RT Journal Article
SR Electronic
T1 Evidence for vesicle-mediated antigen export by the human pathogen <em>Babesia microti</em>
JF Life Science Alliance
JO Life Sci. Alliance
FD Life Science Alliance LLC
SP e201900382
DO 10.26508/lsa.201900382
VO 2
IS 3
A1 Jose Thekkiniath
A1 Nicole Kilian
A1 Lauren Lawres
A1 Meital A Gewirtz
A1 Morven M Graham
A1 Xinran Liu
A1 Michel Ledizet
A1 Choukri Ben Mamoun
YR 2019
UL https://www.life-science-alliance.org/content/2/3/e201900382.abstract
AB The apicomplexan parasite Babesia microti is the primary agent of human babesiosis, a malaria-like illness and potentially fatal tick-borne disease. Unlike its close relatives, the agents of human malaria, B. microti develops within human and mouse red blood cells in the absence of a parasitophorous vacuole, and its secreted antigens lack trafficking motifs found in malarial secreted antigens. Here, we show that after invasion of erythrocytes, B. microti undergoes a major morphogenic change during which it produces an interlacement of vesicles (IOV); the IOV system extends from the plasma membrane of the parasite into the cytoplasm of the host erythrocyte. We developed antibodies against two immunodominant antigens of the parasite and used them in cell fractionation studies and fluorescence and immunoelectron microscopy analyses to monitor the mode of secretion of B. microti antigens. These analyses demonstrate that the IOV system serves as a major export mechanism for important antigens of B. microti and represents a novel mechanism for delivery of parasite effectors into the host by this apicomplexan parasite.