Assessing Different Reactive Oxygen Species as Potential Antibiotics: Selectivity of Intracellular Superoxide Generation Using Quantum Dots

Reactive oxygen species (ROS) represent a broad range of chemical species including superoxide, hydroxyl, singlet oxygen, and hydrogen peroxide. Each species behaves differently in the cellular environment. Some can play specific roles as intracellular signaling molecules, while others act primarily as indiscriminate oxidants. Several recent reports have promoted the use of exogenous ROS as therapeutic agents with applications from cancer therapies to novel antimicrobials. However, therapeutics, specifically antibiotics, should either kill or inhibit the growth of harmful cells (bacteria here) without harming the host cells, and hence selectivity of action is of vital importance. Here, we show that among different ROS, only superoxide was found to be bactericidal, killing a range of multidrug-resistant (MDR) pathogens without affecting the viability or growth of mammalian cells. Superoxide has a high thermodynamic capacity to be a strong oxidant. However, its lack of reactivity with cellular components at...