Establishment of method for dual simultaneous detection of PEDV and TGEV by combination of magnetic micro-particles and nanoparticles.

✅ 全文

联合磁性微粒与纳米颗粒同时检测PEDV和TGEV的双重方法建立

作者 Luo Le; Chen Jing; Li Xiaomin; Qiao Dan; Wang Zhenyu; Wu Xingchen; Du Qian; Tong Dewen; Huang Yong 期刊 J. Infect. Chemother. 发表日期 2020 卷/期/页码 Vol. 26(5) ISSN 1437-7780 DOI 10.1016/j.jiac.2020.01.008 类型 原创研究 (Original Research)

📄 英文摘要 English Abstract

EN

Transmissible gastroenteritis virus (TGEV) and porcine epidemic diarrhea virus (PEDV) are the main pathogens causing viral diarrhea in pig, mixed infections of these two viruses are very common in intensive pig rearing. However, there is a lack of a method to simultaneously detect and distinguish PEDV and TGEV in preclinical levels. In this study, we aimed to establish a dual ultrasensitive nanoparticle DNA probe-based PCR assay (dual UNDP-PCR) based on functionalized magnetic bead enrichment and specific nano-technology amplification for simultaneous detection and distinguish diagnosis of PEDV and TGEV. The detection limit of dual UNDP-PCR for single or multiple infections of PEDV and TGEV is 25 copies/g, which is 400 times more sensitive than the currently known duplex RT-PCR, showing better specificity and sensitivity without cross-reaction with other viruses. For pre-clinical fecal samples, the dual UNDP-PCR showed a markedly higher positive detection rate (52.08%) than conventional duplex RT-PCR (13.21%), can rapidly and accurately identify targeted pathogens whenever simple virus infection or co-infection. In summary, this study provides a technique for detecting and distinguishing PEDV and TGEV in preclinical levels, which is high sensitivity, specificity, repeatability, low cost and broad application prospect.

📄 中文摘要 Chinese Abstract

中文
猪传染性胃肠炎病毒(TGEV)和猪流行性腹泻病毒(PEDV)是引起猪病毒性腹泻的主要病原体,这两种病毒的混合感染在集约化养猪场中非常普遍。然而,目前尚缺乏在临床前水平同时检测和区分PEDV与TGEV的方法。近年来,随着规模化养猪业的迅速发展,猪病毒性腹泻病例数量呈急剧上升趋势,给养猪户造成了巨大的经济损失,严重阻碍了养猪业的健康有序发展。其中,猪流行性腹泻病毒(PEDV)和猪传染性胃肠炎病毒(TGEV)是引起仔猪病毒性腹泻的主要病原体。TGEV和PEDV作为冠状病毒科的主要成员,可引起仔猪高度传染性肠道感染。由于猪传染性胃肠炎(TGE)和猪流行性腹泻(PED)在临床症状、病理变化和流行病学方面表现出极大的相似性,因此仅依靠临床特征和病理组织学难以对两者进行诊断和鉴别。

📋 英文结构化总结 English Structured Summary

全文整理

EN

Background:

Transmissible gastroenteritis virus (TGEV) and porcine epidemic diarrhea virus (PEDV) are the main pathogens causing viral diarrhea in pig, mixed infections of these two viruses are very common in intensive pig rearing. However, there is a lack of a method to simultaneously detect and distinguish PEDV and TGEV in preclinical levels. In recent years, with the rapid development of large-scale pig industry, the number of cases of swine viral diarrhea has shown a sharp increasing trend, causing huge economic losses to pig farmers, which serious hinders the healthy and orderly development of the pig industry. Among them, porcine epidemic diarrhea virus (PEDV) and transmissible gastroenteritis virus (TGEV) are the main pathogens causing viral diarrhea in piglets. TGEV and PEDV, as the main members of the coronavirus family, can cause highly contagious intestinal infections in piglets. Because transmissible gastroenteritis (TGE) and porcine epidemic diarrhea (PED) show great similarities in clinical symptoms, pathological changes and epidemiology, therefore, it is difficult to diagnose and distinguish one from another only depending on clinical features and histopathology.

