Predicting pathogen mutual invasibility and co-circulation
成果类型:
Article
署名作者:
Park, Sang Woo; Cobey, Sarah; Metcalf, C. Jessica E.; Levine, Jonathan M.; Grenfell, Bryan T.
署名单位:
Princeton University; University of Chicago
刊物名称:
SCIENCE
ISSN/ISSBN:
0036-8948
DOI:
10.1126/science.adq0072
发表日期:
2024-10-01
页码:
175-179
关键词:
antibody-dependent enhancement
transmission dynamics
cross-immunity
influenza
coexistence
virus
dengue
mechanisms
EVOLUTION
strains
摘要:
Observations of pathogen community structure provide evidence for both the coexistence and replacement of related strains. Despite many studies of specific host-pathogen systems, a unifying framework for predicting the outcomes of interactions among pathogens has remained elusive. We address this gap by developing a pathogen invasion theory (PIT) based on modern ecological coexistence theory and testing the resulting framework against empirical systems. Across major human pathogens, PIT predicts near-universal mutual susceptibility of one strain to invasion by another strain. However, predicting co-circulation from mutual invasion also depends on the degree to which susceptible abundance is reduced below the invasion threshold by overcompensatory epidemic dynamics, and the time it takes for susceptibles to replenish. The transmission advantage of an invading strain and the strength and duration of immunity are key determinants of susceptible dynamics. PIT unifies existing ideas about pathogen co-circulation, offering a quantitative framework for predicting the emergence of novel pathogen strains.