Lamaris Gregory A, Chamilos Georgios, Lewis Russell E, Kontoyiannis Dimitrios P
Department of Infectious Diseases, Infection Control and Employee Health, The University of Texas M. D. Anderson Cancer Center, 1515 Holcombe Boulevard, Houston, TX 77030, USA.
J Infect Dis. 2007 Dec 15;196(12):1860-4. doi: 10.1086/523765.
We developed a model of infection, using 1 Fusarium species (F. moniliforme) and 2 Scedosporium species (S. apiospermum and S. prolificans), in wild-type and Toll-deficient Drosophila melanogaster flies by injecting them with a standardized conidia inoculum. Wild-type flies were resistant to infection with both S. apiospermum and S. prolificans but were susceptible to infection with F. moniliforme. When Toll-deficient flies were infected with any of the 3 pathogens, the result was acute infection and high mortality rates. Voriconazole mixed in fly food significantly protected flies infected with F. moniliforme or S. apiospermum but not those infected with S. prolificans.
我们通过向野生型和Toll缺陷型黑腹果蝇注射标准化的分生孢子接种物,建立了一种感染模型,使用了1种镰刀菌(串珠镰刀菌)和2种帚霉属真菌(尖端赛多孢和多育赛多孢)。野生型果蝇对尖端赛多孢和多育赛多孢的感染具有抗性,但对串珠镰刀菌的感染敏感。当Toll缺陷型果蝇感染这3种病原体中的任何一种时,结果都是急性感染和高死亡率。混入果蝇食物中的伏立康唑显著保护了感染串珠镰刀菌或尖端赛多孢的果蝇,但对感染多育赛多孢的果蝇没有保护作用。