Kengne-Ouafo Jonas A, Bah Saikou Y, Kemp Alison, Stewart Lindsay, Amenga-Etego Lucas, Deitsch Kirk W, Rayner Julian C, Billker Oliver, Binka Fred N, Sutherland Colin J, Awandare Gordon A, Urban Britta C, Dinko Bismarck
Department of Biochemistry, Cell and Molecular Biology, West African Centre for Cell Biology of Infectious Pathogens, University of Ghana , Accra, Ghana.
Vaccine and Immunity Theme, MRC Unit The Gambia at London School of Hygiene & Tropical Medicine , Banjul, Gambia.
Microbiol Spectr. 2023 Sep 12;11(5):e0382022. doi: 10.1128/spectrum.03820-22.
Our overall understanding of the developmental biology of malaria parasites has been greatly enhanced by recent advances in transcriptomic analysis. However, most of these investigations rely on laboratory strains (LS) that were adapted into culture many years ago, and the transcriptomes of clinical isolates (CI) circulating in human populations have not been assessed. In this study, RNA-seq was used to compare the global transcriptome of mid-stage gametocytes derived from three short-term cultured CI, with gametocytes derived from the NF54 reference laboratory strain. The core transcriptome appeared to be consistent between CI- and LS-derived gametocyte preparations, but some important differences were also observed. A majority of gametocyte-specific genes (43/53) appear to have relatively higher expression in CI-derived gametocytes than in LS-derived gametocytes, but a K-means clustering analysis showed that genes involved in flagellum- and microtubule-based processes (movement/motility) were more abundant in both groups, albeit with some differences between them. In addition, gametocytes from one CI described as CI group II gametocytes (CI:GGII) showed gene expression variation in the form of reduced gametocyte-specific gene expression compared to the other two CI-derived gametocytes (CI gametocyte group I, CI:GGI), although the mixed developmental stages used in our study is a potential confounder, only partially mitigated by the inclusion of multiple replicates for each CI. Overall, our study suggests that there may be subtle differences in the gene expression profiles of mid-stage gametocytes from CI relative to the NF54 reference strain of . Thus, it is necessary to deploy gametocyte-producing clinical parasite isolates to fully understand the diversity of gene expression strategies that may occur during the sequestered development of parasite sexual stages. IMPORTANCE Maturing gametocytes of are known to sequester away from peripheral circulation into the bone marrow until they are mature. Blocking gametocyte sequestration can prevent malaria transmission from humans to mosquitoes, but most studies aim to understand gametocyte development utilizing long-term adapted laboratory lines instead of clinical isolates. This is a particular issue for our understanding of the sexual stages, which are known to decrease rapidly during adaptation to long-term culture, meaning that many LS are unable to produce transmissible gametocytes. Using RNA-seq, we investigated the global transcriptome of mid-stage gametocytes derived from three clinical isolates and a reference strain (NF54). This identified important differences in gene expression profiles between immature gametocytes of CI and the NF54 reference strain of . , suggesting increased investment in gametocytogenesis in clinical isolates. Our transcriptomic data highlight the use of clinical isolates in studying the morphological, cellular features and molecular biology of gametocytes.
转录组分析的最新进展极大地增进了我们对疟原虫发育生物学的全面理解。然而,这些研究大多依赖于多年前适应培养的实验室菌株(LS),而尚未评估人群中循环的临床分离株(CI)的转录组。在本研究中,使用RNA测序比较了来自三个短期培养的临床分离株的中期配子体与NF54参考实验室菌株的配子体的整体转录组。核心转录组在临床分离株和实验室菌株来源的配子体制备物之间似乎是一致的,但也观察到了一些重要差异。大多数配子体特异性基因(43/53)在临床分离株来源的配子体中的表达似乎相对高于实验室菌株来源的配子体,但K均值聚类分析表明,参与基于鞭毛和微管的过程(运动/能动性)的基因在两组中都更为丰富,尽管它们之间存在一些差异。此外,一个被描述为临床分离株II组配子体(CI:GGII)的临床分离株的配子体与其他两个临床分离株来源的配子体(临床分离株配子体I组,CI:GGI)相比,显示出配子体特异性基因表达降低形式的基因表达变化,尽管我们研究中使用的混合发育阶段是一个潜在的混杂因素,通过为每个临床分离株纳入多个重复样本仅部分得到缓解。总体而言,我们的研究表明,临床分离株来源的中期配子体与NF54参考菌株相比,其基因表达谱可能存在细微差异。因此,有必要使用产生配子体的临床寄生虫分离株来全面了解寄生虫有性阶段隐匿发育过程中可能出现的基因表达策略的多样性。重要性已知疟原虫成熟的配子体会从外周循环中隔离到骨髓中直至成熟。阻断配子体隔离可防止疟疾从人传播给蚊子,但大多数研究旨在利用长期适应的实验室品系而非临床分离株来了解配子体发育。这对于我们理解有性阶段来说是一个特别的问题,因为已知在适应长期培养过程中有性阶段会迅速减少,这意味着许多实验室菌株无法产生可传播的配子体。使用RNA测序,我们研究了来自三个临床分离株和一个参考菌株(NF54)的中期配子体的整体转录组。这确定了临床分离株未成熟配子体与NF54参考菌株之间基因表达谱的重要差异,表明临床分离株在配子体发生方面投入增加。我们的转录组数据突出了在研究配子体的形态、细胞特征和分子生物学时使用临床分离株的重要性。
