Abstract
Based on confocal fluorescence and bright field video microscopy, we present detailed observations on the processes of invasion and egress of erythrocytes by the apicomplexan parasite Babesia divergens. Time-lapse images reveal numerous unexpected findings associated with the dynamics of B. divergens and its ability to manipulate the erythrocyte during both processes in its asexual cycle under in vitro conditions. Despite the speed at which these processes occur and the small size of the parasite, we capture infective merozoites moving vigorously and causing striking deformations in the erythrocyte’s plasma membrane during an active invasion. We also observed intraerythrocytic dynamic stages as paired pyriforms, double paired pyriforms, tetrads, unattached pyriform sister cells and multiple parasite stages resulting in the release of large numbers of merozoites over a short period. Of considerable interest is that time-lapse images reveal a novel mechanism of egress used by B. divergens to exit the human erythrocyte. The release occurs when B. divergens parasites establish contacts with the plasma membrane of the erythrocyte from within, before exiting the cell. Visualization and analysis of the images enabled us to obtain useful information and broaden our knowledge of complex and crucial events involved with parasitisation of human erythrocytes by B. divergens.
Highlights
Babesia divergens is an apicomplexan protozoan parasite that is naturally transmitted by ixodid ticks[1]
The free merozoite of B. divergens recognizes the erythrocyte through its apical end and causes an initial local depression in the host cell membrane, which deepens with parasite invasion[9]
We focus on real-time imaging of the morphological steps and kinetics of live B. divergens parasites during the invasion and egress processes by exploiting time-lapse videomicroscopy, confocal fluorescence and bright field imaging
Summary
Babesia divergens is an apicomplexan protozoan parasite that is naturally transmitted by ixodid ticks[1]. B. divergens cases are concentrated in Europe where the intraerythrocytic parasite is considered highly pathogenic to cattle, in which it causes babesiosis, commonly known as redwater[2,3] This parasite causes severe babesiosis in humans, occurring as a fulminant infection. The free merozoite of B. divergens recognizes the erythrocyte through its apical end and causes an initial local depression in the host cell membrane, which deepens with parasite invasion[9]. Dense granules and micronemes, are present in the free merozoite apical end of B. divergens suggesting that these organelles secrete the parasite ligands at the initiation and duration of invasion[7,8,9,13,14]. Our data reveal the kinetics of the erythrocyte invasion process conducted by vigorous free merozoites and an unexpected active egress process of dynamic intraerythrocytic stages from the infected erythrocyte
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