Synchronous development of the erythrocytic stages of a human malaria parasite, Plasmodium falciparum, in culture was accomplished by suspending cultured parasites in 5% D-sorbitol and subsequent reintroduction into culture. Immediately after sorbitol treatment, cultures consisted mainly of single and multiple ring-form infections. At the same time, varying degrees of lysis of erythrocytes infected with the more mature stages of the parasite was evident. Approximately 95% of the parasites were in the ring stage of development at 48 and 96 hr after sorbitol treatment-likewise, a high percentage of trophozoite and schizont stages was observed at 24, 72, and 120 hr. D-Mannitol produced similar, selective, lytic effects.
Intracellular bacteria and parasites typically invade host cells through the formation of an internalization vacuole around the invading pathogen. Plasmodium sporozoites, the infective stage of the malaria parasite transmitted by mosquitoes, have an alternative mechanism to enter cells. We observed breaching of the plasma membrane of the host cell followed by rapid repair. This mode of entry did not result in the formation of a vacuole around the sporozoite, and was followed by exit of the parasite from the host cell. Sporozoites traversed the cytosol of several cells before invading a hepatocyte by formation of a parasitophorous vacuole, in which they developed into the next infective stage. Sporozoite migration through several cells in the mammalian host appears to be essential for the completion of the life cycle.
SYNOPSIS
Albumin was found to have a striking stimulatory effect on motility of Plasmodium sporozoites, while serum globulins had an inhibitory effect. Albumin also preserved viability of sporozoites in vitro at 4 C for several days. P. berghei, P. cynomolgi, and P. falciparum sporozoites each had a distinct and characteristic type of motility. P. berghei sporozoites from oocysts had a different type of motility from that of salivary gland sporozoites, each type presumably associated with different invasive capacities at different times during the life cycle of the parasite. This change in sporozoite motility during development was also associated with other physiologic developmental changes in the sporozoite. The degree of motility of a given pool of sporozoites was to some degree associated with other parameters of metabolic activity of these sporozoites, i.e. infectivity, immunogenicity, and secretory activity. Secretions of the rhoptry‐microneme complex may play a role in sporozoite motility.
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