Suidae iPSC-derived macrophages as models for investigating susceptibility and resilience to African swine fever virus
Watson, T. M.; Goatley, L. C.; Meek, S.; Eory, L.; Kohler, S.; Berkley, N.; Sternberg, S.; Jackson, M.; Findlay, A.; Hoskins, I.; Girling, S.; Mee, J.; Archibald, A. L.; Grey, F.; Steinbach, F.; Crooke, H.; Netherton, C. L.; Burdon, T.
Show abstract
African swine fever virus (ASFV) causes a lethal haemorrhagic fever in pigs and spread of this disease threatens many pig species (Suidae) globally. By contrast, ASFV infections in the natural evolved hosts, the warthog and bushpig, are subclinical. The macrophage (M{varphi}) is the primary target of ASFV and species-dependent responses in M{varphi}s are presumed to influence disease susceptibility. In an attempt to model these differences in vitro, we generated transgene-regulated induced pluripotent stem cells (iPSCs) from domestic pig, wild boar, red river hog and warthog, and confirmed that their corresponding iPSC-derived M{varphi}s (iPSCdMs) supported infection and replication of ASFV. In contrast to the other species, however, warthog iPSCdMs did not induce interferon upon infection by either virulent or attenuated ASFV. iPSCdMs may therefore represent an experimental system to understand how ASFV infection of M{varphi}s contributes to disease and aid development of strategies to combat this economically and environmentally devastating pathogen.
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