Fourteen anti-tick vaccine targets are variably conserved in cattle fever ticks.

IF 3 2区医学 Q1 PARASITOLOGY

Parasites & Vectors Pub Date : 2025-04-15 DOI:10.1186/s13071-025-06683-5

Joseph D Busch, Nathan E Stone, Grant L Pemberton, Mackenzie L Roberts, Rebekah E Turner, Natalie B Thornton, Jason W Sahl, Darrin Lemmer, Greta Buckmeier, Sara K Davis, Roberto I Guerrero-Solorio, Shahid Karim, Guilherme Klafke, Donald B Thomas, Pia U Olafson, Massaro Ueti, Juan Mosqueda, Glen A Scoles, David M Wagner

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引用次数: 0

Abstract

Background: Rhipicephalus (Boophilus) microplus causes significant cattle production losses worldwide because it transmits Babesia bovis and B. bigemina, the causative agents of bovine babesiosis. Control of these ticks has primarily relied on treatment of cattle with chemical acaricides, but frequent use, exacerbated by the one-host lifecycle of these ticks, has led to high-level resistance to multiple classes of acaricides. Consequently, new approaches for control, such as anti-tick vaccines, are critically important. Key to this approach is targeting highly conserved antigenic epitopes to reduce the risk of vaccine escape in heterologous tick populations.

Methods: We evaluated amino acid conservation within 14 tick proteins across 167 R. microplus collected from geographically diverse locations in the Americas and Pakistan using polymerase chain reaction (PCR) amplicon sequencing and in silico translation of exons.

Results: We found that amino acid conservation varied considerably across these proteins. Only the voltage-dependent anion channel (VDAC) was fully conserved in all R. microplus samples (protein similarity 1.0). Four other proteins were highly conserved: the aquaporin RmAQP1 (0.989), vitellogenin receptor (0.985), serpin-1 (0.985), and subolesin (0.981). In contrast, the glycoprotein Bm86 was one of the least conserved (0.889). The Bm86 sequence used in the original Australian TickGARD vaccine carried many amino acid replacements compared with the R. microplus populations examined here, supporting the hypothesis that this vaccine target is not optimal for use in the Americas. By mapping amino acid replacements onto predicted three-dimensional (3D) protein models, we also identified amino acid changes within several small-peptide vaccines targeting portions of the aquaporin RmAQP2, chitinase, and Bm86.

Conclusions: These findings emphasize the importance of thoroughly analyzing protein variation within anti-tick vaccine targets across diverse tick populations before selecting candidate vaccine antigens. When considering protein conservation alone, RmAQP1, vitellogenin receptor, serpin-1, subolesin, and especially VDAC rank as high-priority anti-tick vaccine candidates for use in the Americas and perhaps globally.

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14种抗蜱疫苗靶点在牛热蜱中有不同的保守性。

背景：微型鼻头虫（Boophilus）传播牛巴贝斯虫病病原体牛巴贝斯虫和双头牛巴贝斯虫，在世界范围内造成重大的牛生产损失。对这些蜱虫的控制主要依靠化学杀螨剂对牛的治疗，但频繁使用，加上这些蜱虫的单一宿主生命周期，导致对多种杀螨剂的高度抗性。因此，新的控制方法，如抗蜱疫苗，是至关重要的。该方法的关键是靶向高度保守的抗原表位，以降低疫苗在异源蜱虫种群中逃逸的风险。方法：利用聚合酶链反应（PCR）扩增子测序和外显子的硅翻译技术，对从美洲和巴基斯坦不同地理位置收集的167只微蜱的14种蜱蛋白的氨基酸保守性进行了评估。结果：我们发现氨基酸保护在这些蛋白质中有很大的不同。在所有样品中，只有电压依赖性阴离子通道（VDAC）是完全保守的（蛋白质相似度1.0）。另外4个蛋白高度保守：水通道蛋白RmAQP1（0.989）、卵黄蛋白原受体（0.985）、蛇形蛋白-1（0.985）和亚浆蛋白（0.981）。相比之下，糖蛋白Bm86是最不保守的蛋白之一（0.889）。澳大利亚TickGARD原疫苗中使用的Bm86序列与本研究中检测的小分枝杆菌群体相比，携带了许多氨基酸替代，这支持了该疫苗靶点不适合在美洲使用的假设。通过将氨基酸替换映射到预测的三维（3D）蛋白质模型上，我们还确定了几种靶向水通道蛋白RmAQP2、几丁质酶和Bm86部分的小肽疫苗中的氨基酸变化。结论：这些发现强调了在选择候选疫苗抗原之前，彻底分析不同蜱虫种群中抗蜱疫苗靶点内蛋白质变异的重要性。如果只考虑蛋白质的保护作用，RmAQP1、卵黄蛋白原受体、蛇皮素-1、亚黑素，尤其是VDAC被列为在美洲乃至全球使用的高优先级抗蜱候选疫苗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Parasites & Vectors 医学-寄生虫学

CiteScore

6.30

自引率

9.40%

发文量

433

审稿时长

1.4 months

期刊介绍： Parasites & Vectors is an open access, peer-reviewed online journal dealing with the biology of parasites, parasitic diseases, intermediate hosts, vectors and vector-borne pathogens. Manuscripts published in this journal will be available to all worldwide, with no barriers to access, immediately following acceptance. However, authors retain the copyright of their material and may use it, or distribute it, as they wish. Manuscripts on all aspects of the basic and applied biology of parasites, intermediate hosts, vectors and vector-borne pathogens will be considered. In addition to the traditional and well-established areas of science in these fields, we also aim to provide a vehicle for publication of the rapidly developing resources and technology in parasite, intermediate host and vector genomics and their impacts on biological research. We are able to publish large datasets and extensive results, frequently associated with genomic and post-genomic technologies, which are not readily accommodated in traditional journals. Manuscripts addressing broader issues, for example economics, social sciences and global climate change in relation to parasites, vectors and disease control, are also welcomed.