Macrophage phagocytosis of Coccidioides promotes its differentiation into the parasitic form

Coccidioides is an endemic fungus that is increasing in prevalence and can cause life threatening disease in otherwise immunocompetent people. In the environment the spores (arthroconidia) develop into hyphae, yet when they are inhaled by a mammalian host, they develop into a unique form called the spherule. The transition to spherule can be triggered in vitro with elevated temperatures and high CO ₂ levels, but the signals and host cells that might trigger Coccidioides spherulation in vivo are not known. We used live imaging to investigate how macrophages affect the fate of Coccidioides arthroconidia. Under tissue culture conditions, arthroconidia quickly developed into hyphae. The addition of macrophages promoted spherule development and delayed hyphal formation, indicating that innate immune cells can influence Coccidioides development into the pathogenic form. Exposure of arthroconidia to macrophage supernatants was not sufficient to stimulate spherulation, which was dependent on phagocytosis of arthroconidia by macrophages. Transcriptomics analysis of Coccidioides co-cultured with macrophages revealed a signature concordant with spherules grown in vitro and allowed the identification of a core set of spherule-specific transcripts. In addition, we identified Coccidioides transcripts with significantly higher abundance in the presence of macrophages compared to in vitro spherules, suggesting these factors may be needed to survive and thrive in the presence of innate immune cells. This work lays a foundation for uncovering host-pathogen signaling as well as Coccidioides factors that are critical for pathogenesis.