Abstract

Schistosomiasis (Bilharziasis), a neglected tropical disease that affects more than 240 million people around the world, is caused by infection with the helminth parasite Schistosoma. As part of their secretome, schistosomes release extracellular vesicles (EVs) that modulate the host immune response. The EV-harbored miRNAs upregulate the innate immune response of the M1 pathway and downregulate the differentiation toward the adaptive Th2 immunity. A schistosomal egg-derived miRNA increases the percentage of regulatory T cells. This schistosomal-inducible immunoediting process generates ultimately a parasitic friendly environment that is applied carefully as restrained Th2 response is crucial for the host survival and successful excretion of the eggs. Evidence indicates a selective targeting of schistosomal EVs, however, the underlying mechanisms are unclear yet. The effects of the schistosomes on the host immune system is in accordance with the hygiene hypothesis, attributing the dramatic increase in recent decades in allergy and other diseases associated with imbalanced immune response, to the reduced exposure to infectious agents that co-evolved with humans during evolution. Deciphering the bioactive cargo, function, and selective targeting of the parasite-secreted EVs may facilitate the development of novel tools for diagnostics and delivered therapy to schistosomiasis, as well as to immune-associated disorders.

Highlights

  • Schistosomiasis is caused by the trematode helminth of the genus Schistosoma

  • All authors contributed to the article and approved the submitted version

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Summary

INTRODUCTION

Schistosomiasis is caused by the trematode helminth of the genus Schistosoma. The three main species that infect humans, the definite hosts, are S. mansoni (Africa, South America, Caribbean, and Middle East), S. japonicum (China and South East Asia), and S. haematobium (Africa and Middle East) (McManus et al, 2018). Secreted-EVs from S. mansoni schistosomula are internalized by human monocytederived dendritic cells (DCs) and increase their expression of IL-12 (Kuipers et al, 2020), another hallmark cytokine of the M1 response, and a powerful inducer of the Th1 pathway (see below). The miR-125 family appears in EVs from all stages except eggs, and it was shown that miR-125b promotes the M1 pathway (Liu et al, 2019) This initial analysis support the idea that the EV-enclosed miRNAs have a fundamental role in executing the immune modulation by the schistosomes. Functional studies to explore their function in the targeted delivering and immune modulation are still missing

Summary and Perspective
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