Mason Paul S, Holder Thomas, Robinson Natasha, Smith Brendan, Hameed Rwoa'a T, Al Dulayymi Juma'a R, Hughes Valerie, Stevenson Karen, Jones Gareth J, Vordermeier H Martin, Mc Kenna Shawn, Baird Mark S
Diagnostig Ltd., M-SParc, Gaerwen, Anglesey LL60 6AG, Wales, UK.
Animal and Plant Health Agency, Addlestone KT15 3NB, Surrey, UK.
Animals (Basel). 2024 Mar 9;14(6):848. doi: 10.3390/ani14060848.
Ante-mortem diagnosis of Johne's disease, caused by subsp. (MAP), is normally achieved through faecal culture, PCR, or serological tests, but agreement as to which samples are positive for Johne's disease is often poor and sensitivities are low, particularly in early-stage infections. The potential solution: Mycobacterial cells contain very complex characteristic mixtures of mycolic acid derivatives that elicit antibodies during infection; this has been used to detect infections in humans. Here, we explore its application in providing an assay differentiating infected from vaccinated animals (DIVA assay) for Johne's disease in cattle.
Antibody responses to different classes of mycolic acid derivatives were measured using ELISA for serum from cattle positive for MAP by both faecal PCR and commercial serum ELISA, or just by PCR, and from animals from herds with no history of Johne's disease, bovine tuberculosis reactors, BCG-vaccinated, BCG-vaccinated and -infected, and Gudair-vaccinated animals.
The best-performing antigens, ZAM295 and ST123-the latter a molecule present in the cells of MAP but not of -achieved a sensitivity of 75% and 62.5%, respectively, for serum from animals positive by both faecal PCR and a commercial MAP serum ELISA, at a specificity of 94% compared to 80 no-history negatives. Combining the results of separate assays with two antigens (ST123 and JRRR121) increased the sensitivity/specificity to 75/97.5%. At the same cut-offs, animals vaccinated with Gudair or BCG vaccines and bTB reactors showed a similar specificity. The specificity in BCG-vaccinated but -infected animals dropped to 85%. Combining the results of two antigens gave a sensitivity/specificity of 37.5/97.5% for the full set of 80 PCR-positive samples, detecting 30 positives compared 16 for IDEXX.
Serum ELISA using synthetic lipids distinguishes effectively between MAP-negative cattle samples and those positive by both PCR and a commercial MAP serodiagnostic, without interference by Gudair or BCG vaccination. It identified almost twice as many PCR positives as the commercial serodiagnostic, offering the possibility of earlier detection of infection.
由副结核分枝杆菌(MAP)引起的副结核病的生前诊断通常通过粪便培养、聚合酶链反应(PCR)或血清学检测来实现,但对于哪些样本为副结核病阳性的判定往往存在较大差异,且敏感性较低,尤其是在感染早期。潜在解决方案:分枝杆菌细胞含有非常复杂的分枝菌酸衍生物特征混合物,在感染过程中会引发抗体产生;这已被用于检测人类感染情况。在此,我们探讨其在提供一种区分牛副结核病感染动物与疫苗接种动物的检测方法(鉴别诊断检测)中的应用。
使用酶联免疫吸附测定(ELISA)检测牛血清对不同类别的分枝菌酸衍生物的抗体反应,这些牛的血清通过粪便PCR和商业血清ELISA检测为MAP阳性,或者仅通过PCR检测为阳性,以及来自无副结核病病史牛群、牛结核病反应动物、卡介苗接种动物、卡介苗接种且感染动物和古德艾尔疫苗接种动物的血清。
性能最佳的抗原ZAM295和ST123(后者是MAP细胞中存在但副结核分枝杆菌细胞中不存在的一种分子),对于粪便PCR和商业MAP血清ELISA均为阳性的动物血清,敏感性分别达到75%和62.5%,与80份无病史阴性样本相比,特异性为94%。将两种抗原(ST123和JRRR121)的单独检测结果相结合,敏感性/特异性提高到75/97.5%。在相同的临界值下,接种古德艾尔或卡介苗疫苗的动物以及牛结核病反应动物显示出相似的特异性。卡介苗接种且感染动物的特异性降至85%。对于全套80份PCR阳性样本,两种抗原结果相结合的敏感性/特异性为37.5/97.5%,检测出30份阳性样本,而IDEXX检测出16份。
使用合成脂质的血清ELISA能够有效区分MAP阴性牛样本与PCR和商业MAP血清诊断均为阳性的样本,不受古德艾尔或卡介苗接种的干扰。它检测出的PCR阳性样本数量几乎是商业血清诊断的两倍,提供了更早检测感染的可能性。
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