Immune cells can turn certain invaders on themselves, forcing them to prematurely self-destruct, researchers have discovered.
In mice, when white blood cells in the lungs engulf spores of a common airborne fungus, these immune cells release an enzyme that sends the fungal cells into programmed cell death. That prevents the spores from setting up shop in the lungs and sparking a potentially deadly lung infection, the researchers report in the Sept. 8 Science.
Found naturally in soil and decaying organic matter, the fungus, Aspergillus fumigatus, releases airborne spores that are found in small doses in the air people breathe every day. The finding may help explain why most people can regularly inhale the spores and not get sick. In people with weakened immune systems, though, this natural defense system doesn’t work. This research could eventually lead to better treatments for these patients.
Programmed cell death is a natural part of a cell’s life cycle — a way for organisms to break down old cells and make way for new ones. “Research in the last couple of decades has shown that microbes can exploit [cell death] pathways to cause disease,” says study coauthor Tobias Hohl, an infectious disease researcher at Memorial Sloan Kettering Cancer Center in New York City. But this study shows that the tables can be turned. “Not only can microbes exploit this in hosts, but host cells can exploit these pathways to instruct certain microbes to kill themselves.”
“The idea that the host triggers the mechanism of [programmed cell death] as a way of defending against infection is very cool,” says Borna Mehrad, a pulmonologist at the University of Florida College of Medicine in Gainesville who wasn’t part of the study.
Hohl and colleagues identified a gene in A. fumigatus that puts the brakes on programmed cell death. The gene, AfBIR1, shares an ancestor with the human gene survivin, which also regulates cell death.
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