间日疟原虫血期侵袭途径:组学技术在破译分子和细胞机制中的贡献。

Pub Date : 2022-12-08 DOI:10.5802/crbiol.95
Isabelle Bouyssou, Francisco José Martínez, Pascal Campagne, Laurence Ma, Cécile Doderer-Lang, Chetan E Chitnis, Didier Ménard
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引用次数: 1

摘要

间日疟疾是一种由间日疟原虫引起的传染病,间日疟原虫是一种由雌性按蚊传播的寄生原生动物。从历史上看,间日疟疾通常被认为是一种良性的自限性感染,因为在流行传播地区观察到达菲阳性患者的寄生虫率很低,而在撒哈拉以南非洲,达菲阴性个体几乎没有感染。然而,最新的估计表明,在许多国家,这种疾病的负担并没有减少,整个非洲报告的达菲阴性个体的间日感染病例越来越多。这对诊断的准确性和人类与寄生虫之间相互作用的演变提出了疑问。长期以来,我们对间日疟原虫生物学的认识一直受到生物材料获取有限和缺乏强大的体外培养方法的阻碍。因此,目前对间日疟原虫血期侵袭机制知之甚少。随着组学技术的引入,诸如第三代测序和单细胞水平RNA测序、双向电泳、液相色谱和质谱等新颖且易于使用的技术,我们对间日疟原虫的遗传学、转录本和蛋白质的理解逐渐提高。本文旨在通过基因组学、转录组学和蛋白质组学对间日疟原虫的侵袭机制进行深入研究,并阐明多组学综合研究的重要性。
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Plasmodium vivax blood stage invasion pathways: Contribution of omics technologies in deciphering molecular and cellular mechanisms.

Vivax malaria is an infectious disease caused by Plasmodium vivax, a parasitic protozoan transmitted by female Anopheline mosquitoes. Historically, vivax malaria has often been regarded as a benign self-limiting infection due to the observation of low parasitemia in Duffy-positive patients in endemic transmission areas and the virtual absence of infections in Duffy-negative individuals in Sub Saharan Africa. However, the latest estimates show that the burden of the disease is not decreasing in many countries and cases of vivax infections in Duffy-negative individuals are increasingly reported throughout Africa. This raised questions about the accuracy of diagnostics and the evolution of interactions between humans and parasites. For a long time, our knowledge on P. vivax biology has been hampered due to the limited access to biological material and the lack of robust in vitro culture methods. Consequently, little is currently known about P. vivax blood stage invasion mechanisms. The introduction of omics technologies with novel and accessible techniques such as third generation sequencing and RNA sequencing at single cell level, two-dimensional electrophoresis, liquid chromatography, and mass spectrometry, has progressively improved our understanding of P. vivax genetics, transcripts, and proteins. This review aims to provide broad insights into P. vivax invasion mechanisms generated by genomics, transcriptomics, and proteomics and to illustrate the importance of integrated multi-omics studies.

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