Methods:

In this study, we aimed to establish a dual ultrasensitive nanoparticle DNA probe-based PCR assay (dual UNDP-PCR) based on functionalized magnetic bead enrichment and specific nano-technology amplification for simultaneous detection and distinguish diagnosis of PEDV and TGEV. The dual UNDP-PCR assay uses magnetic beads and gold nanoparticles to improve the detection sensitivity, and uses specific probes and labels to reduce the probability of false positives; meanwhile, the whole operation does not require reverse transcription and professional research personnel.

Results:

The detection limit of dual UNDP-PCR for single or multiple infections of PEDV and TGEV is 25 copies/g, which is 400 times more sensitive than the currently known duplex RT-PCR, showing better specificity and sensitivity without cross-reaction with other viruses. For pre-clinical fecal samples, the dual UNDP-PCR showed a markedly higher positive detection rate (52.08%) than conventional duplex RT-PCR (13.21%), can rapidly and accurately identify targeted pathogens whenever simple virus infection or co-infection.

Data Summary:

The detection limit of dual UNDP-PCR for single or multiple infections of PEDV and TGEV is 25 copies/g, which is 400 times more sensitive than the currently known duplex RT-PCR. For pre-clinical fecal samples, the dual UNDP-PCR showed a markedly higher positive detection rate (52.08%) than conventional duplex RT-PCR (13.21%). The assay showed no cross-reaction with other viruses.

Conclusions:

In summary, this study provides a technique for detecting and distinguishing PEDV and TGEV in preclinical levels, which is high sensitivity, specificity, repeatability, low cost and broad application prospect.

Practical Significance:

Early detection is the key to decontamination of the farm; therefore, to establish a pre-clinical laboratory detection technology with high sensitivity and specificity for these two pathogens is urgently needed, which will be of great significance for the pre-clinical diagnosis to purify the environment as soon as possible, preventing large-scale infection and reducing economic losses.

📋 中文结构化总结 Chinese Structured Summary

中文

背景:

猪传染性胃肠炎病毒(TGEV)和猪流行性腹泻病毒(PEDV)是引起猪病毒性腹泻的主要病原体,这两种病毒的混合感染在集约化养猪场中非常普遍。然而,目前尚缺乏在临床前水平同时检测和区分PEDV与TGEV的方法。近年来,随着规模化养猪业的迅速发展,猪病毒性腹泻病例数量呈急剧上升趋势,给养猪户造成了巨大的经济损失,严重阻碍了养猪业的健康有序发展。其中,猪流行性腹泻病毒(PEDV)和猪传染性胃肠炎病毒(TGEV)是引起仔猪病毒性腹泻的主要病原体。TGEV和PEDV作为冠状病毒科的主要成员,可引起仔猪高度传染性肠道感染。由于猪传染性胃肠炎(TGE)和猪流行性腹泻(PED)在临床症状、病理变化和流行病学方面表现出极大的相似性,因此仅依靠临床特征和病理组织学难以对两者进行诊断和鉴别。

方法:

本研究旨在建立一种基于功能化磁珠富集和特异性纳米技术扩增的双重超灵敏纳米粒子DNA探针PCR检测方法(双重UNDP-PCR),用于PEDV和TGEV的同时检测和鉴别诊断。该双重UNDP-PCR检测方法利用磁珠和金纳米颗粒提高检测灵敏度,利用特异性探针和标记物降低假阳性概率;同时,整个操作过程无需逆转录,也无需专业研究人员即可完成。

结果:

双重UNDP-PCR对PEDV和TGEV单一或混合感染的检测限为25拷贝/克,比目前已知的双重RT-PCR灵敏度高400倍,且与其他病毒无交叉反应,表现出更优的特异性和灵敏度。对于临床前粪便样本,双重UNDP-PCR的阳性检出率(52.08%)显著高于常规双重RT-PCR(13.21%),无论单一病毒感染还是混合感染,均可快速准确地鉴定目标病原体。

数据总结:

双重UNDP-PCR对PEDV和TGEV单一或混合感染的检测限为25拷贝/克,比目前已知的双重RT-PCR灵敏度高400倍。对于临床前粪便样本,双重UNDP-PCR的阳性检出率(52.08%)显著高于常规双重RT-PCR(13.21%)。该检测方法与其他病毒无交叉反应。

结论:

综上所述,本研究提供了一种在临床前水平检测和区分PEDV与TGEV的技术,具有高灵敏度、高特异性、重复性好、成本低和应用前景广阔等优点。

实际意义:

