Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection
Permanent URI for this collectionhttps://hdl.handle.net/11147/7148
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Article Notum1a Inhibition Promotes Neurogenesis in the Adult Zebrafish Brain(Nature Portfolio, 2025) Kocagoz, Yigit; Erdogan, Nuray Sogunmez; Ozdinc, Sevval; Ipekgil, Dogac; Katkat, Esra; Ozhan, GunesNotum is a carboxylesterase enzyme that modulates extracellular signaling by hydrolyzing palmitoleoyl residues from proteins, thereby influencing key pathways involved in cell differentiation, survival, and proliferation. While notum1 expression has been identified in the brain, its role in adult neurogenesis remains poorly understood. Using the adult zebrafish brain as a model system, we demonstrate that the notum1a homolog is broadly expressed across various brain cell types but is absent in undifferentiated radial glial cells. Pharmacological inhibition of Notum activity with the small molecule inhibitor ABC99 stimulates activation of radial glial cells, leading to increased neurogenesis. A BrdU pulse-chase assay confirms that ABC99-induced proliferation enhances the production of mature neurons. Despite Notum's established role in Wnt signaling, transcriptional analysis following ABC99 treatment reveals no sustained impact on Wnt pathway targets, suggesting that Notum may regulate neurogenesis through alternative mechanisms. Our findings highlight notum1a as a potential modulator of neural progenitor cell dynamics in the adult brain and suggest that targeting Notum could represent a novel therapeutic strategy for neurodegenerative conditions characterized by impaired neurogenesis.Article Citation - WoS: 1Citation - Scopus: 2<i>tubg1</I> Somatic Mutants Show Tubulinopathy-Associated Neurodevelopmental Phenotypes in a Zebrafish Model(Springer, 2024) Cark, Ozge; Katkat, Esra; Aydogdu, Ipek; Iscan, Evin; Oktay, Yavuz; Ozhan, GunesDevelopment of the multilayered cerebral cortex relies on precise orchestration of neurogenesis, neuronal migration, and differentiation, processes tightly regulated by microtubule dynamics. Mutations in tubulin superfamily genes have been associated with tubulinopathies, encompassing a spectrum of cortical malformations including microcephaly and lissencephaly. Here, we focus on gamma-tubulin, a pivotal regulator of microtubule nucleation encoded by TUBG1. We investigate its role in brain development using a zebrafish model with somatic tubg1 mutation, recapitulating features of TUBG1-associated tubulinopathies in patients and mouse disease models. We demonstrate that gamma-tubulin deficiency disrupts neurogenesis and brain development, mirroring microcephaly phenotypes. Furthermore, we uncover a novel potential regulatory link between gamma-tubulin and canonical Wnt/beta-catenin signaling, with gamma-tubulin deficiency impairing Wnt activity. Our findings provide insights into the pathogenesis of cortical defects and suggest that gamma-tubulin could be a potential target for further research in neurodevelopmental disorders, although challenges such as mode of action, specificity, and potential side effects must be addressed.Article Citation - WoS: 6Citation - Scopus: 6A Novel 2-Aminophenalenone Fluorescent Probe Designed for Monitoring H2o2 for in Vitro and in Vivo Bioimaging(Elsevier, 2024) Saygılı, Ecem; Ersöz Gülseven, Esra; Kıbrıs, Erman; Çakan Akdoğan, Gülçin; Üçüncü, MuhammedA significant compound in living organisms, hydrogen peroxide (H2O2) plays a dual role as a signalling molecule in cellular communication and as a pivotal biomarker in assessing disease and oxidative stress. Thus, the detection of abnormal changes in H2O2 levels is essential to understanding its function and involvement in biological systems. The growing demand to meet the specific needs for applications, particularly in biological systems, has sharpened focus on highly sensitive, highly selective molecular sensors and, in turn, heightened interest in these diagnostic tools with innovative designs. In our study, 2-aminophenalenone (2-AP) was used for the first time as a fluorophore in a fluorescent probe. The 2-APB molecule obtained from the reaction of 2-AP with 4-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl) benzyl chloroformate exhibited a highly selective and sensitive (i.e. 62 nM) detection profile for H2O2 compared with the other reactive oxygen species, anions, and metal cations. Moreover, offering naked-eye detection in aqueous solutions, 2-APB demonstrated excellent sensing performance, detection and real-time monitoring in relation to exogenous H2O2 in cells and endogenous H2O2 in zebrafish embryos. © 2024 Elsevier B.V.Article Citation - WoS: 10Citation - Scopus: 10An in Vivo Zebrafish Model Reveals Circulating Tumor Cell Targeting Capacity of Serum Albumin Nanoparticles(Elsevier, 2022) Çakan Akdoğan, Gülçin; Ersöz, Esra; Sözer, Sümeyra Çiğdem; Gelinci, EmineNanoparticles are promising tools of drug delivery in modern medicine. There is a need for fast and reliable models for in vivo validation of newly developed nanocarriers. Here, we report a fast and easy zebrafish larval model to study the biodistribution and cancer cell targeting capacity of serum albumin nanoparticles in vivo. Fluorescently tagged Bovine Serum Albumin Nanoparticles (BSA-NPs) delivered intravenously to the zebrafish larvae, can be used to study the biodistribution via live imaging. We showed that the BSA-NPs were instantly distributed to the larval vasculature including the brain, without causing any toxicity. The clearance of nanoparticles from the body occurred within few days, which gives sufficient time to study anti-cancer efficiency of the BSA-NPs. Next, we asked whether the BSA-NPs can target the cancer cells in circulation. We established a circulating tumor cell (CTC) xenograft model and described a quantitative method for colocalization and cancer cell death analysis in the intact live organism. We showed that BSA-NPs effectively found and localized to MCF7 cells in vasculature which were killed upon doxorubicin delivery. Interestingly, folic acid coating of BSA-NPs caused faster colocalization but did not increase the overall cell death. This is the first report of the biodistribution, toxicity and anti-cancer effectiveness of serum albumin-based nanoparticles in the zebrafish model. Moreover, here we report for the first time that BSA-NPs are able to target the CTCs in an in vivo model. The zebrafish CTC model and the analysis protocol reported here can be used to assess CTC targeting capacity of nanoparticles and devise patient specific CTC targeting tests.