开发一种实时 PCR 方法,用于鉴定人结肠活检中的短螺旋体属物种。
Development of a real-time PCR for identification of brachyspira species in human colonic biopsies.
机构信息
Department of Medical Microbiology, University Medical Centre Utrecht, Utrecht, The Netherlands.
出版信息
PLoS One. 2012;7(12):e52281. doi: 10.1371/journal.pone.0052281. Epub 2012 Dec 20.
BACKGROUND
Brachyspira species are fastidious anaerobic microorganisms, that infect the colon of various animals. The genus contains both important pathogens of livestock as well as commensals. Two species are known to infect humans: B. aalborgi and B. pilosicoli. There is some evidence suggesting that the veterinary pathogenic B. pilosicoli is a potential zoonotic agent, however, since diagnosis in humans is based on histopathology of colon biopsies, species identification is not routinely performed in human materials.
METHODS
The study population comprised 57 patients with microscopic evidence of Brachyspira infection and 26 patients with no histopathological evidence of Brachyspira infection. Concomitant faecal samples were available from three infected patients. Based on publically available 16S rDNA gene sequences of all Brachyspira species, species-specific primer sets were designed. DNA was extracted and tested by real-time PCR and 16S rDNA was sequenced.
RESULTS
Sensitivity and specificity for identification of Brachyspira species in colon biopsies was 100% and 87.7% respectively. Sequencing revealed B. pilosicoli in 15.4% of patients, B. aalborgi in 76.9% and a third species, tentatively named "Brachyspira hominis", in 26.2%. Ten patients (12.3%) had a double and two (3.1%) a triple infection. The presence of Brachyspira pilosicoli was significantly associated with inflammatory changes in the colon-biopsy (p=0.028).
CONCLUSIONS
This newly designed PCR allows for sub-differentiation of Brachyspira species in patient material and thus allows large-scaled surveillance studies to elucidate the pathogenicity of human Brachyspira infections. One-third of affected patients appeared to be infected with a novel species.
背景
短螺旋体属是一种严格的厌氧微生物,感染各种动物的结肠。该属既包含重要的家畜病原体,也包含共生体。已知有两种短螺旋体属的物种感染人类:B. aalborgi 和 B. pilosicoli。有一些证据表明,兽医致病性 B. pilosicoli 可能是一种潜在的人畜共患病原体,然而,由于人类的诊断基于结肠活检的组织病理学,因此在人类材料中通常不进行物种鉴定。
方法
研究人群包括 57 名显微镜下有短螺旋体感染证据的患者和 26 名没有短螺旋体感染组织病理学证据的患者。从三名感染患者中获得了同时的粪便样本。根据所有短螺旋体属的公开 16S rDNA 基因序列,设计了物种特异性引物。提取 DNA 并进行实时 PCR 检测,并对 16S rDNA 进行测序。
结果
对结肠活检中短螺旋体属的鉴定,敏感性和特异性分别为 100%和 87.7%。测序显示,15.4%的患者存在 B. pilosicoli,76.9%的患者存在 B. aalborgi,26.2%的患者存在一种暂定名为“Brachyspira hominis”的第三种物种。10 名患者(12.3%)存在双重感染,2 名患者(3.1%)存在三重感染。B. pilosicoli 的存在与结肠活检中的炎症变化显著相关(p=0.028)。
结论
这种新设计的 PCR 允许对患者材料中的短螺旋体物种进行亚分类,从而可以进行大规模的监测研究来阐明人类短螺旋体感染的致病性。三分之一的受感染患者似乎感染了一种新的物种。
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