Allergen‐derived proteinases: Isolation, characterization and signaling via proteinase‐activated receptors (PARs)

Abstract

ObjectiveTo identify proteolytic enzymes in insect and mould asthma allergens and assess their ability to signal via the PARs.MethodsAllergen‐derived trypsin‐like enzymes known to contribute to lung inflammation were visualized (western blot) with serine proteinase activity‐based probes (ABP). Enzymes were purified using ion‐exchange chromatography and analyzed for their ABP reactivity & substrate‐inhibitor kinetic profiles. Each enzyme was tested for its activation of PAR–dependent calcium signaling in PAR1 & PAR2‐expressing KNRK cells. ABP‐labeled enzymes were isolated by avidin affinity chromatography and their peptide sequences determined (mass spectrometry).ResultsBoth allergens contained ABP‐labeled proteinases with MWs of 20–26 kDa. Each enzyme had distinct kinetic substrate (Km) and inhibitor (Ki) profiles. The enzymes all caused PAR2 calcium signaling, and differentially activated PAR1. Sequencing revealed that the allergen proteinases were homologous with previously described trypsin‐like enzymes.ConclusionsDiverse allergens contain multiple biochemically distinct trypsin‐like proteinases that are able to target PARs 1 and 2. Thus, PARs and their activating allergen proteinases may be attractive therapeutic targets for the treatment of allergen‐induced asthma.Support: Canadian Institutes of Health Research, NIH USA and Lung Association of Alberta & NWT