Exhaled breath protein composition in patients hospitalised during the first wave of COVID-19

Coronavirus 2019 (COVID-19) leads to substantial morbidity and excess mortality all over the world which may be aggravated by the propensity of Severe Acute Respiratory Syndrome Coronavirus 2 to mutate. Mechanisms for development of severe COVID-19 are poorly understood. The air we exhale contains endogenous proteins and represents a highly accessible yet unexploited biological sample that can be collected without use of invasive procedures. We collected exhaled breath condensate samples from 28 patients hospitalised due to COVID-19 at admission and discharge using RTubes™. Bottom-up proteomic analysis of tandem mass-tag-labelled single exhaled breath samples was performed in 25 exhaled breath samples collected at admission and 13 samples collected at discharge using discovery-based nano-liquid chromatography-tandem mass spectrometry. In total, 232 proteins were identified in the exhaled breath samples after stringent data filtering. Most of the exhaled proteins were related to the immune systems function and regulation. The levels of four proteins, KRT77, DCD, CASP14 and SERPINB12 decreased from admission to discharge as patients generally recovered from the infection. These proteins are expressed in lung epithelium or macrophages and are associated with the regulation of inflammation drivers in COVID-19. In particular, the alarmins S100A8 and S100A9 accounted for 8% of the exhaled breath proteins. In conclusion, our study demonstrates that analysis of the exhaled breath protein composition can give insights into mechanisms related to inflammation and response to infections, and hereby also of severe COVID-19.Clinical Trial No: NCT04598620.