Early Morphogenesis of Glugea-lnduced Xenomas in Laboratory-Reared Flounder

Glugea stephani-infecled submucosal cells of laboratory-reared winter flounder, Pseudopleuronectes americanus, change to unique giant cell xenomas. These cells hypertrophy while the intracellular Glugea propagate to high numbers in the cytoplasm and eventually overrun the host cell. The xenomas slowly reach 20-25 muml;m (at 17°C) by day 10 after parasite invasion. These xenomas (eight often examined by electron microscopy) are coated with a mucus-like envelope onto which is attached a layer of endothelial ceils. The 10-day xenomas display (a) host cell endonuclear polyploidization and amitosis, (b) limited parasite growth and reproduction, and (c) a host cell cytoplasm structure similar to that seen in undifferentiated phagocytes. Glugea parasites do not induce obvious cell degenerative effects in 10-day xenomas; the 20-day xenomas are hypertrophied to 70-100 m?m. These cells are characterized by (a) a host cell component denuded of endoplasmic reticulum and phagosome membrane, (b) a reduction in host cell ribosomes and the disappearance of host cell cytoskeletal assemblages, including microtubules, and (c) a significant increase in vegetative Glugea within xenomas. Evidence indicates cytoplasmic calcium of the host cell xenoma is perturbed by the intracellular Glugea; the alterations in the host cell calcium domains may be a big factor in the induction of the block of mitosis in the host cell and in the disruption in its cytoskeletal controls.