Kansas State Veterinary Diagnostic Laboratory, Department of Diagnostic Medicine/Pathobiology, College of Veterinary Medicine, Kansas State University, Manhattan, Kansas 66506, USA.
Kansas State Veterinary Diagnostic Laboratory, Department of Diagnostic Medicine/Pathobiology, College of Veterinary Medicine, Kansas State University, Manhattan, Kansas 66506, USA.
J Microbiol Methods. 2020 May;172:105887. doi: 10.1016/j.mimet.2020.105887. Epub 2020 Mar 9.
Streptococcus equi subsp. equi is a Gram positive bacterial pathogen commonly associated with strangles in horses, a respiratory disease characterized by abscessation of submandibular and retropharyngeal lymph nodes which can lead to obstruction of the airway. Several real-time PCR (qPCR) assays have been developed for detection of S. equi from horses with many targeting conserved regions of the S. equi cell wall-associated M-protein (SeM), a major virulence factor and immunogen of S. equi. Our objective was to develop a nested PCR (nPCR) targeting SeM and an 18S rRNA internal control gene for detection of S. equi from horses with potential improvement in detection sensitivity compared to a qPCR. Primers and probes from the Kansas State Veterinary Diagnostic Laboratory (KSVDL) S. equi clinical testing assay were utilized for all qPCR testing. Primers flanking the SeM qPCR target region were selected for an initial end-point PCR step of the nested assay; PCR product from the end-point reaction then served as template for the qPCR reaction step of the nested assay. Sample nucleic acid was also tested directly with qPCR to allow for assay comparison. Nucleic acid from clinical specimens (n = 188) submitted to KSVDL were tested in parallel with each assay. The nPCR and qPCR assays identified 22.9% (43/188) and 13.3% (25/188) of samples positive for S. equi, respectively. None of the samples positive by qPCR were negative by nPCR. The PCR products from all positive samples were submitted for DNA sequencing. Each of the 25 samples positive by both assays had a high nucleotide identity match (>96%) to the SeM gene. Among the samples positive by nPCR but negative by qPCR, 17 of 18 were sequence confirmed for SeM at greater than 96% nucleotide identity. Based on the nPCR Ct (37.8) of the one sequence un-confirmed case, it is likely that the S. equi bacterial load in this sample was below the necessary concentration for successful sequencing. Limit of detection (LOD) for the nPCR was established at a Ct of 37, and based both on the LOD of the qPCR assay (Ct of 37), as determined by standard curve data, and on the highest nPCR Cts (~37) of clinical samples able to result in SeM sequence-confirmation. As demonstrated by sequencing confirmation, the nPCR assay targeting the SeM gene is highly specific to S. equi. The increased sensitivity of the nPCR, compared to the qPCR, may reduce the number of false negative sample results in clinical testing and provide a superior detection method during low bacterial shedding periods.
马链球菌兽疫亚种是一种革兰氏阳性细菌病原体,通常与马的马腺疫有关,马腺疫是一种呼吸道疾病,其特征是颌下和咽后淋巴结脓肿,可导致气道阻塞。已经开发了几种用于检测马链球菌的实时 PCR (qPCR) 检测方法,其中许多方法针对马链球菌细胞壁相关 M 蛋白 (SeM) 的保守区域,SeM 是马链球菌的主要毒力因子和免疫原。我们的目标是开发一种针对 SeM 的巢式 PCR (nPCR) 和 18S rRNA 内参基因,以提高检测敏感性,与 qPCR 相比,检测敏感性可能会提高。所有 qPCR 检测均使用堪萨斯州立兽医诊断实验室 (KSVDL) 的马链球菌临床检测检测试剂盒中的引物和探针。针对 SeM qPCR 靶区域的侧翼引物被选为巢式检测的初始终点 PCR 步骤;终点反应的 PCR 产物然后作为模板用于巢式检测的 qPCR 反应步骤。直接用 qPCR 检测样本核酸以允许进行检测比较。来自 KSVDL 的临床标本 (n = 188) 的核酸与每种检测方法同时进行检测。nPCR 和 qPCR 检测分别鉴定出 22.9% (43/188) 和 13.3% (25/188) 的链球菌阳性样本。qPCR 检测呈阳性的样本均未呈 nPCR 检测阴性。将所有阳性样本的核酸直接进行 qPCR 检测,以允许进行检测比较。来自 KSVDL 的临床标本 (n = 188) 的核酸与每种检测方法同时进行检测。nPCR 和 qPCR 检测分别鉴定出 22.9% (43/188) 和 13.3% (25/188) 的链球菌阳性样本。qPCR 检测呈阳性的样本均未呈 nPCR 检测阴性。将所有阳性样本的核酸直接进行 qPCR 检测,以允许进行检测比较。来自 KSVDL 的临床标本 (n = 188) 的核酸与每种检测方法同时进行检测。nPCR 和 qPCR 检测分别鉴定出 22.9% (43/188) 和 13.3% (25/188) 的链球菌阳性样本。qPCR 检测呈阳性的样本均未呈 nPCR 检测阴性。将所有阳性样本的核酸直接进行 qPCR 检测,以允许进行检测比较。
从所有阳性样本中提交的 PCR 产物进行 DNA 测序。两种检测方法均呈阳性的 25 个样本的核苷酸同一性匹配度均高于 96% (>96%) 至 SeM 基因。在 nPCR 呈阳性但 qPCR 呈阴性的样本中,18 个中有 17 个在核苷酸同一性大于 96%的情况下通过测序得到了 SeM 的确认。根据 nPCR 序列未确认病例的 Ct (37.8),该样本中链球菌的细菌负荷很可能低于成功测序所需的浓度。nPCR 的检测限 (LOD) 设定为 37 Ct,这是基于 nPCR 检测的 LOD (37 Ct),这是通过标准曲线数据确定的,以及能够产生 SeM 序列确认的临床样本中最高的 nPCR Cts(约 37)。如测序确认所示,针对 SeM 基因的 nPCR 检测对马链球菌具有高度特异性。与 qPCR 相比,nPCR 的灵敏度提高可能会减少临床检测中假阴性样本结果的数量,并在细菌脱落量低的时期提供更好的检测方法。
