Author:
Xie Yiting,Zhong Ping,Guan Wei,Zhao Yanqing,Yang Shuguo,Shao Yan,Li Jian
Abstract
Abstract
Background
Trichomoniasis caused by Trichomonas vaginalis, combined with its complications, has long frequently damaged millions of human health. Metronidazole (MTZ) is the first choice for therapy. Therefore, a better understanding of its trichomonacidal process to ultimately reveal the global mechanism of action is indispensable. To take a step toward this goal, electron microscopy and RNA sequencing were performed to fully reveal the early changes in T. vaginalis at the cellular and transcriptome levels after treatment with MTZ in vitro.
Results
The results showed that the morphology and subcellular structures of T. vaginalis underwent prominent alterations, characterized by a rough surface with bubbly protrusions, broken holes and deformed nuclei with decreased nuclear membranes, chromatin and organelles. The RNA-seq data revealed a total of 10,937 differentially expressed genes (DEGs), consisting of 4,978 upregulated and 5,959 downregulated genes. Most DEGs for the known MTZ activators, such as pyruvate:ferredoxin oxidoreductase (PFOR) and iron-sulfur binding domain, were significantly downregulated. However, genes for other possible alternative MTZ activators such as thioredoxin reductase, nitroreductase family proteins and flavodoxin-like fold family proteins, were dramatically stimulated. GO and KEGG analyses revealed that genes for basic vital activities, proteostasis, replication and repair were stimulated under MTZ stress, but those for DNA synthesis, more complicated life activities such as the cell cycle, motility, signaling and even virulence were significantly inhibited in T. vaginalis. Meanwhile, increased single nucleotide polymorphism (SNP) and insertions - deletions (indels) were stimulated by MTZ.
Conclusions
The current study reveals evident nuclear and cytomembrane damage and multiple variations in T. vaginalis at the transcriptional level. These data will offer a meaningful foundation for a deeper understanding of the MTZ trichomonacidal process and the transcriptional response of T. vaginalis to MTZ-induced stress or even cell death.
Funder
Research Project of Hubei Provincial Department of Education
Post-Graduates of Hubei University of Medicine
Principle Investigator Program of Hubei University of Medicine
Publisher
Springer Science and Business Media LLC
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