PubMed İndeksli Yayınlar Koleksiyonu / PubMed Indexed Publications Collection

Permanent URI for this collectionhttps://hdl.handle.net/11147/7645

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  • Article
    Gamma Secretase Inhibitors, DAPT and MK0752, Exhibit Synergistic Anticancer Effects with Cisplatin and Docetaxel in 2D and 3D Models of Breast Cancer
    (TÜBİTAK Scientific & Technological Research Council of Turkey, 2025) Telli, Kubra; Gubat, Johannes; D'Arcy, Padraig; Ozuysal, Ozden Yalcin
    Background/aim: Breast cancer remains a major malignancy among women, and severe side effects and the development of acquired drug resistance frequently hinder current therapeutic strategies. The Notch signaling pathway, a key regulator of cell fate, is commonly dysregulated in breast cancer and associated with poor prognosis. Gamma-secretase inhibitors (GSIs) block Notch receptor activation and have shown potential anticancer efficacy. This study aimed to investigate the synergistic activity of two commonly used GSIs, DAPT and MK0752, combined with docetaxel or cisplatin in both 2D and 3D breast cancer models. Materials and methods: Triple-negative, highly metastatic MDA-MB-231 and ER+/PR+ MCF-7 breast cancer cell lines were treated with DAPT or MK0752 alone or in combination with docetaxel or cisplatin. Drug efficacy and potential synergism were evaluated in 2D monolayer cultures and 3D spheroid models. Sequential treatment strategies were also assessed, where docetaxel or cisplatin was administered prior to GSI exposure. Results: Both MDA-MB-231 and MCF-7 cell lines exhibited notable sensitivity to DAPT and MK0752 combinations with docetaxel or cisplatin in 2D and 3D cultures. Synergistic enhancement of cytotoxicity was observed, particularly in sequential treatment regimens. Pretreatment with docetaxel or cisplatin followed by GSI exposure demonstrated superior growth inhibition compared with either monotherapy or simultaneous combination treatments. Conclusion: This study highlights the therapeutic potential of combining GSIs with standard chemotherapeutics to overcome drug resistance in breast cancer. The observed synergy and sequencing effects provide a strong basis for further mechanistic and translational investigations to optimize GSI-based combinational therapy strategies.
  • Article
    Citation - WoS: 1
    Citation - Scopus: 1
    Shape and Surface Modification Dependent Cellular Interactions of Gold Nanoparticles in a 3D Blood-Brain Supported Neurospheroid Model
    (Churchill Livingstone, 2025) Tomak, Aysel; Saglam-Metiner, Pelin; Coban, Reyhan; Oksel-Karakus, Ceyda; Yesil-Celiktas, Ozlem
    Recent investigations have begun to explore the cellular interactions of nanoparticles (NPs) in three-dimensional (3D) neuro-spheroid models of the blood-brain barrier (BBB), offering novel insights into NP transport across the barrier and their potential neurotoxic effects. Building on these findings, we investigated the effects of particle shape and surface modification on the transport dynamics and cellular interactions of gold NPs (AuNPs) using a multicellular 3D spheroid model of the BBB. AuNPs with two different morphologies, spherical and rod-like, were synthesized, modified with polyethylene glycol (PEG) and characterized in detail using Ultraviolet-Visible (UV-Vis) Spectroscopy, Scanning Electron Microscopy (SEM), Dynamic Light Scattering (DLS) and Inductively Coupled Plasma Mass Spectrometry (ICP-MS) techniques. A 3D neuro-spheroid model consisting of mouse brain endothelial cells (bEnd.3), motor neuron-like hybrid cells (NSC-34) and glial cells (C6) was employed to evaluate the BBB transport characteristics and cytotoxicity of bare and PEG-coated spherical and rod-shaped AuNPs. Our results indicated that 3D neurospheroid models can serve as orchestral platforms for studying cellular behaviour of NPs. PEGylation of NPs substantially reduced cytotoxic effects compared to bare particles. While spherical AuNPs showed limited translocation through the endothelial barrier, those that entered the spheroid were found to be distributed deeper within the interior. In contrast, rod-shaped particles exhibited a greater capacity to cross the BBB but tended to accumulate near the periphery without deeper penetration. These findings underscore the critical role of shape and surface chemistry in nanoparticle-mediated BBB transport and support the utility of 3D neuro-spheroid models in predicting nanoparticle behavior in brain tissue.
