Researchers Identify Cellular Trigger Behind Pollution-Driven Lung Damage

June 17, 2026 · Baton Rouge, LA

A team of LSU researchers has pinpointed a specific type of lung cell that acts as a master switch for the harmful inflammation caused by a dangerous class of air pollutants—a discovery that opens the door to new treatments for asthma and other respiratory diseases.

The study, Aryl hydrocarbon receptor in club cells drives Th17-mediated lung injury following inhalation exposure to environmentally persistent free radicals, published in the journal Redox Biology, focused on environmentally persistent free radicals, or EPFRs. These are long-lasting, chemically reactive particles produced when organic materials burn incompletely—during wildfires, hazardous waste incineration, and other combustion processes. Unlike many pollutants that break down quickly, EPFRs can linger in the environment and homes for years and continuously generate cell-damaging molecules when entering the body. Breathing them in has been linked to severe, steroid-resistant asthma.

Led by Professor Stephania Cormier of LSU’s Department of Biological Sciences and Pennington Biomedical Research Center, the team zeroed in on “club cells”—specialized cells lining the small airways of the lungs. These cells, shaped like clubs, contain a protein called the aryl hydrocarbon receptor (AHR), which senses environmental toxins. The researchers suspected AHR inside club cells was orchestrating the damaging immune response, so tried switching these receptors off. Instead of the expected lung reaction to EPFRs—including mucus overproduction and scarring—lungs where AHR was switched off remained healthy.

“Our findings reveal club cells act as a critical environmental sensor, translating pollutant exposure into a coordinated wave of inflammation and lung damage,” Cormier said. “By identifying this single control point, we’ve uncovered a promising target for protecting people exposed to pollutants.”