BACKGROUND: Invasion of red blood cells (RBCs) is one of the critical points in the lifecycle of Babesia. The parasite does not invade other host cells. Earlier work has shown that GPA and GPB function as putative receptors during parasite invasion. The primary focus of this study was the delineation of parasite-binding domains on GPA and GPB. STUDY DESIGN AND METHODS: The assay of choice to validate molecules that participate in invasion is an inhibition of invasion assay, in which changes in parasitemia are assessed relative to a wild-type assay (no inhibitors). Inhibition of invasion can be achieved by modification of different components of the assay or by the addition of competitors of the molecules that participate in invasion. In this study purified antibody fragments to various domains on GPA and GPB were tested for magnitude of inhibition of parasite invasion. Effects on invasion were monitored by assessment of Giemsa-stained smears every 24 hours. RESULTS: Among 10 selected antibodies directed at various epitopes on GPA and GPB, antibodies directed against GPA(M) epitopes had the most severe effect (up to 35%) on inhibition of invasion, followed by antibodies directed against GPB(S) epitope (up to 24%). CONCLUSION: This study confirms the role of RBC glycophorins A and B in Babesia divergens invasion and shows that the GPA(M) and GPB(S) epitopes are likely to play an important role in the entry process.
BACKGROUND: Invasion of red blood cells (RBCs) is one of the critical points in the lifecycle of Babesia. The parasite does not invade other host cells. Earlier work has shown that GPA and GPB function as putative receptors during parasite invasion. The primary focus of this study was the delineation of parasite-binding domains on GPA and GPB. STUDY DESIGN AND METHODS: The assay of choice to validate molecules that participate in invasion is an inhibition of invasion assay, in which changes in parasitemia are assessed relative to a wild-type assay (no inhibitors). Inhibition of invasion can be achieved by modification of different components of the assay or by the addition of competitors of the molecules that participate in invasion. In this study purified antibody fragments to various domains on GPA and GPB were tested for magnitude of inhibition of parasite invasion. Effects on invasion were monitored by assessment of Giemsa-stained smears every 24 hours. RESULTS: Among 10 selected antibodies directed at various epitopes on GPA and GPB, antibodies directed against GPA(M) epitopes had the most severe effect (up to 35%) on inhibition of invasion, followed by antibodies directed against GPB(S) epitope (up to 24%). CONCLUSION: This study confirms the role of RBC glycophorins A and B in Babesia divergens invasion and shows that the GPA(M) and GPB(S) epitopes are likely to play an important role in the entry process.
Authors: Gregory R Halverson; Edith Tossas; Randall W Velliquette; Cheryl Lobo; Marion E Reid; Tom Frame; Lilian Castilho; Agnes H Lee; Jill R Storry; Magdalena Grodecka; Kazimiera Waśniowska; Maria Duk; Elwira Lisowska Journal: Transfusion Date: 2008-11-25 Impact factor: 3.157
Authors: Laura Cuy-Chaparro; Michel David Bohórquez; Gabriela Arévalo-Pinzón; Jeimmy Johana Castañeda-Ramírez; Carlos Fernando Suárez; Laura Pabón; Diego Ordóñez; Gina Marcela Gallego-López; Carlos Esteban Suárez; Darwin Andrés Moreno-Pérez; Manuel Alfonso Patarroyo Journal: Int J Mol Sci Date: 2021-01-13 Impact factor: 5.923