Researchers from the University of Kent’s School of Biosciences have combined computational and microbiology laboratory approaches to identify existing drugs that can be repurposed to combat antibiotic-resistant bacterial infections, instead of developing new ones.
This research, which has been published in the Journal of Infectious Diseases, revealed that a class of steroid drugs currently used in hormone replacement therapy (HRT) can also stop the growth of antibiotic-resistant E. coli and effectively kill MRSA.
These drugs are particularly good at binding to a protein complex, cytochrome bd, which is important for the growth and survival of a range of disease-causing bacterial species. The researchers made an in silico screening for drugs that could inhibit bd activity, and identified quinestrol, ethinyl estradiol and mestranol, then evaluated their effectiveness in vitro.
The steroid drugs ethinyl estradiol and quinestrol inhibited E. coli bd-I activity. The IC50 of quinestrol for inhibiting oxygen consumption in E. coli bd-I-only membranes as 0.2µg/mL, although residual activity remained at around 20% at higher concentrations Quinestrol exhibited potent bactericidal effects against S. aureus but not E. coli.
It is expected that steroids may provide an alternative to conventional antibiotics that are becoming increasingly ineffective.
Dr Mark Shepherd, Reader in Microbial Biochemistry at Kent and the corresponding author on the paper, said: “These exciting developments will help to advance research into new antimicrobials, and we are enthusiastic to use our powerful experimental approach to discover drugs that can target other bacterial proteins and combat a wide range of antibiotic-resistant infections.”
Source: University of Kent