早期检测是猪场净化的关键;因此,亟需建立针对这两种病原体的高灵敏度、高特异性的临床前实验室检测技术,这对于尽早净化环境、防止大规模感染和减少经济损失具有重要意义。

📖 英文全文 English Full Text

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Establishment of method for dual simultaneous detection of PEDV and TGEV by combination of magnetic micro-particles and nanoparticles* Le Luo, Jing Chen, Xiaomin Li, Dan Qiao, Zhenyu Wang, Xingchen Wu, Qian Du, Dewen Tong**, Yong Huang* College of Veterinary Medicine, Northwest A&F University, Yangling, Shaanxi 712100, PR China

a r t i c l e i n f o a b s t r a c t

Article history: Received 9 September 2019 Received in revised form 16 January 2020 Accepted 22 January 2020 Available online 5 March 2020

Transmissible gastroenteritis virus (TGEV) and porcine epidemic diarrhea virus (PEDV) are the main pathogens causing viral diarrhea in pig, mixed infections of these two viruses are very common in intensive pig rearing. However, there is a lack of a method to simultaneously detect and distinguish PEDV and TGEV in preclinical levels. In this study, we aimed to establish a dual ultrasensitive nanoparticle DNA probe-based PCR assay (dual UNDP-PCR) based on functionalized magnetic bead enrichment and specific nano-technology amplification for simultaneous detection and distinguish diagnosis of PEDV and TGEV. The detection limit of dual UNDP-PCR for single or multiple infections of PEDV and TGEV is 25 copies/g, which is 400 times more sensitive than the currently known duplex RT-PCR, showing better specificity and sensitivity without cross-reaction with other viruses. For pre-clinical fecal samples, the dual UNDPPCR showed a markedly higher positive detection rate (52.08%) than conventional duplex RT-PCR (13.21%), can rapidly and accurately identify targeted pathogens whenever simple virus infection or co-infection. In summary, this study provides a technique for detecting and distinguishing PEDV and TGEV in preclinical levels, which is high sensitivity, specificity, repeatability, low cost and broad application prospect. © 2020 Japanese Society of Chemotherapy and The Japanese Association for Infectious Diseases. Published by Elsevier Ltd. All rights reserved.

Keywords: Porcine epidemic diarrhea virus Transmissible gastroenteritis virus Dual ultrasensitive detection Preclinical diagnosis Co-infection

In recent years, with the rapid development of large-scale pig industry, the number of cases of swine viral diarrhea has shown a sharp increasing trend, causing huge economic losses to pig farmers, which serious hinders the healthy and orderly development of the pig industry. Among them, porcine epidemic diarrhea virus (PEDV) and transmissible gastroenteritis virus (TGEV) are the main pathogens causing viral diarrhea in piglets. TGEV and PEDV, as the main members of the coronavirus family, can cause highly contagious intestinal infections in piglets [1]. Because transmissible gastroenteritis (TGE) and porcine epidemic diarrhea (PED) show great similarities in clinical symptoms, pathological changes and epidemiology, therefore, it is difficult to diagnose and distinguish one from another only depending on clinical features and histopathology. If there is not a timely method to control their infection,

* All authors meet the ICMJE authorship criteria. * Corresponding author. ** Corresponding author. E-mail addresses: dwtong@nwsuaf.edu.cn (D. Tong), yonghuang@nwsuaf.edu.cn (Y. Huang).

TGEV and PEDV will spread rapidly across the whole swine farm. At present, the prevention and control of TGE and PED are mainly carried out from two aspects: vaccination and purification of the farm environment. Among them, early detection is the key to decontamination of the farm. Therefore, to establish a pre-clinical laboratory detection technology with high sensitivity and specificity for these two pathogens is urgently needed, which will be of great significance for the pre-clinical diagnosis to purify the environment as soon as possible, preventing large-scale infection and reducing economic losses. Porcine epidemic diarrhea (PED), one of the most severe and globally widespread infectious diseases in all ages of swine is caused by the porcine epidemic diarrhea virus (PEDV) [2]. As a member of the coronaviridae family, PEDV infects the epithelial cells mainly of the porcine intestine, leading to acute diarrhea, vomiting, and dehydration, which cause the high morbidity and mortality in newborn piglets [3]. Pigs of all ages can be infected with PEDV, and the severity of clinical symptoms is inversely related to the age of the pigs. Generally, the younger pigs, especially suckling piglets show more higher incidence rate and severe