  • Review
    Citation - WoS: 1
    Citation - Scopus: 2
    Organ-On Platforms for Drug Development, Cellular Toxicity Assessment, and Disease Modeling
    (Tubitak Scientific & Technological Research Council Turkey, 2024) Khurram, Muhammad Maaz; Cinel, Gokturk; Yesil Celiktas, Ozlem; Bedir, Erdal
    Organs-on-chips (OoCs) or microphysiological platforms are biomimetic systems engineered to emulate organ structures on microfluidic devices for biomedical research. These microdevices can mimic biological environments that enable cell-cell interactions on a small scale by mimicking 3D in vivo microenvironments outside the body. Thus far, numerous single and multiple OoCs that mimic organs have been developed, and they have emerged as forerunners for drug efficacy and cytotoxicity testing. This review explores OoC platforms to highlight their versatility in studies of drug safety, efficacy, and toxicity. We also reflect on the potential of OoCs to effectively portray disease models for possible novel therapeutics, which is difficult to achieve with traditional 2D in vitro models, providing an essential basis for biologically relevant research.
  • Article
    Trna Wobble Base Modifications and Boric Acid Resistance in Yeast: Boron-Resistant Deletion Mutants Induce the General Amino Acid Control Mechanism and Activate Boron Efflux
    (NLM (Medline), 2020) Uluisik, I.; С Karakaya, H.; Koc, A.
    Boric acid is essential for plants and has many vital roles in animals and microorganisms. However, its high doses are toxic to all organisms. We previously screened yeast deletion collections to identify boric acid-resistant and susceptible mutants to identify genes that play a role in boron tolerance. Here, we analyzed boron resistant mutants (elplΔ, elp3Δ, elp6Δ, ncs2Δ, ncs6Δ and ktil2Δ) for their abilities to modulate the general amino acid control system (GAAC) and to induce boron efflux pump ATR1. The mutants analyzed in this study lack the genes that play roles in tRNA Wobble base modifications. We found that all of the boron resistant mutants activated Gcn4-dependent reporter gene activity and increased the transcript level of the ATR1 gene. Additionally, boron resistant cells accumulated less boric acid in their cytoplasm compared to the wild type cells upon boron exposure. Thus, our findings suggested that loss of wobble base modifications in tRNA leads to GAAC activation and ATR1 induction, which in turn reduced intracellular boron levels and caused boron resistance.
  • Article
    Citation - WoS: 5
    Citation - Scopus: 5
    Mechanical Behaviour of Photopolymer Cell-Size Graded Triply Periodic Minimal Surface Structures at Different Deformation Rates
    (Mdpi, 2024) Yilmaz, Yunus Emre; Novak, Nejc; Al-Ketan, Oraib; Erten, Hacer Irem; Yaman, Ulas; Mauko, Anja; Ren, Zoran
    This study investigates how varying cell size affects the mechanical behaviour of photopolymer Triply Periodic Minimal Surfaces (TPMS) under different deformation rates. Diamond, Gyroid, and Primitive TPMS structures with spatially graded cell sizes were tested. Quasi-static experiments measured boundary forces, representing material behaviour, inertia, and deformation mechanisms. Separate studies explored the base material's behaviour and its response to strain rate, revealing a strength increase with rising strain rate. Ten compression tests identified a critical strain rate of 0.7 s-1 for "Grey Pro" material, indicating a shift in failure susceptibility. X-ray tomography, camera recording, and image correlation techniques observed cell connectivity and non-uniform deformation in TPMS structures. Regions exceeding the critical rate fractured earlier. In Primitive structures, stiffness differences caused collapse after densification of smaller cells at lower rates. The study found increasing collapse initiation stress, plateau stress, densification strain, and specific energy absorption with higher deformation rates below the critical rate for all TPMS structures. However, cell-size graded Primitive structures showed a significant reduction in plateau and specific energy absorption at a 500 mm/min rate.
  • Article
    Citation - WoS: 32
    Citation - Scopus: 31
    Wien Effect in Interfacial Water Dissociation Through Proton-Permeable Graphene Electrodes
    (Nature Research, 2022) Cai, Junhao; Griffin, Eoin; Guarochico-Moreira, Victor H.; Barry, D.; Xin, B.; Yağmurcukardeş, Mehmet; Zhang, Sheng; Geim, Andre K.; Peeters, François M.; Lozada-Hidalgo, Marcelo
    Strong electric fields can accelerate molecular dissociation reactions. The phenomenon known as the Wien effect was previously observed using high-voltage electrolysis cells that produced fields of about 107 V m−1, sufficient to accelerate the dissociation of weakly bound molecules (e.g., organics and weak electrolytes). The observation of the Wien effect for the common case of water dissociation (H2O ⇆ H+ + OH−) has remained elusive. Here we study the dissociation of interfacial water adjacent to proton-permeable graphene electrodes and observe strong acceleration of the reaction in fields reaching above 108 V m−1. The use of graphene electrodes allows measuring the proton currents arising exclusively from the dissociation of interfacial water, while the electric field driving the reaction is monitored through the carrier density induced in graphene by the same field. The observed exponential increase in proton currents is in quantitative agreement with Onsager’s theory. Our results also demonstrate that graphene electrodes can be valuable for the investigation of various interfacial phenomena involving proton transport.
