佩氏异尖线虫(线虫纲:异尖科)引起的侵袭性异尖线虫病:通过实时PCR水解探针系统和免疫印迹分析进行诊断
Invasive anisakiasis by the parasite Anisakis pegreffii (Nematoda: Anisakidae): diagnosis by real-time PCR hydrolysis probe system and immunoblotting assay.
作者信息
Mattiucci Simonetta, Paoletti Michela, Colantoni Alessandra, Carbone Antonella, Gaeta Raffaele, Proietti Agnese, Frattaroli Stefano, Fazii Paolo, Bruschi Fabrizio, Nascetti Giuseppe
机构信息
Department of Public Health and Infectious Diseases, Section of Parasitology, "Sapienza University of Rome" and "Umberto I" Teaching Hospital, P.le Aldo Moro, 5, 00185, Rome, Italy.
Department of Ecological and Biological Sciences, "Tuscia University", Largo dell'Università s/n, 01100, Viterbo, Italy.
出版信息
BMC Infect Dis. 2017 Aug 1;17(1):530. doi: 10.1186/s12879-017-2633-0.
BACKGROUND
Anisakiasis is a fish-borne zoonosis caused by Anisakis spp. larvae. One challenging issue in the diagnosis of anisakiasis is the molecular detection of the etiological agent even at very low quantity, such as in gastric or intestinal biopsy and granulomas. Aims of this study were: 1) to identify three new cases of invasive anisakiasis, by a species-specific Real-time PCR probe assay; 2) to detect immune response of the patients against the pathogen.
METHODS
Parasite DNA was extracted from parasites removed in the three patients. The identification of larvae removed at gastric and intestinal level from two patients was first obtained by sequence analysis of mtDNA cox2 and EF1 α-1 of nDNA genes. This was not possible in the third patient, because of the very low DNA quantity obtained from a single one histological section of a surgically removed granuloma. Real-time PCR species-specific hydrolysis probe system, based on mtDNA cox2 gene, was performed on parasites tissue of the three cases. IgE, IgG and IgG immune response against antigens A. pegreffii by Immunoblotting assay was also studied.
RESULTS
According to the mtDNA cox2 and the EF1 α - 1 nDNA sequence analysis, the larvae from stomach and intestine of two patients were assigned to A. pegreffii. The Real-time PCR primers/probe system, showed a fluorescent signal at 510 nm for A. pegreffii, in all the three cases. In Immunoblotting assay, patient CC1 showed IgE, IgG reactivity against Ani s 13-like and Ani s 7-like; patient CC2 revealed only IgG reactivity against Ani s 13-like and Ani s 7-like; while, the third patient showed IgE and IgG reactivity against Ani s 13-like, Ani s 7-like and Ani s 1-like.
CONCLUSION
The Real-time PCR assay, a more sensitive method than direct DNA sequencing for the accurate and rapid identification of etiological agent of human anisakiasis, was successfully assessed for the first time. The study also highlights the importance to use both molecular and immunological tools in the diagnosis of human anisakiasis, in order to increase our knowledge about the pathological findings and immune response related to the infection by zoonotic species of the genus Anisakis.
背景
异尖线虫病是一种由异尖线虫属幼虫引起的食源性人畜共患病。异尖线虫病诊断中的一个具有挑战性的问题是即使在非常少量的情况下,如在胃或肠道活检组织以及肉芽肿中,对病原体进行分子检测。本研究的目的是:1)通过种特异性实时荧光定量PCR探针检测法鉴定3例侵袭性异尖线虫病新病例;2)检测患者针对病原体的免疫反应。
方法
从3例患者体内取出的寄生虫中提取寄生虫DNA。首先通过对线粒体DNA细胞色素c氧化酶亚基2(mtDNA cox2)和核DNA基因的延伸因子1α-1(EF1 α-1)进行序列分析,鉴定2例患者胃和肠道中的幼虫。由于从手术切除的肉芽肿的单个组织切片中获得的DNA量极低,第三例患者无法进行此项分析。基于mtDNA cox2基因,对3例病例的寄生虫组织进行实时荧光定量PCR种特异性水解探针检测。还通过免疫印迹法研究了针对佩氏异尖线虫抗原的IgE、IgG和IgG免疫反应。
结果
根据mtDNA cox2和EF1 α-1核DNA序列分析,2例患者胃和肠道中的幼虫被鉴定为佩氏异尖线虫。实时荧光定量PCR引物/探针检测系统在所有3例病例中均显示,佩氏异尖线虫在510nm处有荧光信号。在免疫印迹法中,CC1患者显示出针对Ani s 13样和Ani s 7样的IgE、IgG反应性;CC2患者仅显示出针对Ani s 13样和Ani s 7样的IgG反应性;而第三例患者显示出针对Ani s 13样、Ani s 7样和Ani s 1样的IgE和IgG反应性。
结论
实时荧光定量PCR检测法作为一种比直接DNA测序更灵敏的方法,首次成功用于准确、快速鉴定人类异尖线虫病的病原体。该研究还强调了在人类异尖线虫病诊断中同时使用分子和免疫工具的重要性,以便增加我们对与异尖线虫属人畜共患病种感染相关的病理发现和免疫反应的了解。
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