Wang J scite author profile

ABSTRACT. Cystic echinococcosis (CE) is an important worldwide zoonotic disease that causes large economic losses and human suffering. Echinococcus granulosus, the causative agent of CE, exhibits different genotypes in different locations. In order to identify its genotypes and analyze its genetic structure on the Tibetan Plateau, we collected 72 hydatid cysts from different intermediate hosts and amplified and sequenced their mitochondrial cytochrome c oxidase subunit 2 (cox2) genes. Seventy isolates were identified as the E. granulosus G1 genotype, while two isolates belonged to the G6 genotype. There were 18 haplotypes among the 70 E. granulosus isolates, which exhibited a star-like network pattern and shared a common haplotype (H 1 ). There was little difference between geographical sub-populations. Our results suggest that a recent E. granulosus population expansion occurred 13915-13923 (2015) on the Tibetan Plateau, suggesting that E. granulosus was introduced into China. This study increases the basic molecular data needed for the molecular diagnosis, epidemiology, prevention, and control of Echinococcus diseases.

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Albendazole reduces endoplasmic reticulum stress induced byEchinococcus multilocularisin mice

Weingärtner

Jebbawi

et al. 2021

Preprint

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Background Echinococcus multilocularis causes alveolar echinococcosis (AE), a rising zoonotic disease in the northern hemisphere. Treatment of this fatal disease is limited to chemotherapy using benzimidazoles and surgical intervention, with relatively frequent disease recurrence in cases without radical surgery. Elucidating the molecular mechanisms underlying E. multilocularis infections and host-parasite interactions aids developing novel therapeutic options. This study explored an involvement of unfolded protein response (UPR) and endoplasmic reticulum-stress (ERS) during E. multilocularis infection in mice. Methods E. multilocularis- and mock-infected C57BL/6 mice were subdivided six weeks after infection into vehicle and albendazole (ABZ) treated groups. Eight weeks later, liver tissue was collected to examine mRNA, microRNA (miR) and protein expression of UPR- and ERS-related genes. Results E. multilocularis infection upregulated UPR- and ERS-related proteins, including ATF6, CHOP, GRP78, ERP72, H6PD and calreticulin, whilst PERK and its target eIF2α were not affected, and IRE1α and ATF4 were downregulated. ABZ treatment in E. multilocularis infected mice reversed the increased ATF6 and calreticulin protein expression, tended to reverse increased CHOP, GRP78, ERP72 and H6PD expression, and decreased ATF4 and IRE1α expression to levels seen in mock-infected mice. The expression of miR-146a-5p (downregulated by IRE1α) and miR-1839-5p (exhibiting a unique target site in the IRE1α 3’UTR) were significantly increased in E. multilocularis infected mice, an effect reversed by ABZ treatment. Other miRs analyzed were not altered in E. multilocularis infected mice. Conclusions and Significance AE causes UPR activation and ERS in mice. The E. multilocularis -induced ERS was ameliorated by ABZ treatment, indicating its effectiveness to inhibit parasite proliferation and downregulate its activity status. ABZ itself did not affect UPR in control mice. Identified miR-146a-5p and miR-1839-5p might represent biomarkers of E. multilocularis infection. Modulation of UPR and ERS, in addition to ABZ administration, could be exploited to treat E. multilocularis infection.

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Wang J

Molecular identification of Echinococcus granulosus on the Tibetan Plateau using mitochondrial DNA markers

Albendazole reduces endoplasmic reticulum stress induced byEchinococcus multilocularisin mice

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