  • Article
    Citation - WoS: 11
    Türkiye’de Kutanöz Leyşmanyazis Etkeni Leishmania Tropica’da Antimon Direnç Mekanizmasının Belirlenme
    (Ankara Mikrobiyoloji Derneği, 2020) Özbilgin, Ahmet; Zeyrek, Fadile Yıldız; Güray, Melda Zeynep; Çulha, Gülnaz; Akyar, Işın; Harman, Mehmet; Gündüz, Cumhur
    Dünya Sağlık Örgütü, yaklaşık bir milyar insanın endemik bölgelerde risk altında olduğunu, son beş yıl içinde bir milyon kutanöz leyşmanyazis (KL) olgusunun ve yılda yaklaşık 300.000 viseral leyşmanyazis (VL) olgusunun olduğunu bildirmektedir. Her yıl yaklaşık 20.000 kişinin VL’ye bağlı öldüğü bilinmektedir. Türkiye’de Leishmania tropica’nın ve Leishmania infantum’un neden olduğu KL’de yılda 2500 civarında olgu bildirilmektedir. Başta Akdeniz ve Ege Bölgesi illerinde olmak üzere diğer birçok ilde son yıllarda ortaya çıkan olgu ve odaklarda önemli oranda artış görülmesi önümüzdeki yıllarda enfeksiyon hızının yükseleceğini göstermektedir. Ülkemizdeki KL’nin ana etkeni L.tropica olup tedavide meglumin antimonat kullanılmaktadır. Bu çalışmada, antimona dirençli ve dirençli olmayan L.tropica izolatlarının gen ve protein ekspresyonları karşılaştırılarak L.tropica’ya özgü antimon direnç genlerinin saptanması amaçlanmıştır. Ülkemizin Ege, Akdeniz ve Güneydoğu bölgelerinden antimonat direnci bulunmayan 3 KL hastasından elde edilmiş L.tropica izolatlarında, laboratuvar ortamında meglumin antimonata karşı 3 dirençli izolat geliştirilmiştir. Bu izolatların mikroarray yöntemi ile gen ekspresyon değişimleri, 2 boyutlu jel elektroforezi ile protein profilleri ve MALDI-TOF/TOF MS ile ilgili proteinleri tanımlanarak birbirleriyle karşılaştırma yapılmıştır. Antimon tedavisine yanıt vermemiş 10 KL hastasından elde edilmiş L.tropica izolatlarına antimon bileşiklerine yönelik direnç testleri uygulanmış ve direnç gelişiminden sorumlu genlerin ekspresyonlarını saptamak amacıyla kantitatif gerçek zamanlı polimeraz zincir reaksiyonu uygulanmıştır. Ayrıca, protein profilleri karşılaştırılarak antimon direnci olan ve olmayan izolatlardaki protein ekspresyon düzeylerindeki farklılıklar belirlenmiş ve farklılık saptanan proteinlerin tanımlanması gerçekleştirilmiştir. Bu çalışmalar sonucunda, L.tropica izolatlarının antimon bileşiklerine karşı direnç geliştirilen izolatlarında, direnç geliştirmesinde enolaz, “Elongation factor-2 (EF-2)”, “Heat shock protein 70 (HSP 70)”, tripanotyon redüktaz, protein kinaz C ve metalo-peptidaz proteinlerinin rol oynadığı saptanmış ve hastalardan alınan doğal dirençli izolatlarda da benzer ekspresyon değişimi gösterilmiştir. Sonuç olarak, ülkemizdeki L.tropica izolatlarının deneysel olarak çok kısa sürede meglumin antimonata (Glucantime®) karşı direnç kazandığı saptanmıştır. Ülkemizde yaşayan ve yurt dışından ülkemize giriş yapan KL hastalarının yetersiz ve eksik tedavi görmesi durumunda, dirençli suşların ve olgu sayısının hızla artabileceği ve dirençli leyşmanyazis odaklarının oluşabileceği öngörülmektedir.
