Genetic diversity of Plasmodium falciparum reticulocyte binding protein homologue-5, which is a potential malaria vaccine candidate: baseline data from areas of varying malaria endemicity in Mainland Tanzania.

IF 2.4 3区医学 Q3 INFECTIOUS DISEASES

Malaria Journal Pub Date : 2025-01-27 DOI:10.1186/s12936-025-05269-x

Angelina J Kisambale, Dativa Pereus, Salehe S Mandai, Beatus M Lyimo, Catherine Bakari, Gervas A Chacha, Ruth B Mbwambo, Ramadhan Moshi, Daniel A Petro, Daniel P Challe, Misago D Seth, Rashid A Madebe, Rule Budodo, Sijenunu Aaron, Daniel Mbwambo, Abdallah Lusasi, Stella Kajange, Samwel Lazaro, Ntuli Kapologwe, Celine I Mandara, Deus S Ishengoma

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Abstract

Background: The limited efficacy of the two recently approved malaria vaccines, RTS,S/AS01 and R21/Matrix- M™, highlights the need for alternative vaccine candidate genes. Plasmodium falciparum Reticulocyte Binding Protein Homologue 5 (Pfrh5) is a promising malaria vaccine candidate, given its limited polymorphism, its essential role in parasite survival, a lack of immune selection pressure and higher efficacy against multiple parasites strains. This study evaluated the genetic diversity of Pfrh5 gene among parasites from regions with varying malaria transmission intensities in Mainland Tanzania, to generate baseline data for this potential malaria vaccine candidate.

Methods: This study utilized secondary data of 697 whole-genome sequences which were generated by the MalariaGEN Community Network. The samples which were sequenced to generated the data were collected between 2010 and 2015 from five districts within five regions of Mainland Tanzania, with varying endemicities (Morogoro-urban district in Morogoro region, Muheza in Tanga, Kigoma-Ujiji in Kigoma, Muleba in Kagera, and Nachingwea district in Lindi region). Wright's fixation index (F_ST), Wright's inbreeding coefficient (Fws), Principal component analysis (PCA), nucleotide diversity (π), haplotype network, haplotype diversity (Hd), Tajima's D, and Linkage disequilibrium (LD) were used to assess the diversity of the gene.

Results: Of the sequences used in this study, 84.5% (n = 589/697) passed quality control and 313 (53.1%) were monoclonal (contained infections from a single strain of P. falciparum) and were used for haplotype diversity and haplotype network analysis. High within-host diversity (Fws < 0.95) was reported in Kigoma-Ujiji (60.7%), Morogoro-urban (53.1%), and Nachingwea (50.8%), while Muleba (53.9%) and Muheza (61.6%) had low within-host diversity (Fws ≥ 0.95). PCA did not show any population structure and the mean F_ST value was 0.015. Low nucleotide diversity values were observed across the study sites (mean π = 0.00056). A total of 27 haplotypes were observed among the 313 monoclonal samples and under-fives exhibited higher haplotype counts. The Pf3D7 was detected as Hap_1, which occurred in 16/313 (5.1%) monoclonal sequences. Negative Tajima's D values were observed among the parasite populations in all the study sites.

Conclusion: Low levels of polymorphism in the pfrh5 gene were observed based on low nucleotide and haplotype diversity, a lack of population structure and negative Tajima's D values. This study provides essential data on the diversity of the Pfrh5 gene indicating that it can be considered in the development of the next generation malaria vaccines. Robust and intensive studies of this and other candidate genes are crucial to support the prioritization of the Pfrh5 gene for potential inclusion in a broadly cross-protective malaria vaccine.

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恶性疟原虫网织红细胞结合蛋白同源物-5的遗传多样性，这是一种潜在的疟疾候选疫苗：来自坦桑尼亚大陆不同疟疾流行地区的基线数据。

背景：最近批准的两种疟疾疫苗RTS，S/AS01和R21/Matrix- M™的疗效有限，这突出了对替代疫苗候选基因的需求。恶性疟原虫网状细胞结合蛋白同源物5 （Pfrh5）是一种很有前途的候选疟疾疫苗，其多态性有限，在寄生虫生存中起重要作用，缺乏免疫选择压力，对多种寄生虫菌株具有较高的疗效。本研究评估了来自坦桑尼亚大陆疟疾传播强度不同地区的寄生虫中Pfrh5基因的遗传多样性，为这种潜在的疟疾候选疫苗生成基线数据。方法：本研究利用MalariaGEN社区网络生成的697个全基因组序列的二次数据。对产生数据的样本进行测序是在2010年至2015年期间从坦桑尼亚大陆5个地区的5个地区收集的，这些地区具有不同的流行病学（莫罗戈罗地区的莫罗戈罗城区、坦噶的Muheza、基戈马-乌吉吉、卡盖拉的Muleba和林迪地区的Nachingwea）。采用Wright’s固着指数（FST）、Wright’s近交系数（Fws）、主成分分析（PCA）、核苷酸多样性（π）、单倍型网络、单倍型多样性（Hd）、Tajima’s D和连锁不平衡（LD）评价该基因的多样性。结果：本研究使用的序列中，84.5% （n = 589/697）通过质量控制，313（53.1%）为单克隆（含单一恶性疟原虫感染），用于单倍型多样性和单倍型网络分析。宿主内多样性高（Fws ST值为0.015）。整个研究地点的核苷酸多样性值都很低（平均π = 0.00056）。在313份单克隆样本中，共观察到27个单倍型，其中5岁以下儿童的单倍型数量较高。Pf3D7为Hap_1，出现在16/313（5.1%）单克隆序列中。所有研究点的寄生虫种群均为负田岛D值。结论：pfrh5基因多态性水平低，核苷酸和单倍型多样性低，群体结构缺乏，田岛D值为负。这项研究提供了关于Pfrh5基因多样性的重要数据，表明可以在下一代疟疾疫苗的开发中考虑它。对该基因和其他候选基因进行强有力和深入的研究，对于支持将Pfrh5基因优先纳入广泛交叉保护的疟疾疫苗至关重要。

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来源期刊

Malaria Journal 医学-寄生虫学

CiteScore

5.10

自引率

23.30%

发文量

334

审稿时长

2-4 weeks

期刊介绍： Malaria Journal is aimed at the scientific community interested in malaria in its broadest sense. It is the only journal that publishes exclusively articles on malaria and, as such, it aims to bring together knowledge from the different specialities involved in this very broad discipline, from the bench to the bedside and to the field.