从滤纸上提取 DNA 并洗脱抗体，用于评估流行病学研究中的疟疾传播强度。

Combined DNA extraction and antibody elution from filter papers for the assessment of malaria transmission intensity in epidemiological studies.

机构信息

Department of Medical Microbiology, Radboud University Nijmegen Medical Centre, Nijmegen, the Netherlands.

出版信息

Malar J. 2013 Aug 2;12:272. doi: 10.1186/1475-2875-12-272.

DOI:10.1186/1475-2875-12-272

PMID:23914905

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3750228/

Abstract

BACKGROUND

Informing and evaluating malaria control efforts relies on knowledge of local transmission dynamics. Serological and molecular tools have demonstrated great sensitivity to quantify transmission intensity in low endemic settings where the sensitivity of traditional methods is limited. Filter paper blood spots are commonly used a source of both DNA and antibodies. To enhance the operational practicability of malaria surveys, a method is presented for combined DNA extraction and antibody elution.

METHODS

Filter paper blood spots were collected as part of a large cross-sectional survey in the Kenyan highlands. DNA was extracted using a saponin/chelex method. The eluate of the first wash during the DNA extraction process was used for antibody detection and compared with previously validated antibody elution procedures. Antibody elution efficiency was assessed by total IgG ELISA for malaria antigens apical membrane antigen-1 (AMA-1) and merozoite-surface protein-1 (MSP-142). The sensitivity of nested 18S rRNA and cytochrome b PCR assays and the impact of doubling filter paper material for PCR sensitivity were determined. The distribution of cell material and antibodies throughout filter paper blood spots were examined using luminescent and fluorescent reporter assays.

RESULTS

Antibody levels measured after the combined antibody/DNA extraction technique were strongly correlated to those measured after standard antibody elution (p < 0.0001). Antibody levels for both AMA-1 and MSP-142 were generally slightly lower (11.3-21.4%) but age-seroprevalence patterns were indistinguishable. The proportion of parasite positive samples ranged from 12.9% to 19.2% in the different PCR assays. Despite strong agreement between outcomes of different PCR assays, none of the assays detected all parasite-positive individuals. For all assays doubling filter paper material for DNA extraction increased sensitivity. The concentration of cell and antibody material was not homogenously distributed throughout blood spots.

CONCLUSION

Combined DNA extraction and antibody elution is an operationally attractive approach for high throughput assessment of cumulative malaria exposure and current infection prevalence in endemic settings. Estimates of antibody prevalence are unaffected by the combined extraction and elution procedure. The choice of target gene and the amount and source of filter paper material for DNA extraction can have a marked impact on PCR sensitivity.

摘要

背景

了解和评估疟疾控制工作依赖于对当地传播动态的认识。血清学和分子工具在传统方法灵敏度有限的低流行地区，具有量化传播强度的极高灵敏度。滤纸血斑通常被用作 DNA 和抗体的来源。为了增强疟疾调查的操作实用性，提出了一种联合 DNA 提取和抗体洗脱的方法。

方法

作为肯尼亚高地大型横断面调查的一部分，收集滤纸血斑。使用皂素/chelex 方法提取 DNA。在 DNA 提取过程的第一次洗涤洗脱液中，用于检测抗体，并与先前验证的抗体洗脱程序进行比较。通过针对疟疾抗原顶膜抗原-1 (AMA-1) 和裂殖体表面蛋白-1 (MSP-142) 的总 IgG ELISA 评估抗体洗脱效率。通过巢式 18S rRNA 和细胞色素 b PCR 检测评估灵敏度，并确定加倍滤纸材料对 PCR 灵敏度的影响。使用发光和荧光报告测定法检查滤纸血斑中细胞物质和抗体的分布。

结果

联合抗体/DNA 提取技术后测量的抗体水平与标准抗体洗脱后测量的抗体水平呈强相关性（p<0.0001）。AMA-1 和 MSP-142 的抗体水平通常略低（11.3-21.4%），但年龄-血清阳性模式无法区分。不同 PCR 检测中寄生虫阳性样本的比例在 12.9%至 19.2%之间。尽管不同 PCR 检测结果之间具有很强的一致性，但没有一种检测方法能检测到所有寄生虫阳性个体。对于所有检测方法，DNA 提取时加倍滤纸材料均能提高灵敏度。细胞和抗体物质的浓度在血斑中不均匀分布。

结论

联合 DNA 提取和抗体洗脱是一种在流行地区高通量评估累积疟疾暴露和当前感染流行率的操作上有吸引力的方法。抗体流行率估计不受联合提取和洗脱过程的影响。靶基因的选择以及 DNA 提取用滤纸材料的数量和来源对 PCR 灵敏度有显著影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/da97/3750228/8217828c5bc0/1475-2875-12-272-1.jpg

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从滤纸上提取 DNA 并洗脱抗体，用于评估流行病学研究中的疟疾传播强度。

Combined DNA extraction and antibody elution from filter papers for the assessment of malaria transmission intensity in epidemiological studies.

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