Project description:Clonorchis sinensis is a zoonotic parasite causing clonorchiasis associated with human diseases such as biliary calculi, cholecystitis, liver cirrhosis, and is classified as carcinogenic to humans for cholangiocarcinoma. MicroRNAs (miRNAs) are non-coding, regulating small RNA molecules essential for the complex life cycle of parasites and involved in parasitic infections. To identify and characterize miRNAs expressed in adult C. sinensis residing chronically in the biliary tract, we developed an integrative approach combining deep sequencing, bioinformatic predictions with stem-loop real-time PCR analysis. Here we report the use of this approach to identify and clone 6 new and 62,512 conserved C. sinensis miRNAs which belong to 284 families. There is strong bias on families, family members and sequence nucleotides in C. sinensis. Uracil is the dominant nucleotide, particularly at positions 1, 14 and 22, which were located approximately at the beginning, middle and the end of conserved miRNAs. There is no significant M-bM-^@M-^\seed regionM-bM-^@M-^] at the first and ninth positions commonly found in human, animals and plants. Categorization of conserved miRNAs indicated that miRNAs of C. sinensis are still innovated and concentrated along three branches of the phylogenetic tree leading to bilaterians, insects and coelomates. There are two miRNA strategies in C. sinensis for its parasitic life: keeping a large category of miRNA families of different animals and keeping a stringent conserved seed region with high active innovation in other place of miRNA mainly in the middle and the end, which are perfect for the parasite to perform its complex life style and for host changes. The present study represents the first large scale characterization of C. sinensis miRNAs, which have implications for understanding the complex biology of this zoonotic parasite, as well as the miRNA studies of other related species such as Opisthorchis felineus and O. viverrini of human and animal health significance. Analysis of miRNA profile in parasite of C. sinensis

Project description:Clonorchiasis is associated with bile duct malignancy and the subsequent development of cholangiocarcinoma. Although this is likely caused by adult Clonorchis sinensis and its excretory-secretory products (ESP), the precise molecular mechanisms remain obscure. To evaluate the effect of C. sinensis infection on differential gene expression in host hepatocytes, we used cDNA microarrays in human cholangiocarcinoma cells through the mimicking of C. sinensis infestation, and analyzed differential mRNA expression patterns of host cells. Keywords: Time course

Project description:Clonorchis sinensis is a zoonotic parasite causing clonorchiasis associated with human diseases such as biliary calculi, cholecystitis, liver cirrhosis, and is classified as carcinogenic to humans for cholangiocarcinoma. MicroRNAs (miRNAs) are non-coding, regulating small RNA molecules essential for the complex life cycle of parasites and involved in parasitic infections. To identify and characterize miRNAs expressed in adult C. sinensis residing chronically in the biliary tract, we developed an integrative approach combining deep sequencing, bioinformatic predictions with stem-loop real-time PCR analysis. Here we report the use of this approach to identify and clone 6 new and 62,512 conserved C. sinensis miRNAs which belong to 284 families. There is strong bias on families, family members and sequence nucleotides in C. sinensis. Uracil is the dominant nucleotide, particularly at positions 1, 14 and 22, which were located approximately at the beginning, middle and the end of conserved miRNAs. There is no significant “seed region” at the first and ninth positions commonly found in human, animals and plants. Categorization of conserved miRNAs indicated that miRNAs of C. sinensis are still innovated and concentrated along three branches of the phylogenetic tree leading to bilaterians, insects and coelomates. There are two miRNA strategies in C. sinensis for its parasitic life: keeping a large category of miRNA families of different animals and keeping a stringent conserved seed region with high active innovation in other place of miRNA mainly in the middle and the end, which are perfect for the parasite to perform its complex life style and for host changes. The present study represents the first large scale characterization of C. sinensis miRNAs, which have implications for understanding the complex biology of this zoonotic parasite, as well as the miRNA studies of other related species such as Opisthorchis felineus and O. viverrini of human and animal health significance.

Project description:Clonorchiasis is a foodborne zoonotic disease caused by Clonorchis sinensis which belongs to trematodes with a complex lifecycle, there are increasing evidences that small RNAs including microRNAs and PIWI-interacting RNAs can participate in regulation of embryonic development. However, there is little information about the small RNAs in the different developmental stages of C. sinensis. In the present study, we investigated profiles of miRNAs and piRNAs in the different developmental stages including eggs, metacercaria and adults of C. sinensis using high-throughout sequencing technology. We found that 152 miRNAs for adults, 147 miRNAs for metacercariae and 161 miRNAs for eggs were identified, of these miRNAs, 52 miRNAs were universally expressed in these three developmental stage. For piRNAs, we also found that there were a total of 4573 piRNAs in adult worms, 3189 piRNAs in eggs and 3853 piRNAs in metacercariae, respectively, and 1127, 426, 756 piRNAs were absolutely expressed only in adults, eggs and metacercariae, respectively. These stage-specific small RNAs might be involved in various biological process and environmental adaption for parasitism as showed by GO and KEGG pathway analysis. The data of present study may provide a basis for future targeting at these stage-specific small RNAs for prevention and control clonorchisias.

Project description:Analysis of host response to the infected Clonorchis sinensis metacercariae and adult worm. The infected tissues evidenced altered expression of genes involved in systems such as immune response and cell cycle regulation, as compared with normal tissues.

Project description:We examined gene expression profiles (27028 genes) in the livers of Sprague-Dawley rats with no infection and at 2 and 4 weeks after Clonorchis sinensis infection using Whole Rat Genome Microarray 4x44K v3 (GPL14745, Agilent-028282)

Project description:Analysis of host response to the infected Clonorchis sinensis metacercariae and adult worm. The infected tissues evidenced altered expression of genes involved in systems such as immune response and cell cycle regulation, as compared with normal tissues. Total RNA obtained from isolated liver tissues subjected to 1, 2, 4, and 6 weeks post-infection compared to uninfected liver tissues.

Project description:We compared the expression of lncRNAs and mRNAs in the liver tissue of mice infected with C. sinensis, in order to further understand the molecular mechanisms of clonorchiasis.

Project description:Study whether IL-33 participates in the cholangiopathies during C. sinensis infection,and whether the gut microbiota participates in the pathogenesis of clonorchiasis

Project description:Clonorchis sinensis transcriptome