ABSTRACT
Recently, an inverse relationship between incidence of COVID-19 and seasonal aerosolization of mold spores was demonstrated. Analyses of that relationship suggested mold spores compete with SARS-CoV-2 virions for a receptor on the pulmonary epithelial surface. By inference, the operative receptor was proposed to be Toll-like receptor 4, with surface-localized virions being responsible for symptomatology. In this report, the pathogenesis of COVID-19 is further developed, with a focus on a role for surfactant protein D in the process. This developed proposal provides both mechanistic understanding and suggested treatments of COVID-19.
ABSTRACT
Data from Chicago confirm the end of flu season coincides with the beginning of pollen season. More importantly, the end of flu season also coincides with onset of seasonal aerosolization of mold spores. Overall, the data suggest bioaerosols, especially mold spores, compete with viruses for a shared receptor, with the periodicity of influenza-like illnesses, including COVID-19, a consequence of seasonal factors that influence aerosolization of competing species.