Near-Infrared-Light-Triggered Antimicrobial Indium Phosphide Quantum Dots.
Max LevyJohn R BertramKristen A EllerAnushree ChatterjeePrashant NagpalPublished in: Angewandte Chemie (International ed. in English) (2019)
The emergence of multidrug-resistant (MDR) pathogens represents one of the most urgent global public health crises. Light-activated quantum dots (QDs) are alternative antimicrobials, with efficient transport, low cost, and therapeutic efficacy, and they can act as antibiotic potentiators, with a mechanism of action orthogonal to small-molecule drugs. Furthermore, light-activation enhances control over the spatiotemporal release and dose of the therapeutic superoxide radicals from QDs. However, the limited deep-tissue penetration of visible light needed for QD activation, and concern over trace heavy metals, have prevented further translation. Herein, we report two indium phosphide (InP) QDs that operate in the near-infrared and deep-red light window, enabling deeper tissue penetration. These heavy-metal-free QDs eliminate MDR pathogenic bacteria, while remaining non-toxic to host human cells. This work provides a pathway for advancing QD nanotherapeutics to combat MDR superbugs.
Keyphrases
- multidrug resistant
- quantum dots
- gram negative
- public health
- small molecule
- heavy metals
- low cost
- drug resistant
- acinetobacter baumannii
- visible light
- klebsiella pneumoniae
- staphylococcus aureus
- sensitive detection
- risk assessment
- hydrogen peroxide
- escherichia coli
- health risk
- health risk assessment
- drug induced
- global health