https://doi.org/10.1016/j.jiac.2020.01.008 1341-321X/© 2020 Japanese Society of Chemotherapy and The Japanese Association for Infectious Diseases. Published by Elsevier Ltd. All rights reserved. 524 L. Luo et al. / J Infect Chemother 26 (2020) 523e526

symptoms after infection [4]. For PEDV, once the infection reaches a certain level, it will spread in the whole pig farm and into surrounding areas if the prevention is not timely [5]. According to recent reports, PED is widely spread around the world, and the disease has spread to China, Japan, South Korea, Germany, Belgium, France and other countries or regions, the prevalence and incidence of the disease in Asia is far more serious than that in Europe [6]. Transmissible gastroenteritis (TGE) is a highly-contact enteric infectious disease. Pigs of all ages are the main susceptible host of the disease, but the incidence of piglets within 10 days of age generally show a high mortality rate [7]. When healthy pigs are exposed to air, drinking water, feed, utensils, etc. contaminated by viruses, TGEV easily enters the piglets from the outside through the respiratory or digestive tract, eventually reaches the small intestine of the target organ, and proliferates in the intestinal epithelial cells, causing the small intestine villi to shrink or even fall off [8]. At present, the main laboratory testing techniques for detecting PEDV and TGEV include: isolation and identification of viruses, serological assays, immunological and molecular biology methods. However, the method of isolation and identification of viruses has a long period of time and the process is cumbersome, the serological assays have low detection sensitivity and cannot be early warning, the cost of immunological methods is high, the detection range is limited, and the application range is not extensive. In addition, the molecular biology methods such as duplex RT-PCR are inconvenient to operate and costly, which required the process of viral nucleic acid extraction, purification and reverse transcription. Therefore, it is an urgent need to develop new detection methods with the characteristics of high sensitivity, high specificity and low cost [9e11]. In this study, dual ultrasensitive nanoparticle DNA probe-based PCR (dual UNDP-PCR) assay for both PEDV and TGEV uses magnetic beads and gold nanoparticles to improve the detection sensitivity, and uses specific probes and labels to reduce the probability of false positives; meanwhile, the whole operation does not require reverse transcription and professional research personnel, which save the detection cost. In our previous research, we have separately established detection methods for PEDV or TGEV. The principle of magnetic particle enrichment and specific nanoprobe amplification has achieved a strong specificity and convenient operation [12,13]. However, it is inconvenient to detect and distinguish these two viruses at same time using our previous PEDV or TGEV specific detection method. In this study, we further established a dual UNDP-PCR assay for both PEDV and TGEV, which effectively solves this problem, and can simultaneously and rapidly detect and distinguish TGEV and PEDV in the same reaction system at the preclinical level. To test the sensitivity of dual UNDP-PCR assay for PEDV and TGEV, the field samples containing PEDV and TGEV were diluted serially from 105 to 1 copies/gram respectively. The diluted samples containing same viral copy numbers of PEDV and TGEV per g were mixed, and then tested by conventional duplex RT-PCR, and specific probe-coated magnetic microparticles (MMPs) and specific probe barcode-coated Gold nanoparticles (Au-NPs)-based dual UNDPPCR. The inter-assay and intra-assay tests were carried out in triplicate by detecting three different concentrations of mixed field containing serial diluted PEDV and TGEV (104, 103, 102 copies/g) to measure the reproducibility of this assay. In the study of evaluating the specificity of dual UNDP-PCR, Porcine parvovirus (PPV), Porcine circovirus type 2 (PCV2), Pseudorabies virus (PRV), Porcine reproductive and respiratory syndrome virus (PRRSV) and Classical swine fever virus (CSFV) were tested by the uniformed detection method. Fecal samples were collected from epidemic farms with diseased pigs were detected for PEDV and TGEV have been detected

