WoS İndeksli Yayınlar Koleksiyonu

Permanent URI for this collectionhttps://hdl.handle.net/20.500.14627/6

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Author: search.filters.author.Tunali-Akbay, TugbaHas files: No

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  • Article
    Synergistic Effects of Amniotic Membrane and Human Milk Exosomes on Burn Wound Healing
    (Elsevier Sci Ltd, 2025) Isik, Ferda; Tufan, Elif; Sivas, Guzin Goksun; Ak, Esin; Muhan, Aleyna; Sener, Goksel; Tunali-Akbay, Tugba
    Background: Thermal burns are one of the most common burns. Studies are ongoing to develop synthetic or biological wound dressings to ensure painless and scarless healing of burn wounds. Objectives: This study aimed to combine the human amniotic membrane with breast milk-based exosomes and investigate their effects on burn wound healing. Methods: 24 Wistar Albino rats weighing 200-250 g and of both genders were used. Rats were divided into control, burn, burn+human amniotic membrane (hAM) and burn+hAM+Exosomes (hAM+Exo) groups. Burn injury was induced by exposing the back of rats to 90 degrees C water for 10 s. Rats were treated with hAM and hAM+ Exo for seven days after injury. At the end of the 7th day, the skin samples were taken and analyzed biochemically and histologically. TNF-alpha, IL-1(i, type III collagen, malondialdehyde (MDA), glutathione (GSH), total protein, superoxide dismutase (SOD), and tissue factor (TF) activity were determined in skin samples. Results: In the burn group, skin TNF-alpha levels increased, IL-1(i and type III collagen levels decreased. Wound healing therapy reversed these results. In the hAM+Exo group, the TNF-alpha level was lower, and IL-1 beta and type III collagen levels were higher than in the hAM group. MDA and total protein levels increased, and GSH, tissue factor, and SOD activities decreased in the burn group. In hAM and hAM+Exo groups, MDA levels decreased, and GSH and SOD activity increased compared to the burn group. The GSH levels were significantly higher in the hAM+Exo group compared to the hAM group. Conclusion: In conclusion, combining exosomes and amniotic membrane induced changes consistent with better wound healing than amniotic membrane alone.
  • Article
    Citation - WoS: 8
    Citation - Scopus: 10
    Lactose Hydrolyzing Activity of the Lactase Immobilized Polycaprolactone and Silk Fibroin-Based Nanofiber and Nitrocellulose Membrane
    (Elsevier, 2022) Yilmaz-Karaog, Sumeyye; Gurel-Gokmen, Beguem; Tunali-Akbay, Tugba; Yılmaz-Karaoğlu, Sümeyye
    This study aimed to investigate the activity of lactase immobilized polycaprolactone and silk fibroin (PCL/SF)-based nanofiber and nitrocellulose membrane for the preparation of lactose-reduced milk. PCL/SF-based nanofiber was prepared by using the electrospinning method. The lactase enzyme was immobilized using the physical adsorption method on both surfaces, and then the optimum operating temperature and pH of the immobilized enzymes were determined. The efficiency of the immobilized lactase enzyme was determined in both goat and cow milk. The nutrient content of milk was also analyzed before and after the incubation of nanofiber and membrane with milk. The lactose hydrolysis efficiency of the lactase immobilized nitrocellulose membrane was found to be higher than the lactase immobilized PCL/SF-based nanofiber. Lactose was hydro-lyzed 59% in cow milk and 87% in goat milk by using lactase immobilized nitrocellulose membrane. 42% of lactose was also hydrolyzed in cow milk and 21% was hydrolyzed in goat milk by using lactase immobilized PCL/ SF-based nanofiber. However, the use of these two bioactive surfaces did not change the fat and protein composition of both cow and goat milk. In conclusion, lactase immobilized nitrocellulose membrane was found to be more advantageous in the production of lactose-reduced milk than the lactase immobilized poly-caprolactone/silk fibroin nanofiber.
  • Article
    Citation - WoS: 5
    Citation - Scopus: 5
