Institute for Molecular Evolution, Heinrich-Heine-University, 40225 Düsseldorf, Germany.
Int J Parasitol. 2013 Aug;43(9):707-19. doi: 10.1016/j.ijpara.2013.04.002. Epub 2013 May 18.
The human pathogen Trichomonas vaginalis has the largest protozoan genome known, potentially encoding approximately 60,000 proteins. To what degree these genes are expressed is not well known and only a few key transcription factors and promoter domains have been identified. To shed light on the expression capacity of the parasite and transcriptional regulation during phase transitions, we deep sequenced the transcriptomes of the protozoan during two environmental stimuli of the early infection process: exposure to oxygen and contact with vaginal epithelial cells. Eleven 3' fragment libraries from different time points after exposure to oxygen only and in combination with human tissue were sequenced, generating more than 150 million reads which mapped onto 33,157 protein coding genes in total and a core set of more than 20,000 genes represented within all libraries. The data uncover gene family expression regulation in this parasite and give evidence for a concentrated response to the individual stimuli. Oxygen stress primarily reveals the parasite's strategies to deal with oxygen radicals. The exposure of oxygen-adapted parasites to human epithelial cells primarily induces cytoskeletal rearrangement and proliferation, reflecting the rapid morphological transition from spindle shaped flagellates to tissue-feeding and actively dividing amoeboids.
人病原体阴道毛滴虫具有已知的最大原生动物基因组,可能编码大约 60000 种蛋白质。这些基因的表达程度尚不清楚,只有少数关键的转录因子和启动子结构域已被确定。为了阐明寄生虫的表达能力和相变过程中的转录调控,我们对原生动物在早期感染过程中的两种环境刺激下的转录组进行了深度测序:暴露于氧气和与阴道上皮细胞接触。仅暴露于氧气和与人组织结合的不同时间点的 11 个 3' 片段文库进行了测序,共生成了超过 1.5 亿条读数,总共映射到 33157 个蛋白质编码基因和一个核心基因集,包含所有文库中超过 20000 个基因。这些数据揭示了该寄生虫中基因家族表达调控的规律,并为单个刺激的集中反应提供了证据。氧气应激主要揭示了寄生虫应对氧自由基的策略。适应氧气的寄生虫暴露于人体上皮细胞主要诱导细胞骨架重排和增殖,反映了从纺锤形鞭毛虫到组织喂养和积极分裂的阿米巴虫的快速形态转变。
