The Carcinogenic Liver Fluke, Clonorchis sinensis: New Assembly, Reannotation and Analysis of the Genome and Characterization of Tissue Transcriptomes

Yan Huang,Xiaoyun Wang,Xuchu Hu,Jin Xu,Yanli Tian,Xinbing Yu,Qiang Mao,Xiaoli Lv,Wenjun Chen,Hailiang Liu,Fan Zhang,Ran Li,Jiufeng Sun,Yue Hu,Zhizhi Xie,Chi Liang,Pei Liang,Xuerong Li,Huali Lei,Yangyi Chen,Chenhui Zhou,Fang Luo,Lei Guo,Wenfang Li,Juanjuan Zhou,Lisi Huang

doi:10.1371/journal.pone.0054732

Abstract

Clonorchis sinensis (C. sinensis), an important food-borne parasite that inhabits the intrahepatic bile duct and causes clonorchiasis, is of interest to both the public health field and the scientific research community. To learn more about the migration, parasitism and pathogenesis of C. sinensis at the molecular level, the present study developed an upgraded genomic assembly and annotation by sequencing paired-end and mate-paired libraries. We also performed transcriptome sequence analyses on multiple C. sinensis tissues (sucker, muscle, ovary and testis). Genes encoding molecules involved in responses to stimuli and muscle-related development were abundantly expressed in the oral sucker. Compared with other species, genes encoding molecules that facilitate the recognition and transport of cholesterol were observed in high copy numbers in the genome and were highly expressed in the oral sucker. Genes encoding transporters for fatty acids, glucose, amino acids and oxygen were also highly expressed, along with other molecules involved in metabolizing these substrates. All genes involved in energy metabolism pathways, including the β-oxidation of fatty acids, the citrate cycle, oxidative phosphorylation, and fumarate reduction, were expressed in the adults. Finally, we also provide valuable insights into the mechanism underlying the process of pathogenesis by characterizing the secretome of C. sinensis. The characterization and elaborate analysis of the upgraded genome and the tissue transcriptomes not only form a detailed and fundamental C. sinensis resource but also provide novel insights into the physiology and pathogenesis of C. sinensis. We anticipate that this work will aid the development of innovative strategies for the prevention and control of clonorchiasis.

Highlights

Clonorchis sinensis (C. sinensis) has been proven to be the causative agent of clonorchiasis, which is endemic in China, Korea and Vietnam [1,2,3]
Most clonorchiasis cases are due to the consumption of raw freshwater fish containing infective C. sinensis metacercariae, which excyst in the duodenum until they grow into juvenile C. sinensis and migrate into the bile ducts of their host [5,6]
Many agents can be responsible for cholangiocarcinoma, liver flukes, C. sinensis and Opisthorchis viverrini (O. viverrini), have been shown to have the strongest risk factors [10]

Summary

Introduction

Clonorchis sinensis (C. sinensis) has been proven to be the causative agent of clonorchiasis, which is endemic in China, Korea and Vietnam [1,2,3]. The transcriptomes of multiple individual tissues (sucker, muscle, ovary and testis) of C. sinensis were sequenced to identify the molecular mechanism of parasitic features. Php, which allows users to navigate by scaffold coordinates, gene or transcript IDs. To understand how adult liver flukes obtain enough energy, KEGG reference pathways were used to analyze the energy metabolism gene network by comparing the genome and transcriptome of C. sinensis with the genomes of S. japonicum and S. mansoni.

Results

Conclusion