Deciphering Bordetella pertussis epidemiology through culture-independent multiplex amplicon and metagenomic sequencing.

IF 6.1 2区 医学 Q1 MICROBIOLOGY Journal of Clinical Microbiology Pub Date : 2024-11-04 DOI:10.1128/jcm.01178-24
Laurence Don Wai Luu, Raisa Rafique, Michael Payne, Sophie Octavia, Jennifer Robson, Vitali Sintchenko, Ruiting Lan
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Abstract

Whooping cough (pertussis) has re-emerged despite high vaccine coverage in Australia and many other countries worldwide, partly attributable to genetic adaptation of the causative organism, Bordetella pertussis, to vaccines. Therefore, genomic surveillance has become essential to monitor circulating strains for these genetic changes. However, increasing uptake of PCR for the diagnosis of pertussis has affected the availability of cultured isolates for typing. In this study, we evaluated the use of targeted multiplex PCR (mPCR) amplicon sequencing and shotgun metagenomic sequencing for culture-independent typing of B. pertussis directly from respiratory swabs. We developed a nine-target mPCR amplicon assay that could accurately type major lineages [ptxP3/non-ptxpP3, fim3A/B, fhaB3/non-fhaB3, and epidemic lineages (ELs) 1-5] circulating in Australia. Validation using DNA from isolates and 178 residual specimens collected in 2010-2012 (n = 87) and 2019 (n = 91) showed that mPCR amplicon sequencing was highly sensitive with a limit of detection of 4.6 copies [IS481 cycle threshold (Ct) 27.3]. Shotgun metagenomic sequencing was successful in genotyping B. pertussis in 84% of clinical specimens with PCR Ct < 24 and was concordant with mPCR typing results. The results revealed an expansion of EL4 strains from 2010 to 2012 to 2019 in Australia and identified unrecognized co-circulating cases of Bordetella holmesii. This study provides valuable insight into the circulating lineages in Australia prior to the COVID-19 pandemic during which border closure and other interventions reduced pertussis cases to an all-time low, and paves the way for the genomic surveillance of B. pertussis in the era of culture-independent PCR-based diagnosis.

Importance: In this paper, we evaluated the use of targeted multiplex PCR (mPCR) amplicon sequencing and shotgun metagenomic sequencing for culture-independent typing of Bordetella pertussis directly in respiratory swabs. We first developed a novel targeted mPCR amplicon sequencing assay that can type major circulating lineages and validated its accuracy and sensitivity on 178 DNA extracts from clinical swabs. We also demonstrate the feasibility of using deep metagenomic sequencing for determining strain lineage and markers of virulence, vaccine adaptation, macrolide resistance, and co-infections. Our culture-independent typing methods applied to clinical specimens revealed the expansion of a major global epidemic lineage in Australia (termed EL4) just prior to the COVID-19 pandemic. It also detected cases of previously hidden co-infections from another Bordetella species called Bordetella holmesii. These findings offer valuable insight into the circulating pertussis lineages in Australia prior to the COVID-19 pandemic during which border closure and other interventions reduced pertussis cases to an all-time low. It also provides comparative data for future surveillance as pertussis resurgence after the COVID-19 pandemic has been reported this year in Australia and many other countries. Overall, our paper demonstrates the utility, sensitivity, and specificity of mPCR amplicon and metagenomic sequencing-based culture-independent typing of B. pertussis, which not only paves the way for culture-independent genomic surveillance of B. pertussis but also for other pathogens in the era of PCR-based diagnosis.

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通过独立于培养的多重扩增片段和元基因组测序破解百日咳杆菌流行病学。
尽管百日咳(百日咳)疫苗在澳大利亚和世界上许多其他国家的覆盖率很高,但它还是再次出现了,部分原因是致病菌百日咳博德特氏菌在基因上适应了疫苗。因此,基因组监测对于监测流行菌株的基因变化至关重要。然而,越来越多的百日咳诊断采用 PCR 技术,这影响了用于分型的培养分离物的可用性。在本研究中,我们评估了使用靶向多重 PCR(mPCR)扩增子测序和枪式元基因组测序直接从呼吸道拭子中对百日咳杆菌进行独立于培养的分型。我们开发了一种九个靶标的 mPCR 扩增片段检测方法,该方法可准确分型澳大利亚流行的主要系[ptxP3/非 pptxpP3、fim3A/B、fhaB3/非 fhaB3 和流行系 (EL) 1-5]。使用 2010-2012 年(n = 87)和 2019 年(n = 91)收集的分离物和 178 份残留标本的 DNA 进行的验证表明,mPCR 扩增子测序灵敏度很高,检测限为 4.6 个拷贝[IS481 周期阈值 (Ct) 27.3]。射枪元基因组测序成功地对 84% PCR Ct < 24 的临床样本进行了百日咳杆菌基因分型,并与 mPCR 分型结果一致。研究结果表明,从 2010 年到 2012 年再到 2019 年,澳大利亚的 EL4 株扩大了,并发现了未被确认的霍尔姆斯氏博德氏菌共同循环病例。在COVID-19大流行期间,边境关闭和其他干预措施将百日咳病例降到了历史最低点,这项研究为了解COVID-19大流行之前澳大利亚的流行菌系提供了宝贵的信息,并为在基于PCR诊断的培养无关时代对百日咳杆菌进行基因组监测铺平了道路:在本文中,我们评估了使用靶向多重 PCR(mPCR)扩增子测序和枪式元基因组测序直接对呼吸道拭子中的百日咳博德特菌进行独立于培养的分型。我们首先开发了一种新型靶向 mPCR 扩增片段测序方法,该方法可对主要循环菌系进行分型,并在 178 份临床拭子的 DNA 提取物上验证了其准确性和灵敏度。我们还证明了利用深度元基因组测序确定菌株品系以及毒力、疫苗适应性、大环内酯耐药性和合并感染标记的可行性。我们应用于临床标本的独立于培养的分型方法揭示了在 COVID-19 大流行之前,一个主要的全球流行株系在澳大利亚的扩展(称为 EL4)。它还发现了以前隐藏的另一种博德特氏菌--霍尔姆斯博德特氏菌--的合并感染病例。这些发现为我们深入了解 COVID-19 大流行之前澳大利亚的百日咳循环菌系提供了宝贵的信息,在此期间,边境关闭和其他干预措施将百日咳病例降至历史最低点。今年,澳大利亚和许多其他国家都报告了 COVID-19 大流行后百日咳卷土重来的情况,这也为今后的监测工作提供了比较数据。总之,我们的论文证明了基于 mPCR 扩增片段和元基因组测序的百日咳杆菌独立于培养基的分型的实用性、灵敏度和特异性,这不仅为百日咳杆菌独立于培养基的基因组监测铺平了道路,也为基于 PCR 诊断时代的其他病原体的监测铺平了道路。
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来源期刊
Journal of Clinical Microbiology
Journal of Clinical Microbiology 医学-微生物学
CiteScore
17.10
自引率
4.30%
发文量
347
审稿时长
3 months
期刊介绍: The Journal of Clinical Microbiology® disseminates the latest research concerning the laboratory diagnosis of human and animal infections, along with the laboratory's role in epidemiology and the management of infectious diseases.
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