@article{3345230,
    title = "Development of an in vitro homeostasis model between airway epithelial cells, bacteria and bacteriophages: a time-lapsed observation of cell viability and inflammatory response",
    author = "Tzani-Tzanopoulou, P. and Rozumbetov, R. and Taka, S. and Doudoulakakis, A. and Lebessi, E. and Chanishvili, N. and Kakabadze, E. and Bakuradze, N. and Grdzelishvili, N. and Goderdzishvili, M. and Legaki, E. and Andreakos, E. and Papadaki, M. and Megremis, S. and Xepapadaki, P. and Kaltsas, G. and Akdis, C.A. and Papadopoulos, N.G.",
    journal = "Journal of General Virology",
    year = "2022",
    volume = "103",
    number = "12",
    publisher = "Microbiology Society",
    issn = "0022-1317, 1465-2099",
    doi = "10.1099/jgv.0.001819",
    keywords = "bacteriophage;  cell culture;  cell survival;  epithelium cell;  human;  inflammation;  metabolism;  physiology;  Staphylococcus aureus;  time lapse imaging, Bacteriophages;  Cell Survival;  Cells, Cultured;  Epithelial Cells;  Humans;  Inflammation;  Staphylococcus aureus;  Time-Lapse Imaging",
    abstract = "Bacteriophages represent the most extensive group of viruses within the human virome and have a significant impact on general health and well-being by regulating bacterial population dynamics. Staphylococcus aureus, found in the anterior nostrils, throat and skin, is an opportunistic pathobiont that can cause a wide range of diseases, from chronic inflammation to severe and acute infections. In this study, we developed a human cell-based homeostasis model between a clinically isolated strain of S. aureus 141 and active phages for this strain (PYOSa141) isolated from the commercial Pyophage cocktail (PYO). The cocktail is produced by Eliava BioPreparations Ltd. (Tbilisi, Georgia) and is used as an add-on therapy for bacterial infections, mainly in Georgia. The triptych interaction model was evaluated by time-dependent analysis of cell death and inflammatory response of the nasal and bronchial epithelial cells. Inflammatory mediators (IL-8, CCL5/RANTES, IL-6 and IL-1β) in the culture supernatants were measured by enzyme-linked immunosorbent assay and cell viability was determined by crystal violet staining. By measuring trans-epithelial electrical resistance, we assessed the epithelial integrity of nasal cells that had differentiated under air-liquid interface conditions. PYOSa141 was found to have a prophylactic effect on airway epithelial cells exposed to S. aureus 141 by effectively down-regulating bacterial-induced inflammation, cell death and epithelial barrier disruption in a time-dependent manner. Overall, the proposed model represents an advance in the way multi-component biological systems can be simulated in vitro. © 2022 The Authors."
}