by dual UNDP-PCR and conventional duplex RT-PCR, statistics and analysis of the detection results of the collected fecal samples to calculate the positive rate of single virus infection and mixed infection detected. In addition, the sensitivity of clinical application of these two methods was compared by comparing the positive detection rates of pre-clinical samples and clinical samples. The samples with inconsistent detection results of dual UNDP-PCR and conventional duplex RT-PCR were re-examined, and the results were verified by separation and purification. Consequently, the sensitivity of dual UNDP-PCR assay can be demonstrated further. Serial 10-fold dilutions of template in samples were tested to assess the sensitivity. PEDV and TGEV genomic RNA were released by boiling with lysis buffer containing RNase inhibitors, then were used to form AuNP-RNA-MMP complexes, mixed by magnetic separation and oligonucleotide elution. The oligonucleotides were then purified and detected by UNDP-PCR. As shown in Fig. 1A, visible targeted bands around 628 bp and 501 bp could be seen in lanes representing fecal samples with viral concentrations ranging from 103 copies/g to 25 copies/g respectively. However, at least 104 copies/g of TGEV and PEDV in samples, visible targeted bands around 451 bp and 275 bp could be seen in lanes when detected by conventional duplex RT-PCR assay (Fig. 1B), suggesting that the sensitivity of dual UNDP-PCR specific for PEDV and TGEV was 400fold that of the conventional duplex RT-PCR. Inter-assay and intra-assay test were executed to estimate the reproducibility of the dual UNDP-PCR method, triplicates of each concentration (104 copies/gram, 103 copies/gram, 102 copies/gram) by three independent tests for three consecutive days. The results of the independent triplicates assay showed highly consistency as our expected. (Fig. 2A).

Fig. 1. Analysis of the sensitivity of dual UNDP-PCR for PEDV and TGEV. (A) Serial dilutions of PEDV and TGEV fecal samples were tested by dual UNDP-PCR assay. M: Trans 2K Plus DNA Marker; other lanes represent different viral concentration of fecal samples were detected by UNDP-PCR assay. 103:103 copies/g; 102: 102 copies/g; 50: 50 copies/g; 25: 25 copies/g; 20: 20 copies/g; 15: 15 copies/g; 10: 10 copies/g; 0: negative samples. (B) Serial dilutions of PEDV and TGEV fecal samples were tested by duplex RTPCR assay. M: Trans 2K Plus DNA Marker; other lanes are the viral concentration of fecal samples. 105:105 copies/g; 104: 104 copies/g; 5000: 5000 copies/g; 2500: 2500 copies/g; 1250: 1250 copies/g; 0: negative samples.

L. Luo et al. / J Infect Chemother 26 (2020) 523e526 525

Fig. 2. Analysis of the reproducibility and specificity of dual UNDP-PCR for PEDV and TGEV. (A)Three repeated test of each concentration in three independent assays for three consecutive days were detected by dual UNDP-PCR for PEDV and TGEV. M: Trans 2K Plus DNA Marker; other lanes are the viral concentration of fecal samples. 104: 104 copies/g; 103: 103 copies/g; 102: 102 copies/g; -: negative samples. (B)Samples infected with PPV, PRV, PCV2, CSFV, PRRSV and healthy samples were detected by dual UNDP-PCR for PEDV and TGEV as control. M:Trans 2K Plus DNA Marker; other lanes indicate samples contained with different viruses or healthy samples, among them “Others” represents the sample contained with PPV, PRV, PCV2, CSFV and PRRSV.

The specificity of the dual UNDP-PCR assay for PEDV and TGEV was measured by fecal samples collected from healthy pigs and others infected with PPV, PRV, CSFV, PCV2 or PRRSV. As our predicted, specific PCR products with bands of 628 bp and 501 bp were detected in the sample with PEDV and TGEV whenever other viruses exist or non-exist. As shown in Fig. 2B, the result demonstrated that the detection results of TGEV and PEDV do not interfere with each other and were not disturbed by other viruses, revealing the specificity and independence of the established dual UNDP-PCR for PEDV and TGEV. Fecal samples from epidemic farms with diseased pigs were detected for PEDV and TGEV using dual UNDP-PCR assay and conventional duplex RT-PCR. As shown in Table 1, using conventional duplex RT-PCR detection found 53 positive samples and 219

negative samples, while using dual UNDP-PCR assay detection found 96 positive samples and 176 negative samples among 272 samples; the detection positive rate of dual UNDP-PCR assay (35.29%) is markedly higher than that of conventional duplex RTPCR (19.49%). We found 46 fecal sample were collected from the piglets with clinical diarrhea symptoms in all of 53 positive samples detected by conventional duplex RT-PCR, while 50 fecal sample were collected from the piglets without apparent clinical symptoms in all of 96 positive samples detected by dual UNDP-PCR assay. Notably, all of 53 positive samples detected by conventional duplex RT-PCR were also positive in dual UNDP-PCR assay, and TGEV positive rate (9.43%), PEDV positive rate (56.61%) and double positive rate of co-infection (33.96) were completely identity when these 53 positive samples were detected by dual UNDP-PCR assay

