Molecular Biology and Genetics / Moleküler Biyoloji ve Genetik

Permanent URI for this collectionhttps://hdl.handle.net/11147/9

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Now showing 1 - 10 of 23
  • Conference Object
    A Carbohydrate sulfotransferase mutant zebrafish shows importance of keratan sulfate proteoglycan in skeletal structure
    (Mary Ann Liebert, 2024) Basol, M.; Ersoz, E.; Özaktaş, Helin; Cakan-Akdogan, G.
  • Review
    Citation - WoS: 9
    Citation - Scopus: 7
    Micrornas and Long Non-Coding Rnas as Novel Targets in Anti-Cancer Drug Development
    (Bentham Science Publishers, 2023) Çetinkaya, Melisa; Baran, Yusuf
    Non-coding RNAs comprise the majority of RNAs that have been transcribed from the human genome, and these non-coding RNAs have essential regulatory roles in the cellular processes. They have been discovered to influence the expression of the genes, including tumor-suppressive and oncogenes, that establish the non-coding RNAs as novel targets for anti-cancer drug development. Among non-coding RNAs, microRNAs have been extensively studied in terms of cancer biology, and some microRNA-based therapeutics have been reached in clinical studies. Even though most of the research regarding targeting non-coding RNAs for anti-cancer drug development focused on microRNAs, long non-coding RNAs have also started to gain importance as potential therapeutic targets for cancer therapy. In this chapter, the strategies and importance of targeting microRNAs and long non-coding RNAs will be described, along with the clinical studies that involve microRNA-based cancer therapeutics and preclinical studies that involve long non-coding RNA-based therapeutics. Finally, the delivery strategies that have great importance in the effective delivery of the non-coding RNA-based cancer therapeutics, hence the therapy's effectiveness, will be described.
  • Article
    Citation - WoS: 28
    Citation - Scopus: 30
    Senescence-Induced Immune Remodeling Facilitates Metastatic Adrenal Cancer in a Sex-Dimorphic Manner
    (Springer, 2023) Warde, Kate M.; Smith, Lorenzo J.; Liu, Lihua; Stubben, Chris J.; Lohman, Brian K.; Willett, Parker W.; Ammer, Julia L.; Castaneda Hernandez, Guadalupe; Imodoye, Sikiru O.; Zhang, Chenge; Jones, Kara D.; Converso Baran, Kimber; Ekiz, H. Atakan
    The mechanisms underlying the influence of aging on cancer are incompletely understood. Warde et al. establish a new model of age- and sex-dependent adrenal cancer. Their work uncovers a tumor-protective role for myeloid immune cells that is enhanced by androgens. Aging markedly increases cancer risk, yet our mechanistic understanding of how aging influences cancer initiation is limited. Here we demonstrate that the loss of ZNRF3, an inhibitor of Wnt signaling that is frequently mutated in adrenocortical carcinoma, leads to the induction of cellular senescence that remodels the tissue microenvironment and ultimately permits metastatic adrenal cancer in old animals. The effects are sexually dimorphic, with males exhibiting earlier senescence activation and a greater innate immune response, driven in part by androgens, resulting in high myeloid cell accumulation and lower incidence of malignancy. Conversely, females present a dampened immune response and increased susceptibility to metastatic cancer. Senescence-recruited myeloid cells become depleted as tumors progress, which is recapitulated in patients in whom a low myeloid signature is associated with worse outcomes. Our study uncovers a role for myeloid cells in restraining adrenal cancer with substantial prognostic value and provides a model for interrogating pleiotropic effects of cellular senescence in cancer.
  • Article
    Citation - WoS: 22
    Citation - Scopus: 23
    A Single-Amino Acid Substitution in the Adaptor Lat Accelerates Tcr Proofreading Kinetics and Alters T-Cell Selection, Maintenance and Function
    (Nature Portfolio, 2023) Lo, Wan-Lin; Ekiz, Hüseyin Atakan; Kuhlmann, Miriam; Rizzuto, Gabrielle; Ekiz, H. Atakan; Kolawole, Elizabeth M.; Revelo, Monica P.; Andargachew, Rakieb
    Mature T cells must discriminate between brief interactions with self-peptides and prolonged binding to agonists. The kinetic proofreading model posits that certain T-cell antigen receptor signaling nodes serve as molecular timers to facilitate such discrimination. However, the physiological significance of this regulatory mechanism and the pathological consequences of disrupting it are unknown. Here we report that accelerating the normally slow phosphorylation of the linker for activation of T cells (LAT) residue Y136 by introducing an adjacent Gly135Asp alteration (LAT(G135D)) disrupts ligand discrimination in vivo. The enhanced self-reactivity of LAT(G135D) T cells triggers excessive thymic negative selection and promotes T-cell anergy. During Listeria infection, LAT(G135D) T cells expand more than wild-type counterparts in response to very weak stimuli but display an imbalance between effector and memory responses. Moreover, despite their enhanced engagement of central and peripheral tolerance mechanisms, mice bearing LAT(G135D) show features associated with autoimmunity and immunopathology. Our data reveal the importance of kinetic proofreading in balancing tolerance and immunity. Lo and colleagues provide evidence for the TCR kinetic proofreading model by LAT Gly135Asp alteration to reveal functional consequences of altered kinetics in TCR activation in thymic selection and mature T-cell responses.
