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Transcriptome analysis of pig intestinal cell monolayers infected with Cryptosporidium parvum asexual stages
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Transcriptome analysis of pig intestinal cell monolayers infected with Cryptosporidium parvum asexual stages
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Transcriptome analysis of pig intestinal cell monolayers infected with Cryptosporidium parvum asexual stages
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Journal Article
Transcriptome analysis of pig intestinal cell monolayers infected with Cryptosporidium parvum asexual stages
2018
Overview
Background
Human cryptosporidiosis is caused primarily by two species of apicomplexan protozoa,
Cryptosporidium parvum
and
C. hominis
. In cultured cell monolayers, the parasite undergoes two generations of asexual multiplication (merogony). However, the proportion of parasites completing the life-cycle is low and insufficient to sustain continuous propagation. Due to the intracellular location of meronts and later life-cycle stages, oocyst and sporozoites are the only forms of the parasite that can readily be isolated.
Results
Research on the replicating forms of
Cryptosporidium
parasites and their interaction with the host cell remains challenging. Based on an RNA-Seq analysis of monolayers of pig epithelial cells infected with
C. parvum
, here we report on the impact of merogony on the host’s gene regulation. Analysis of the transcriptome of infected and uninfected monolayers demonstrates a significant impact of the infection on host cell gene expression. A total of 813 genes were differentially expressed. Functional terms significantly altered in response to infection include phosphoprotein, RNA binding and acetylation. Upregulation of cell cycle pathways indicates an increase in mitosis. Notably absent from differentially enriched functional categories are stress- and apoptosis-related functions. The comparison of the combined host-parasite transcriptome reveals that
C. parvum
gene expression is less diverse than the host cell transcriptome and is highly enriched for genes encoding ribosomal functions, such as ribosomal proteins.
Conclusions
These results indicate that
C. parvum
infection significantly changes host biological functions and provide new insight into gene functions driving early
C. parvum
intracellular development.
Publisher
BioMed Central,BioMed Central Ltd,BMC
Subject
/ Animals
/ Biomedical and Life Sciences
/ Cattle
/ Cryptosporidiosis - genetics
/ Cryptosporidiosis - parasitology
/ Cryptosporidium parvum - genetics
/ Epithelial Cells - parasitology
/ genes
/ Host-Parasite Interactions - genetics
/ humans
/ Life Cycle Stages - genetics
/ meronts
/ mitosis
/ oocysts
/ Protozoa
/ Ribosomal Proteins - genetics
/ RNA
/ RNA-Seq
/ species
/ swine
/ Veterinary Medicine/Veterinary Science
/ Virology
