Hawley Dana M, Pérez-Umphrey Anna A, Adelman James S, Fleming-Davies Arietta E, Garrett-Larsen Jesse, Geary Steven J, Childs Lauren M, Langwig Kate E
Department of Biological Sciences, Virginia Tech, Blacksburg, Virgina, United States of America.
Department of Biological Sciences, University of Memphis, Memphis, Tennessee, United States of America.
PLoS Pathog. 2024 Sep 4;20(9):e1012092. doi: 10.1371/journal.ppat.1012092. eCollection 2024 Sep.
Pathogen epidemics are key threats to human and wildlife health. Across systems, host protection from pathogens following initial exposure is often incomplete, resulting in recurrent epidemics through partially-immune hosts. Variation in population-level protection has important consequences for epidemic dynamics, but how acquired protection influences inter-individual heterogeneity in susceptibility and its epidemiological consequences remains understudied. We experimentally investigated whether prior exposure (none, low-dose, or high-dose) to a bacterial pathogen alters host heterogeneity in susceptibility among songbirds. Hosts with no prior pathogen exposure had little variation in protection, but heterogeneity in susceptibility was significantly augmented by prior pathogen exposure, with the highest variability detected in hosts given high-dose prior exposure. An epidemiological model parameterized with experimental data found that heterogeneity in susceptibility from prior exposure more than halved epidemic sizes compared with a homogeneous population with identical mean protection. However, because infection-induced mortality was also greatly reduced in hosts with prior pathogen exposure, reductions in epidemic size were smaller than expected in hosts with prior exposure. These results highlight the importance of variable protection from prior exposure and/or vaccination in driving population-level heterogeneity and epidemiological dynamics.
病原体流行是对人类和野生动物健康的关键威胁。在各个系统中,宿主在初次接触病原体后的防护往往并不完全,导致部分免疫的宿主中疫病反复流行。群体层面防护的差异对疫病动态有重要影响,但获得性防护如何影响个体间易感性的异质性及其流行病学后果仍未得到充分研究。我们通过实验研究了鸟类对一种细菌性病原体的先前暴露情况(无、低剂量或高剂量)是否会改变其易感性的宿主异质性。先前未接触过病原体的宿主在防护方面差异不大,但先前接触病原体显著增加了易感性的异质性,在先前接受高剂量暴露的宿主中检测到的变异性最高。用实验数据参数化的流行病学模型发现,与具有相同平均防护水平的同质群体相比,先前暴露导致的易感性异质性使疫病规模减半以上。然而,由于先前接触过病原体的宿主中感染导致的死亡率也大幅降低,因此先前暴露宿主的疫病规模减少幅度小于预期。这些结果凸显了先前暴露和/或疫苗接种带来的可变防护在推动群体层面异质性和流行病学动态方面的重要性。
