Noradrenaline (NA) levels in the rostral pons homogenates were analysed using ELISA. RESULTS: The anxiety indices of the rats exposed to the trauma were found to be significantly higher than the anxiety indices of the control rats. Metyrapone produced a significant increase in the anxiety indices of the non-stressed rats, and methylprednisolone did not produce a change in the anxiety indices of the non-stressed rats. Methylprednisolone treatment suppressed the anxiety in the stressed rats. Metyrapone treatment increased the anxiety indices in the stressed rats but still being lower than that of the saline-treated stressed rats. Significant decrease in the freezing time was observed following the methylprednisolone treatment both in the stressed and non-stressed rats. NA content in the rostral pons of the stressed rats was significantly higher than that of the non-stressed rats. Methylprednisolone or metyrapone treatments decreased the NA content in the non-stressed rats as compared to the saline treatment. However, these decreases were not significant. CONCLUSION: In this study, findings suggest that stress may give rise to endocrine, autonomic and behavioural responses. The anxiety indices and NA levels in the rostral pons increased with the traumatic event. The methylprednisolone treatment may suppress anxiety through interactions between the LC and the HPA axis.Publication Open Access The Neurochemical Effects of Prazosin Treatment on Fear Circuitry in a Rat Traumatic Stress Model(KOREAN COLL NEUROPSYCHOPHARMACOLOGY, 2020-05-31) AYDIN OMAY, BANU; Ketenci, Sema; Acet, Nazife Gokce; Saridogan, Gokce Elif; Aydin, Banu; Cabadak, Hulya; Goren, Mehmet ZaferObjective: The timing of administration of pharmacologic agents is crucial in traumatic stress since they can either potentiate the original fear memory or may cause fear extinction depending on the phase of fear conditioning. Brain noradrenergic system has a role in fear conditioning. Data regarding the role of prazosin in traumatic stress are controversial. Methods: In this study, we examined the effects of prazosin and the noradrenergic system in fear conditioning in a predator stress rat model. We evaluated the direct or indirect effects of stress and prazosin on noradrenaline (NA), gamma-aminobuytyric acid (GABA), glutamate, glycine levels and choline esterase activity in the amygdaloid complex, the dorsal hippocampus, the prefrontal cortex and the rostral pons. Results: Our results demonstrated that prazosin might alleviate defensive behaviors and traumatic stress symptoms when given during the traumatic cue presentation in the stressed rats. However prazosin administration resulted in higher anxiety levels in non stressed rats when the neutral cue was presented. Conclusion: Prazosin should be used in PTSD with caution because prazosin might exacerbate anxiety in non-traumatized subjects. However prazosin might as well alleviate stress responses very effectively. Stress induced changes included increased NA and GABA levels in the amygdaloid complex in our study, attributing noradrenaline a possible inhibitory role on fear acquisition. Acetylcholine also has a role in memory modulation in the brain. We also demonstrated increased choline esterase acitivity. Cholinergic modulation might be another target for indirect prazosin action which needs to be further studied.Publication Open Access Fisetin and/or capecitabine causes changes in apoptosis pathways in capecitabine-resistant colorectal cancer cell lines(2024-01-01) CABADAK, HÜLYA; Zehra K., Banu A., Can E., Hülya C.Capecitabine is recommended as one of the first-line chemotherapy treatments for advanced or metastatic colorectal cancer. Researches have been conducted on capecitabine’s impact on the viability of human colon cancer cells and its potential to induce apoptosis. However, even in cases initially responsive to treatment, the development of acquired resistance significantly limits its efficacy. Challenges still exist in effectively treating patients with chemotherapy, and developing new cytotoxic drugs is hindered by drug resistance. Fisetin alters the cell cycle, inducing apoptosis, inhibiting cancer cell proliferation, and enhancing the therapeutic effectiveness of chemotherapy drugs. This work aims to create a plan for reversing capecitabine resistance. For this purpose, the role of capecitabine and/or fisetin combinations in cell proliferation and apoptosis has been determined in both wild-type and capecitabine-resistant