Variation in virulence between three representative Bordetella pertussis pertactin-negative clinical isolates.

IF 3.7 2区生物学 Q2 MICROBIOLOGY

mSphere Pub Date : 2025-07-21 DOI:10.1128/msphere.00310-25

Nicole Lamond, Lindsey Zimmerman, Yihui Wang, Jonatan Maldonado Villeda, Asgeir Bjarnason, Hekla Bryndís Jóhannsdóttir, Tami H Skoff, Maria-Lucia Tondella, Michael R Weigand, Susan Hariri, Tod Merkel

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Abstract

Pertussis is a respiratory disease caused by the bacterium Bordetella pertussis. Acellular pertussis (aP) vaccines replaced more reactogenic whole-cell pertussis (wP) vaccines in the United States in the 1990s. Despite high rates of vaccination, a slow but consistent increase in the number of U.S. pertussis cases was observed starting in the 1980s that accelerated following the introduction of aP vaccines. Most aP vaccines contain pertussis toxoid (PT), filamentous hemagglutinin (FHA), and pertactin (PRN), and some contain fimbriae (FIM 2/3). Countries that transitioned into aP vaccines have observed increasing rates of pertactin-negative (PRN^NEG) clinical isolates, exceeding 85% in some countries. This outcome suggests B. pertussis does not require PRN, and immune responses against PRN may impact B. pertussis circulation. With the high prevalence of PRN^NEG strains circulating in the United States, we sought to identify an acceptable PRN^NEG strain for use in baboon challenge studies and controlled human infection model (CHIM) studies. Baboons were challenged with the PRN-positive (PRN^POS) strain D420 or one of three PRN^NEG strains selected to represent the genetic diversity of B. pertussis strains circulating in the United States. Despite comparable levels of colonization between the animals infected with the PRN^NEG strains and D420, there was variability between the three PRN^NEG strains with respect to virulence, and two of the three strains appeared reduced in one or more measures of virulence. These findings suggest that some PRN^NEG clinical isolates may be less virulent than D420 and suggest care should be taken when selecting strains for baboon and CHIM studies.IMPORTANCEWith the increased circulation of Bordetella pertussis PRN^NEG strains in countries using acellular pertussis (aP) vaccines, understanding the epidemiology and pathogenesis of PRN^NEG strains is critical. Our results suggest that virulence varies between circulating PRN^NEG strains, with some strains appearing to be less virulent than PRN^POS strains. These results tell us that care should be taken when selecting PRN^NEG pertussis strains for baboon and CHIM studies. Our results may also support the continued use of PRN in aP vaccines. If PRN^NEG strains are less virulent and induce less severe disease than PRN^POS strains, maintaining vaccine selective pressure against PRN^POS strains may be beneficial.

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三个具有代表性的百日咳百日咳咳素阴性临床分离株的毒力差异。

百日咳是一种由百日咳杆菌引起的呼吸系统疾病。在20世纪90年代的美国，无细胞百日咳（aP）疫苗取代了更具有反应性的全细胞百日咳（wP）疫苗。尽管疫苗接种率很高，但从20世纪80年代开始，观察到美国百日咳病例数量缓慢但持续增长，并在引入aP疫苗后加速增长。大多数百日咳疫苗含有百日咳类毒素（PT）、丝状血凝素（FHA）和peractn (PRN)，有些含有菌毛（FIM 2/3）。已改用aP疫苗的国家观察到，peractin阴性（PRNNEG）临床分离株的比率在增加，在一些国家超过85%。这一结果表明百日咳不需要PRN，而针对PRN的免疫反应可能会影响百日咳循环。随着PRNNEG菌株在美国的高流行率，我们试图确定一种可接受的PRNNEG菌株用于狒狒攻击研究和控制人类感染模型（CHIM）研究。用prn阳性（PRNPOS）菌株D420或三种PRNNEG菌株中的一种攻毒狒狒，以代表在美国流行的百日咳菌株的遗传多样性。尽管感染PRNNEG菌株和D420的动物之间的定植水平相当，但三种PRNNEG菌株在毒力方面存在差异，三种菌株中的两种在一项或多项毒力测量中出现下降。这些发现表明，一些PRNNEG临床分离株的毒性可能低于D420，并建议在为狒狒和CHIM研究选择菌株时应谨慎。随着使用无细胞百日咳（aP）疫苗的国家中百日咳博德泰拉PRNNEG株的传播增加，了解PRNNEG株的流行病学和发病机制至关重要。我们的研究结果表明，流行的PRNNEG菌株的毒力不同，有些菌株的毒力似乎低于PRNPOS菌株。这些结果告诉我们在选择PRNNEG百日咳菌株用于狒狒和CHIM研究时应谨慎。我们的结果也可能支持在甲状病毒疫苗中继续使用PRN。如果PRNNEG毒株比PRNPOS毒株毒性小，引起的疾病也不那么严重，那么维持针对PRNPOS毒株的疫苗选择压力可能是有益的。

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

mSphere Immunology and Microbiology-Microbiology

CiteScore

8.50

自引率

2.10%

发文量

192

审稿时长

11 weeks

期刊介绍： mSphere™ is a multi-disciplinary open-access journal that will focus on rapid publication of fundamental contributions to our understanding of microbiology. Its scope will reflect the immense range of fields within the microbial sciences, creating new opportunities for researchers to share findings that are transforming our understanding of human health and disease, ecosystems, neuroscience, agriculture, energy production, climate change, evolution, biogeochemical cycling, and food and drug production. Submissions will be encouraged of all high-quality work that makes fundamental contributions to our understanding of microbiology. mSphere™ will provide streamlined decisions, while carrying on ASM''s tradition for rigorous peer review.