Polymeric ruthenium precursor as a photoactivated antimicrobial agent

TL;DR

This study demonstrates that a polymeric ruthenium precursor exhibits potent, photoactivated antibacterial activity against bacteria like E. coli and S. aureus, with low toxicity and potential for new antimicrobial applications.

Contribution

It introduces a novel, ligand-free ruthenium-based antimicrobial polymer that is highly effective and activated by UV light, expanding options for antibacterial agents.

Findings

Effective at nanogram per millilitre concentrations

Enhanced activity under UV photoirradiation

Low toxicity to mammalian cells

Abstract

In this work, the antibacterial activity of the polymeric precursor dicarbonyldichlororuthenium has been studied against Escherichia coli and Staphylococcus aureus. This Ru carbonyl precursor shows minimum inhibitory concentration at nanogram per millilitre, which renders it a novel antimicrobial polymer without any organic ligands. Besides, dicarbonyldichlororuthenium antimicrobial activity is markedly boosted under photoirradiation, which can be ascribed to the enhanced generation of reactive oxygen species under UV irradiation. This compound has been able to inhibit bacterial growth via the disruption of bacterial membranes and triggering upregulation of stress responses as shown in microscopic measurements. The activity of polymeric ruthenium as an antibacterial material is significant even at very low concentrations while remaining biocompatible to the mammalian cells at much higher concentrations. This study proves that this simple Ru carbonyl precursor can be used as an antimicrobial compound with high activity and a low toxicity profile in the context of need for new antimicrobial agents to fight bacterial infections.