Identification of emu-TegP11, an EF-hand domain-containing tegumental protein of Echinococcus multilocularis

•All TegP11 proteins from 25 flatworms were conserved in structure.•Emu-TegP11 remarkably promoted NO secretion possibly by upregulation of ions.•Emu-TegP11 acted as an inducer of anti-inflammatory cytokines. Tegumental proteins (TegPs) are a group of proteins that coat on the surface of worms, main...

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Published in:Veterinary parasitology 2018-05, Vol.255, p.107-113
Main Authors: Zheng, Yadong, Guo, Xiaola, Su, Meng, Chen, Xiaoqian, Jin, Xiaoliang, Ding, Juntao, Wang, Zhengrong, Bo, Xinwen, Ayaz, Mazhar, Kutyrev, Ivan, Jia, Wanzhong, Zhang, Xichen, Zhang, Jing
Format: Article
Language:English
Subjects:
Echinococcus multilocularis
emu-TegP11
Protoscolex
Tegumental protein
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Summary:•All TegP11 proteins from 25 flatworms were conserved in structure.•Emu-TegP11 remarkably promoted NO secretion possibly by upregulation of ions.•Emu-TegP11 acted as an inducer of anti-inflammatory cytokines. Tegumental proteins (TegPs) are a group of proteins that coat on the surface of worms, mainly being involved in ion uptake and immune evasion. Echinococcus species have many TegPs, but none of them have been characterized and their role remains unclear. The genome-wide analysis revealed that there were at least 14 tegp genes (tegp1 - 14) in Echinococcus species, the majority of which were found to contain an EF-hand domain or a dynein light chain-like domain or both. Despite low identity, all TegP11 proteins from 25 flatworms were conserved in structure. Echinococcus multilocularis TegP11 (emu-TegP11) was verified to be secreted by extracellular vesicles and to be localized in different spatiotemporal patterns in protoscoleces. Moreover, emu-TegP11 was also shown to have weak or no Ca2+-binding capacity. In treated macrophages, emu-TegP11 interfered with the small RNA-induced silencing pathway via inducing ectopic expression of some key component genes. Additionally, emu-TegP11 remarkably promoted NO secretion possibly by upregulation of inos gene expression (p 
ISSN:0304-4017
1873-2550
DOI:10.1016/j.vetpar.2018.04.006