Plasmodium lophurae: The ultrastructure of the exoerythrocytic stages

Abstract

The fine structure of the exoerythrocytic stages of Plasmodium lophurae was studied. in specimens grown in tissue cultures of avian cells. Specimens were prepared for sectioning by a method which minimizes disturbance and permits precise selection and orientation specimens. Plasmodium lophurae is similar in many aspects to P. fallax. Merozoites are highly specialized and differentiated. Analysis of their ultrastructure revealed the polar complex to be a specialization of the pellicular envelope and its associated underlying microtubules. The polar rings may simply be a modification of the inner membrane of the pellicle and not discrete structures as previously reported. The electron-dense polar organelles are separated on morphological grounds into three groups: the large paired organelles and the small dense bodies which are both linked to microducts, and the transitional bodies, a third organelle being reported for the first time. Transitional bodies are without microducts, occur in fully mature merozoites and persist only for a short period. All three of these organelles appear to be related to and possibly even derived from internal membrane systems and ribosomes. The apolar end of the merozoite contains the mitochondrion and its associated spherical body. Detailed study of the latter shows it to be cylindrical. Upon entering the host cell, the parasite adds a third membrane at the interface between it and the cell. The merozoite becomes spherical and undergoes transformation into a trophozoite. During this reorganization phase, dedifferentiation occurs and is followed by a rapid growth phase. The end of the growth phase is signaled by the appearance of germinal clefts and nuclear division. The entire process of schizogony culminates in a highly synchronized formation of merozoites. Processes of the limiting membrane forming the host parasite interface were observed extending deply into the cytoplasm of the host cell and often appeared to form bridges between two or more parasites. The significance of this new observation is not yet established.