University of Queensland study unveils new defense against antibiotic resistance
· News-MedicalAlternative therapies that aid the body's immune system to fight bacteria have shown promise in addressing the global threat of antibiotic resistance.
University of Queensland researchers have found that when under attack, the body's immune cells activate a cellular process called 'mitochondrial fission' to kill invading bacteria.
Dr. Curson added, "This treatment works by modifying the body's immune response to support mitochondrial fission, enabling it to fight bacteria without targeting bacteria directly, like antibiotics.
"Agents called host-directed therapies (HDTs) that activate the host immune response to fight infections are a promising alternative to antibiotics, which could contribute to addressing the global burden of antibiotic-resistant bacteria," Dr Curson said.
The research, more than a decade in the making, found mitochondrial fission enhances the body's antibacterial response to infections in mammalian cells and animal models.
"Specifically, we demonstrated the E. coli infection induces mitochondrial fission," Dr Curson said.
"The triggering of this cellular process then activates the body's intracellular energy reserves to accumulate antimicrobial lipid droplets – defence mechanisms that help fight off infections."
Antimicrobial resistance, which includes resistance to antibiotics, has been named a top global public health threat by the World Health Organization and is expected to worsen in the coming years.
"Antibiotic resistance leaves us vulnerable, but our research shows HDTs could achieve positive outcomes," Professor Sweet said.
"These findings could lead to the development of new HDTs to fight antibiotic-resistant bacterial infections, including for life-threatening conditions like sepsis."
Mitochondria are important for the generation of energy in all cells but also have additional immune-related functions.
"Until now, it has been unclear whether mitochondrial fission is beneficial for fighting infections and, if so, what mechanisms are involved," Professor Sweet said.
"Our paper revealed mitochondrial fission enhances antibacterial responses, and that we can harness this knowledge to fight bacterial infections in experimental systems."
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Journal references:
Kapetanovic, R., et al (2026) Mitochondrial fission mediates an evolutionarily conserved antibacterial defense response. Science Immunology. DOI:10.1126/sciimmunol.aed2623. https://www.science.org/doi/10.1126/sciimmunol.aed2623.