HT29 cells (CR/HT29). We developed capecitabine-resistant cell line from wild-type HT29 cells. This study demonstrated the effects of capecitabine, fisetin, and their combinations on both resistant and wild-type cells through experiments including cell survival skills, cell proliferation, wound healing, colony formation, hoechst staining, and western blot analysis. We established capecitabine-resistant cell lines. P-gp expression increased in CR/HT29 cells. Capecitabine effects on a CR/HT29 cells less than wild-type HT29 cells. The combination of fisetin and capecitabine in cell proliferation caused greater reductions in wild-type HT29 cells than in capecitabine-resistant cells. Fisetin has also additive effects on the apoptotic pathway in CR/HT29 cells. This study provides new perspectives on the combination of capecitabine and/or flavonoid treatment in resistant cells. Graphical abstract: (Figure presented.)Publication Open Access Effects of carbachol on apoptosis in human chronic myelogenous leukemic K562 cell line(MARMARA UNIV, FAC MEDICINE, 2019-01-31) AYDIN OMAY, BANU; Aydin, Banu; Tulunay, Aysin; Eksioglu-Demiralp, Emel; Kan, Beki; Cabadak, HulyaObjectives: Muscarinic receptors mediate diverse actions of acetylcholine in the central nervous system and in non-nervous tissues innervated by the parasympathetic nervous system. Our study aims to evaluate the potential association of the M-3 muscarinic receptor with K562 cell proliferation and death. Materials and Methods: Cell proliferation was evaluated by bromodeoxyuridine (BrDU) incorporation. To show early, late apoptosis and cell death, cells were labelled with Annexin V, propidium iodide (PI) and analyzed by flow cytometry. Nuclear extracellular signal-regulated kinase (ERK/pERK) expression was measured by western blot analysis. Results: Treatment with carbachol (CCh) for 48h decreased cell number. Exposing K562 cells to CCh for 24h decreased the number of early apoptotic cells but did not change the number of late apoptotic and necrotic cells. CCh treatment for 48h increased the number of necrotic cells, but decreased the number of early and late apoptotic cells. In response to CCh, nuclear ERK expression was increased and this effect was reversed by 1,1-dimethyl-4-diphenylacetoxypiperidinium iodide (4DAMP). Nuclear pERK expression was decreased in CCh treated cells, 4DAMP did not reverse the effect. Conclusion: Our data suggest that cholinergic agonist CCh affects cell proliferation in K562 cells not only through muscarinic receptors but also through other cholinergic receptors.Publication Open Access Effects of cholinergic compounds and TNF-alpha on human erythroleukemia K562 cell proliferation and caspase expression(MARMARA UNIV, FAC MEDICINE, 2019-01-31) AYDIN OMAY, BANU; Kanli, Zebra; Aydin, Banu; Cabadak, HulyaObjective: The purpose of this study was to investigate if stimulating auto-paracrine muscarinic receptor signalling pathway could change human erythroleukemia K562 cell proliferation and caspase 3, 8 and 9 expression levels. To better understand the role of muscarinic receptors in cell signalling mechanism, we investigated the effects of several compounds on human erythroleukemia K562 cell proliferation and caspase 3, 8 and 9 expression. These compounds were M-3 muscarinic receptor agonist, pilocarpine, pro-inflammatory cytokine, tumor necrosis factor (TNF)-alpha, and the wortmannin which is a phosphoinositide 3-kinase inhibitor. Materials and Methods: Cell proliferation and cell viability were evaluated by the trypan blue exclusion test and 5-Bromo-2-deoxy-uridine (BrdU) Labelling and Detection Kits. Caspase 3, 8 and 9 expression levels were determined by immunoblot analysis. Results: Both pilocarpine and TNF-alpha caused a small increase in human erythroleukemia K562 cell proliferation. However, when all the compounds were treated together, proliferation of human erythroleukemia K562 cells increased significantly when compared to untreated control cells. TNF-alpha and wortmannin treatment increased caspase 3 and caspase 8 expression patterns significantly in human erythroleukemia K562 cells. TNF-alpha and wortmannin treatment increased caspase 9 expression level (P>0.05) but it was not significant. Conclusion: These findings partly demonstrated that M-3 muscarinic receptor mediated an increase in K562 cell proliferation. Pilocarpine prevented TNF-alpha and wortmannin induced caspase 3 and 8 expression and indirectly showed apoptosis in human erythroleukemia K562 cells.