TY - JOUR
T1 - Airborne indoor allergen serine proteases and their contribution to sensitisation and activation of innate immunity in allergic airway disease
AU - Ouyang, Xuan
AU - Reihill, James A.
AU - Douglas, Lisa E.J.
AU - Martin, S. Lorraine
PY - 2024/4/30
Y1 - 2024/4/30
N2 - Common airborne allergens (pollen, animal dander and those from fungi and insects) are the main triggers of type I allergic disorder in the respiratory system and are associated with allergic rhinitis, allergic asthma, as well as immunoglobulin E (IgE)-mediated allergic bronchopulmonary aspergillosis. These allergens promote IgE crosslinking, vasodilation, infiltration of inflammatory cells, mucosal barrier dysfunction, extracellular matrix deposition and smooth muscle spasm, which collectively cause remodelling of the airways. Fungus and insect (house dust mite and cockroaches) indoor allergens are particularly rich in proteases. Indeed, more than 40 different types of aeroallergen proteases, which have both IgE-neutralising and tissue-destructive activities, have been documented in the Allergen Nomenclature database. Of all the inhaled protease allergens, 85% are classed as serine protease activities and include trypsin-like, chymotrypsin-like and collagenolytic serine proteases. In this article, we review and compare the allergenicity and proteolytic effect of allergen serine proteases as listed in the Allergen Nomenclature and MEROPS databases and highlight their contribution to allergic sensitisation, disruption of the epithelial barrier and activation of innate immunity in allergic airways disease. The utility of small-molecule inhibitors of allergen serine proteases as a potential treatment strategy for allergic airways disease will also be discussed.
AB - Common airborne allergens (pollen, animal dander and those from fungi and insects) are the main triggers of type I allergic disorder in the respiratory system and are associated with allergic rhinitis, allergic asthma, as well as immunoglobulin E (IgE)-mediated allergic bronchopulmonary aspergillosis. These allergens promote IgE crosslinking, vasodilation, infiltration of inflammatory cells, mucosal barrier dysfunction, extracellular matrix deposition and smooth muscle spasm, which collectively cause remodelling of the airways. Fungus and insect (house dust mite and cockroaches) indoor allergens are particularly rich in proteases. Indeed, more than 40 different types of aeroallergen proteases, which have both IgE-neutralising and tissue-destructive activities, have been documented in the Allergen Nomenclature database. Of all the inhaled protease allergens, 85% are classed as serine protease activities and include trypsin-like, chymotrypsin-like and collagenolytic serine proteases. In this article, we review and compare the allergenicity and proteolytic effect of allergen serine proteases as listed in the Allergen Nomenclature and MEROPS databases and highlight their contribution to allergic sensitisation, disruption of the epithelial barrier and activation of innate immunity in allergic airways disease. The utility of small-molecule inhibitors of allergen serine proteases as a potential treatment strategy for allergic airways disease will also be discussed.
KW - allergen
KW - asthma
KW - serine proteases
KW - protease inhibitor
KW - inflammation
KW - airway remodelling
KW - protease-activated receptors
KW - Humans
KW - Serine Proteases - metabolism - immunology
KW - Immunity, Innate
KW - Serine Proteinase Inhibitors - therapeutic use
KW - Animals
KW - Allergens - immunology
KW - Respiratory Hypersensitivity - immunology - enzymology
KW - Inhalation Exposure - adverse effects
KW - Air Pollution, Indoor - adverse effects
U2 - 10.1183/16000617.0126-2023
DO - 10.1183/16000617.0126-2023
M3 - Review article
SN - 1600-0617
VL - 33
JO - European Respiratory Review
JF - European Respiratory Review
IS - 172
M1 - 230126
ER -