用qPCR比较两种DNA提取方法检测法氏按蚊间日疟原虫卵囊和子孢子

L. Timinao, E. W. Jamea, M. Katusele, T. Burkot, S. Karl
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摘要

背景目前,评估蚊子寄生虫发育阶段的金标准是光学显微镜。显微镜检查可能会漏掉低密度感染,耗时且不具有物种特异性。酶联免疫吸附试验(ELISA)一直是评估蚊子传染性的替代技术,尤其是在实地研究中,但它是半定量的。分子技术已被用于检测包括间日疟原虫在内的疟疾寄生虫的蚊子阶段。在这里,我们提出了一种定量实时检测(qPCR),可用于检测低密度间日疟原虫卵囊和子孢子感染,同时比较通过传统DNA提取和加热方法提取的寄生虫。方法采用直接膜饲养法,将群体饲养的法氏按蚊暴露于感染者的血样中。喂食完毕的蚊子在喂食后放置7天和14天,然后解剖以确认卵囊和孢子的存在。储存受感染的蚊子肠道和唾液腺(包括头部和胸部),并通过加热或进行传统的基于柱的DNA提取来提取DNA。提取DNA后,对感染的样本进行qPCR以检测间日疟原虫。结果通过加热提取1个或多个卵囊的DNA,总灵敏度为78%(57/73),在加热臂中检测到单个卵囊感染,灵敏度为82%(15/17)。我们观察到使用常规DNA提取方法提取DNA的子孢子的敏感性为60%(18/30)。我们发现,与传统的DNA提取相比,加热方法显著提高了卵囊的检测。当比较传统DNA提取和加热对卵囊的检测时,DNA拷贝数没有显著差异。然而,我们观察到,在加热臂中检测到的子孢子的DNA拷贝数显著高于传统的DNA提取臂。结论我们采用了qPCR方法,当与加热结合释放DNA时,可以减少样品处理时间和成本。加热后的直接qPCR将是研究阻断传播的疫苗或抗疟药物或评估现场捕获的蚊子是否存在疟原虫时的有用工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using qPCR to compare the detection of Plasmodium vivax oocysts and sporozoites in Anopheles farauti mosquitoes between two DNA extraction methods
Background Currently, the gold standard to assess parasite developmental stages in mosquitoes is light microscopy. Microscopy can miss low-density infections, is time-consuming and not species-specific. Enzyme-linked immunosorbent assay (ELISA) has been the alternative technique to evaluate the infectivity of mosquitoes especially in field studies however it is semi-quantitative. Molecular techniques that have been used to detect the mosquito stages of malaria parasites including P. vivax. Here, we present a quantitative real-time assay (qPCR) that can be used to detect low-density P. vivax oocyst and sporozoite infections while comparing parasites extracted by the conventional DNA extraction and heating methods. Methods Colony reared Anopheles farauti mosquitoes were exposed to blood samples collected from infected individuals using a direct membrane feeding assay. The fully fed mosquitoes were kept for 7 and 14 days post-feed before dissection to confirm presence of oocysts and sporozoites. Infected mosquito guts and the salivary glands (with the head and thorax) were stored and DNA was extracted either by heating or by performing conventional column-based DNA extraction. Following DNA extraction the infected samples were subjected to qPCR to detect P. vivax parasites. Results DNA extraction of 1 or more oocysts by heating resulted in an overall sensitivity of 78% (57/73) and single oocysts infections were detected with a sensitivity of 82% (15/17) in the heating arm. We observed a 60% (18/30) sensitivity with sporozoites where DNA was extracted using the conventional DNA extraction method. We show that the heating method significantly improved the detection of oocysts over conventional DNA extraction. There was no significant difference in the DNA copy numbers when comparing the detection of oocysts from the conventional DNA extraction versus heating. However, we observed that the DNA copy numbers of the sporozoites detected in the heating arm was significantly higher than in the conventional DNA extraction arm. Conclusion We have adapted a qPCR assay which, when coupled with heating to release DNA reduces sample processing time and cost. Direct qPCR after heating will be a useful tool when investigating transmission blocking vaccines or antimalarials or when evaluating field caught mosquitoes for the presence of malaria parasites.
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