RESUMEN
Ophiocordyceps sinensis is an entomopathogenic fungus that infects ghost moth larva, forming the most valuable and rare traditional Chinese medicine, Chinese cordyceps. Our knowledge of the basic morphology and developmental biology of Chinese cordyceps is limited. In this study, morphological and ultrastructural observations of O. sinensis development in the hemocoel of Thitarodes xiaojinensis were obtained by multiple light and electron microscopy techniques, and the host immune reaction activities were determined. Our results indicated that fungal cells in the host hemocoel underwent morphotype transformations from blastospores to prehyphae to hyphae in sequence. The fusiform yeast-like blastospores were the initial cell type present in the host hemocoel and remained for 5 months or more; the encapsulation reaction and phenoloxidase activity of T. xiaojinensis hemolymph were inhibited during this period. When larvae entered the last instar, the blastospores switched to prehyphae and expanded throughout the host tissues, and then hyphae germinated from the prehyphae and mycelia formed, which finally led to host death. Considering the distinct differences between blastospores and hyphae, we identified prehyphae, which play important roles in fungal expansion, hyphae germination, and fusion formation among filaments. Notably, the elongation of prehyphae was strongly presumed to occur through fission but without separation of the two sister cells, in contrast to blastospore budding. During the morphotype transformation, the amount and composition of lipid droplets changed greatly, suggesting their important roles in these events. Overall, we provide a morphological and ultrastructural characterization of O. sinensis vegetative development within the hemocoel of T. xiaojinensis, identify and name the prehypha fungal cell type in entomopathogenic fungi for the first time, and conclude that O. sinensis infection causes sustained immunosuppression in T. xiaojinensis.