The Effect of Ultrasound Exposure in Combination with Gold Nanoparticles on Colonization of A375 and MCF-7 Bystander Cells

(2021) The Effect of Ultrasound Exposure in Combination with Gold Nanoparticles on Colonization of A375 and MCF-7 Bystander Cells. Journal of Isfahan Medical School. pp. 688-695. ISSN 10277595 (ISSN)

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Abstract

Background: The biological response of cells that are not directly exposed to radiation, but are in the vicinity or the environment of irradiated cells, is known as the radiation bystander effect. In previous studies, the existence and mechanism of the bystander effect induced by ionizing radiation have been investigated. Recently, ultrasound therapy was inducted as a new method for treating some cancers. Therefore, it seems necessary to evaluate the ultrasound-induced bystander effect. Methods: To investigate the ultrasound-induced bystander effect, A375 and MCF-7 cell lines were cultured in the target and bystander plates. The target plates included four groups of control (without intervention), ultrasound, gold nanoparticles, and simultaneous ultrasound treatment and gold nanoparticles. The four bystander groups received the culture medium of the target groups, respectively. MTT and colony forming units assays were performed to investigate the ultrasound induced bystander effect. Findings: The percentage of colonization in bystander groups receiving ultrasound without and with gold nanoparticles were significantly lower compared with the control group. However, the amount of colonization for the MCF-7 cell line was more than A375. Conclusion: The results showed that the ultrasound-induced bystander effect was intensified in the presence of gold nanoparticles due to. © 2021 Isfahan University of Medical Sciences(IUMS). All rights reserved.

Item Type: Article
Keywords: Bystander effect Colony forming units assays Gold Nanoparticles Ultrasound gold nanoparticle A-375 cell line Article bystander effect (cell) colony formation colony forming unit controlled study human human cell ionizing radiation MCF-7 cell line MTT assay neoplasm radiation exposure ultrasound therapy
Page Range: pp. 688-695
Journal or Publication Title: Journal of Isfahan Medical School
Journal Index: Scopus
Volume: 39
Number: 641
Identification Number: https://doi.org/10.22122/jims.v39i641.14456
ISSN: 10277595 (ISSN)
Depositing User: Zahra Otroj
URI: http://eprints.mui.ac.ir/id/eprint/17893

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