Exogenous nitric oxide stimulates early egress of Eimeria tenella sporozoites from primary chicken kidney cells in vitro

Egress plays a vital role in the life cycle of apicomplexan parasites including Eimeria tenella, which has been attracting attention from various research groups. Many recent studies have focused on early egress induced by immune molecules to develop a new method of apicomplexan parasite elimination...

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Published inParasite (Paris) Vol. 28; p. 11
Main Authors Yan, Xinlei, Han, Wenying, Liu, Xianyong, Suo, Xun
Format Journal Article
LanguageEnglish
Published France EDP Sciences 2021
Subjects
Animals
Apicomplexa
Calcium
Calcium ions
Cells, Cultured
Chickens
Cytokines
Egress
Eimeria tenella
Eimeria tenella - drug effects
Eimeria tenella - physiology
eimeria tenella sporozoites
Flow cytometry
Immune clearance
Immune system
Kidney - parasitology
Kidneys
Life cycles
Nitric oxide
Nitric Oxide - pharmacology
Parasites
Sodium
Sporozoites
Sporozoites - drug effects
Sporozoites - physiology
Stimulation
Virulence
Nitric oxide
Egress
Eimeria tenella sporozoites
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Summary:Egress plays a vital role in the life cycle of apicomplexan parasites including Eimeria tenella, which has been attracting attention from various research groups. Many recent studies have focused on early egress induced by immune molecules to develop a new method of apicomplexan parasite elimination. In this study, we investigated whether nitric oxide (NO), an immune molecule produced by different types of cells in response to cytokine stimulation, could induce early egress of eimerian sporozoites in vitro. Eimeria tenella sporozoites were extracted and cultured in primary chicken kidney cells. The number of sporozoites egressed from infected cells was analyzed by flow cytometry after treatment with NO released by sodium nitroferricyanide (II) dihydrate. The results showed that exogenous NO stimulated the rapid egress of E. tenella sporozoites from primary chicken kidney cells before replication of the parasite. We also found that egress was dependent on intra-parasitic calcium ion (Ca ) levels and no damage occurred to host cells after egress. The virulence of egressed sporozoites was significantly lower than that of fresh sporozoites. The results of this study contribute to a novel field examining the interactions between apicomplexan parasites and their host cells, as well as that of the clearance of intracellular pathogens by the host immune system.
ISSN:1776-1042
1252-607X
1776-1042
DOI:10.1051/parasite/2021007