  • Article
    Citation - WoS: 12
    Citation - Scopus: 12
    Evaluation of Adjuvant Activity of Astragaloside Vii and Its Combination With Different Immunostimulating Agents in Newcastle Disease Vaccine
    (Academic Press, 2021) Yakuboğulları, Nilgün; Çöven, Furkan Ozan; Cebi, Nusin; Çöven, Fethiye; Çöven, Nejdet; Genç, Rukan; Bedir, Erdal
    Astragaloside VII (AST-VII), a major cycloartane saponin isolated from Turkish Astragalus species, turned out to be one of the most active metabolites demonstrating Th1/Th2 balanced immune response. As Quillaja saponins are extensively used in adjuvant systems, this study made an attempt to improve AST-VII based adjuvant systems by using different immunostimulatory/delivery agents (monophosphoryllipid A (MPL), Astragalus polysaccharide (APS) and squalene) and to induce cellular and humoral immune response against a viral vaccine. For this purpose, Newcastle Disease vaccine (NDV) was chosen as a model vaccine. Swiss albino mice were immunized subcutaneously with LaSota vaccines in the presence/absence of AST-VII or developed adjuvant systems. AST-VII administration both in live/inactivated LaSota vaccines induced neutralizing and NDV specific IgG, IgG1 and IgG2b antibodies response as well as IL-2 and IL-4 production. APS based delivery systems enhanced the production of neutralizing antibody and the minor augmentation of IFN-? and IL-2 levels. Squalene emulsion (SE) alone or combined with AST-VII were effective in NDV restimulated splenocyte proliferation. As a conclusion, AST-VII and AST-VII containing adjuvant systems demonstrated Th1/Th2 balanced antibody and cellular immune responses in NDV vaccines. Thus, these systems could be developed as vaccine adjuvants in viral vaccines as alternative to saponin-based adjuvants.
  • Article
    Citation - WoS: 3
    Citation - Scopus: 3
    Chromatographic Analysis for Targeted Metabolomics of Antioxidant and Flavor-Related Metabolites in Tomato
    (Bio-Protocol, 2021) Gürbüz Çolak, Nergiz; Tek, Neslihan; Frary, Anne; Doğanlar, Sami
    Targeted metabolomics is a useful approach to evaluate crop breeding studies. Antioxidant and flavor-related traits are of increasing interest and are considered quality traits in tomato breeding. The present study presents chromatographic methods to study antioxidants (carotenoids, vitamin C, vitamin E, phenolic compounds, and glutathione) and flavor -related characters (sugars and organic acids) in tomato. Two different extraction methods (for polar and apolar entities) were applied to isolate the targeted compounds. The extraction methods developed in this work were time and cost-effective since no further purification was needed. Carotenoids, vitamin C, glutathione, and phenolic acids were analyzed by HPLC-PDA using a RP C18 column at an appropriate wavelength for each compound. Vitamin E and sugars were analyzed by HPLC with RP C18 and NH2 columns and detected by FLD and RI detectors, respectively. In addition, organic acids were analyzed with GC-FID using a Rtx 5DA column after derivatization with MSTFA. As a result, sensitive analytical methods to quantify important plant metabolites were developed and are described herein. These methods are not only applicable in tomato but are also useful to characterize other species for flavor-related and antioxidant compounds. Thus, these protocols can be used to guide selection in crop breeding.
  • Book Part
    Citation - Scopus: 86
    The Role of Mirna in Cancer: Pathogenesis, Diagnosis, and Treatment
    (Humana Press, 2022) Uzuner, Erez; Ulu, Gizem Tuğçe; Gürler, Sevim Beyza; Baran, Yusuf
    Cancer is also determined by the alterations of oncogenes and tumor suppressor genes. These gene expressions can be regulated by microRNAs (miRNA). At this point, researchers focus on addressing two main questions: “How are oncogenes and/or tumor suppressor genes regulated by miRNAs?” and “Which other mechanisms in cancer cells are regulated by miRNAs?” In this work we focus on gathering the publications answering these questions. The expression of miRNAs is affected by amplification, deletion or mutation. These processes are controlled by oncogenes and tumor suppressor genes, which regulate different mechanisms of cancer initiation and progression including cell proliferation, cell growth, apoptosis, DNA repair, invasion, angiogenesis, metastasis, drug resistance, metabolic regulation, and immune response regulation in cancer cells. In addition, profiling of miRNA is an important step in developing a new therapeutic approach for cancer. © 2022, Springer Science+Business Media, LLC, part of Springer Nature.