  • Article
    Comparative Proteome Profiles of Methicillin-Resistant Staphylococcus Aureus in Response To Vanillic Acid and 2-Hydroxycinnamic Acid
    (Bentham Science Publishers, 2021) Keman, Deniz; Soyer, Ferda
    Background: The ability of Staphylococcus aureus to cause severe infections and the difficulty of the treatments due to the multiple antibiotic resistance make this bacterium a lifethreatening human pathogen. This situation necessitates the exploration of novel antimicrobial compounds with known targets on bacteria. Phenolic acids naturally produced in plants as secondary metabolites are good candidates for being alternative antimicrobials for antibiotic-resistant bacteria. Objective: Investigation of protein profile of Methicillin-Resistant S. Aureus (MRSA) in the presence of subinhibitory concentrations of phenolic acids. Methods: MRSA was subjected to subinhibitory concentrations of Vanillic Acid (VA) and 2-Hydroxycinnamic Acid (2-HCA), separately, and the proteomic analyses were carried out by using liquid chromatography coupled to mass spectrometry. Results: Both phenolic acids elicited identification of differently expressed proteins that have roles in DNA replication, repair, RNA processing and transcription, protein synthesis, maintenance of cell homeostasis, several metabolic reactions in energy, carbohydrate and lipid metabolisms and also proteins related with the virulence and the pathogenicity of MRSA when compared with the control group. The numbers of the proteins identified were 444, 375, and 426 for control, VA-treated MRSA, and 2-HCA-treated MRSA, respectively, from which 256 were shared. While VA treatment resulted in 149 unidentified MRSA proteins produced in control, 2-HCA treatment resulted in 126 unidentified proteins. Data are available via ProteomeXchange with identifier PXD016922. Conclusion: The results obtained from this study might indicate the potential targets on bacteria and the effective use of phenolic acids in the battle with antibiotic-resistant pathogens.
  • Conference Object
    Brain Lipid Profile of Early Onset Tay-Sachs Disease Mouse Model
    (Springernature, 2020) Şengül, Tuğçe; Can, Melike; Akyıldız Demir, Seçil; Klose, C.; Surma, M.; Seyrantepe, Volkan
    [Abstract Not Available]
  • Conference Object
    Role of Oxidative Stress in the Pathogenesis of Tay-Sachs Disease Mouse Model
    (Springernature, 2020) Ateş, Nurselin; Başırlı, Hatice Hande; Çalışkan, Tufan Utku; Nalbant, Ayten; Seyrantepe, Volkan
    [Abstract Not Available]
  • Conference Object
    Determination of Therapeutic Effects of Multifunctional Micelle-Based Nanocarriers on Breast Cancer Cells
    (Elsevier, 2021) Ulu, Gizem Tuğçe; Bayram, Nazende Nur; Abdulhadi, N.; Gurdap, S.; Isoglu, A.; Isoglu, S. D.; Baran, Yusuf
    Background: Breast cancer is the most common and frequent cause of death in women in all types of cancer. Current treatment protocols do not provide a complete cure and targeting therapy can provide an important avenue for successful treatment of breast cancer. In this study, we aim to determine the therapeutic effects of the drug-conjugated carrier system with the conjugation of peptide sequence and antibody on HER2-positive breast cancer cells.
  • Article
    Citation - WoS: 3
    Citation - Scopus: 4
    Applicability of Low-Intensity Vibrations as a Regulatory Factor on Stem and Progenitor Cell Populations
    (Bentham Science Publishers, 2020) Baskan, Öznur; Karadaş, Özge; Meşe, Gülistan; Özçivici, Engin
    Persistent and transient mechanical loads can act as biological signals on all levels of an organism. It is therefore not surprising that most cell types can sense and respond to mechanical loads, similar to their interaction with biochemical and electrical signals. The presence or absence of mechanical forces can be an important determinant of form, function and health of many tissue types. Along with naturally occurring mechanical loads, it is possible to manipulate and apply external physical loads on tissues in biomedical sciences, either for prevention or treatment of catabolism related to many factors, including aging, paralysis, sedentary lifestyles and spaceflight. Mechanical loads consist of many components in their applied signal form such as magnitude, frequency, duration and intervals. Even though high magnitude mechanical loads with low frequencies (e.g. running or weight lifting) induce anabolism in musculoskeletal tissues, their applicability as anabolic agents is limited because of the required compliance and physical health of the target population. On the other hand, it is possible to use low magnitude and high frequency (e.g. in a vibratory form) mechanical loads for anabolism as well. Cells, including stem cells of the musculoskeletal tissue, are sensitive to high frequency, low-intensity mechanical signals. This sensitivity can be utilized not only for the targeted treatment of tissues, but also for stem cell expansion, differentiation and biomaterial interaction in tissue engineering applications. In this review, we reported recent advances in the application of low-intensity vibrations on stem and progenitor cell populations. Modulation of cellular behavior with low-intensity vibrations as an alternative or complementary factor to biochemical and scaffold induced signals may represent an increase of capabilities in studies related to tissue engineering.
  • Conference Object
    Changes in Gene Expression Profiles in Response To Apigenin in Imatinib Sensitive and Resistant Chronic Myeloid Leukemia Cells
    (FERRATA STORTI FOUNDATION, 2013) Baran, Yusuf; Gökbulut, Aysun; Cincin, Zeynep; Çakmakoğlu, Bedia; Kozanoğlu, İlknur
    [No abstract available]