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1. Bioflavonoids protect cells against halogenated boroxine-induced genotoxic damage by upregulation of hTERT expression.

Author

Hadzic, Maida, Haveric, Sanin, Haveric, Anja, Lojo-Kadric, Naida, Galic, Borivoj, Ramic, Jasmin, and Pojskic, Lejla

Subjects

BIOFLAVONOIDS, GENETIC toxicology, TELOMERASE reverse transcriptase, LUTEOLIN, CELL cycle, CELL proliferation

Abstract

Plant bioflavonoids are widely present in the human diet and have various protective properties. In this study, we have demonstrated the capacity of delphinidin and luteolin to increase human telomerase reverse transcriptase (hTERT) expression level and act as protective agents against halogenated boroxine-induced genotoxic damage. Halogenated boroxine K2(B3O3F4OH) (HB), is a novel compound with potential for the treatment of both benign and malignant skin changes. In vivo and in vitro studies have confirmed the inhibitory effects of HB on carcinoma cell proliferation and cell cycle progression as well as enzyme inhibition. However, minor genotoxic effects of HB are registered in higher applied concentrations, but those can be suppressed by in vitro addition of delphinidin and luteolin in appropriate concentrations. Fresh peripheral blood samples were cultivated for 72 h followed by independent and concomitant treatments of HB with luteolin or delphinidin. We analyzed the differences in relative hTERT expression between series of treatments compared with controls, which were based on normalized ratios with housekeeping genes. The obtained results have shown that selected bioflavonoids induce upregulation of hTERT that may contribute to the repair of genotoxic damage in vitro. [ABSTRACT FROM AUTHOR]

Published

2019