Synthetic compound shows promise against multidrug resistance

Image: Antimicrobials, by Tim Sandle

Antimicrobial resistance directly causes more than 1 million deaths every year and contributes to more than 35 million more, according to the World Health Organization. Staphylococcus aureus and Enterococcus sp., 2 gram-positive pathogens highly likely to develop resistance to known treatments, can cause dangerous hospital-acquired and community-acquired infections.

Researchers have described a newly synthesised compound called Infuzide that shows activity against antimicrobial-resistant strains of S. aureus and Enterococcus in laboratory and mouse tests.

In addition, the findings suggest that Infuzide kills bacteria in ways that differ from other antimicrobials, which may help keep resistance at bay.

Infuzide (C17H14N4O4)

Infuzide emerged from more than a decade of work by interdisciplinary researchers looking for ways to create compounds that could act against pathogens in ways similar to known pharmaceutical compounds. Those include hydrazones, inorganic synthesised compounds that previous studies have shown to demonstrate antibacterial activity, including against resistant strains. The researchers synthesised 17 new compounds that contained hydrazones, and among those Infuzide showed activity against gram-positive S. aureus and Enterococcus.

The researchers found that Infuzide specifically attacks bacterial cells. In lab tests, they compared the antimicrobial effects of Infuzide against vancomycin, a powerful antibiotic that represents the standard of care in treating resistant infections. They found that Infuzide more quickly and effectively reduced the size of bacterial colonies than the standard drug. In tests of resistant S. aureus infections on the skin of mice, the compound effectively reduced the bacterial population. The reduction was even higher, the researchers reported, when infuzide was combined with linezolid, a synthetic antibiotic.

Infuzide did not show significant activity against Gram-negative pathogens, though Baltas said the group is looking for small changes to Infuzide that might expand its antimicrobial activity.

The researchers synthesised the compounds without the need of solvents, which can be expensive and environmentally hazardous. The simplicity of the chemical reactions, Baltas said, would make it easy to make large quantities to be used in new treatments.

Reference:

Rahul Maitra, Deepanshi Saxena, Abdul Akhir, Anna Kapusterynska, Michel Baltas, Sidharth Chopra. Comprehensive biological evaluation of infuzide as a potent antimicrobial, alone and in combination with gentamicin, linezolid, and minocycline targeting MDR Staphylococcus aureus and Enterococcus sp.. Microbiology Spectrum, 2025; DOI: 10.1128/spectrum.00279-25