    Inhibitory Effect of Whey Protein Concentrate on Sars-Cov Furin Activity and Spike Protein-Ace2 Binding in Methotrexate-Induced Lung Damage
    (Wiley-hindawi, 2022) Tufan, Elif; Sivas, Guzin Goksun; Gurel-Gokmen, Begum; Yilmaz-Karaoglu, Sumeyye; Ercan, Dursun; Ozbeyli, Dilek; Tunali-Akbay, Tugba
    This study aims to investigate the effects of whey proteins on SARS CoV-2 in methotrexate-induced lung tissue damage in rats. To determine the possible effects, rats were divided into four groups as control, control + whey, methotrexate (20 mg/kg, i.p.) and methotrexate + whey. Whey protein concentrate (2 g/kg, oral gavage) was administered for 10 days. Cytokine levels were measured and protein electrophoresis was carried out in serum samples. Lipid peroxidation, nitric oxide and glutathione level, and superoxide dismutase and glutathione S transferase activities were determined in lung samples. Inhibition of SARS CoV-2-targeted lung furin activity and SARS CoV-2 spike protein-angiotensin converting enzyme binding with whey protein concentrate were also measured in each group. In conclusion, whey protein concentrate improved methotrexate-induced lung damage and inhibited lung furin activity targeting SARS-CoV-2 S1/S2 site cleavage and SARS CoV-2 spike protein-angiotensin converting enzyme binding. Whey proteins are potential protective candidates that inhibit SARS CoV-2-related interactions, even in methotrexate-induced lung injury. Practical applications Whey proteins have anticarcinogenic, antihypertensive, antioxidant, antibacterial, antiviral, and immunomodulating properties due to the protein, bioactive peptide, and essential amino acid content. Methotrexate is a folate antagonist and inhibits cell proliferation and purine synthesis. The combined use of whey protein concentrate and methotrexate may be an alternative in the development of new strategies to the treatment approaches against COVID-19. In addition, according to the results of this study, it is thought that the protective effect of whey proteins in healthy conditions before encountering the SARS CoV-2 may be higher than those who have never used it.
  • Article
    Citation - WoS: 6
    Citation - Scopus: 6
    Myrtle Improves Renovascular Hypertension-Induced Oxidative Damage in Heart, Kidney, and Aortic Tissue
    (Springer, 2022) Arslan, Sule; Ozcan, Ozan; Gurel-Gokmen, Begum; Cevikelli-Yakut, Zatiye Ayca; Saygi, Halil Ibrahim; Sen, Ali; Tunali-Akbay, Tugba
    Renovascular hypertension is defined as the reduction in renal perfusion resulting in sustained hypertension. This study aims to investigate the possible effects of myrtle leaf extract (Myrtus communis L.) on, heart, kidney and aorta tissues in the experimental renovascular hypertension (RVH). 32 male Wistar Albino rats were divided into four groups as control, hypertension, hypertension+ramipril, and hypertension+myrtle leaf extract treatment groups. RVH model was induced by Goldblatt's 2-kidney 1-clip method. 12 weeks later than the treatment blood pressures were recorded and oxidant and antioxidant parameters, tissue factor activity, and histological analysis were determined in the kidney, heart, and aortic tissues. The blood pressure levels of the hypertension group significantly increased compared to the control group. Administration of myrtle leaf extract and ramipril significantly decreased the increased blood pressure. In the hypertension group, oxidative damage increased in the kidney, heart, and aorta tissues. In the histological evaluation of tissues in RVH, heart muscle fibres degenerated. Bowman capsule and glomeruli dilated and tubules damaged in the kidney. Myrtle leaf extract administration regenerated the damages and degenerations. The administration of myrtle leaf extract restored the impaired oxidant-antioxidant balance in the heart, kidney and aorta tissues of hypertensive rats. Myrtle leaf extract can be considered as an alternative antihypertensive treatment target in the prevention of oxidative stress-induced damage in renovascular hypertension.