Table.1 Comparison of the detection results of 272 fecal samples collected tested by dual UNDP-PCR and conventional duplex RT-PCR. Assay Stage Number of each component Rate of each component (%) Total number of tested samples

dual UNDP-PCR pre-clinical positive clinical positive Negative pre-clinical positive clinical positive Negative 50 46 176 7 46 219 18.38 16.91 64.71 2.57 16.91 80.52 272 duplex RT-PCR 272 526 L. Luo et al. / J Infect Chemother 26 (2020) 523e526

and conventional duplex RT-PCR (Table S3). These results suggested that dual UNDP-PCR assay not only possesses great diagnostic accuracy as well as conventional duplex RT-PCR, but showed a higher positive detection rate than conventional duplex RT-PCR. For 43 positive samples, 3 samples were TGEV positive, 27 samples were PEDV positive, 13 samples were double positive, which were further confirmed by the amplification of isolated pathogens. These data further show the higher sensitivity of dual UNDP-PCR assay, and demonstrate that dual UNDP-PCR assay can rapidly and accurately identify targeted pathogens from preclinical samples whenever single virus infection or co-infection. Currently, although single or dual RT-PCR assays for TGEV and PEDV viruses have been established, they still undergo complex processes of viral nucleic acid extraction and RNA reverse transcription [14,15]. In addition, traditional RT-PCR methods can not detect the presence of low-concentration viruses in the early stages of infection. Therefore, the virus infection could not be discovered in time, and the virus began to spread rapidly throughout the piggery, causing serious harm to the pig industry. With the development of nanotechnology, nanoparticles have been widely used in pathogen detection. In this study, based on nanoparticle and DNA tags, we established a dual UNDP-PCR technology to simultaneously detect and distinguish TGEV and PEDV in the same system. This combined method not only greatly shortens the detection time and reduces the detection cost, but also show reliable reproducibility, specificity and higher sensitivity than the conventional duplex RT-PCR. In summary, compared with traditional virus detection methods, the advantages of dual UNDP-PCR are mainly reflected in the following aspects: first of all, compared with viral isolation and identification method and other serological methods, this method does not require cell culture and antibody production, saving testing costs and labor. Secondly, compared with the duplex RT-PCR technology, real-time RT-PCR and other molecular biology methods, dual UNDP-PCR saves detection time and testing costs by eliminating the need for process of viral nucleic acid extraction, purification and reverse transcription. Thirdly, based on the two kinds of special gold nanoparticles and functionalized magnetic beads, dual UNDP-PCR allows simultaneous preclinical testing of TGEV and PEDV in low-dose viral stool samples and distinguishes each other in one test, which is more convenient and quick than the single UNDP-PCR assay established previously. In addition, the experimental results show that the method can detect 25 copies/g of TGEV and PEDV with 400 times the sensitivity of traditional duplex RT-PCR. Finally, in terms of its specificity, specific nucleic acid probes for labeling magnetic particles and DNA labels for modifying nano-gold particles are two completely different specific sequences designed based on the conserved region of the viral gene, and by evaluating their ability to capture viral nucleic acids optimized screening for specificity. In the clinical sample application, the detection technology established in this study can easily identify whether it is pure PEDV or TGEV infection or mixed infection, which provides a basis for clinical medication and early control of infection to reduce the economic loss of pig farms. In conclusion, the dual UNDP-PCR assay established in this study allows simultaneous detection of TGEV and PEDV in large-scale fecal samples in the same reaction system without the need for viral nucleic acid extraction, purification and reverse transcription. This method can markedly improve the current detection technological ability in preclinical phase, achieving early diagnosis and early prevention, thus reducing the morbidity and mortality of TGE and PED in newborn piglets. In summary, dual UNDP-PCR is a fast and economical assay with high specificity, sensitivity and repeatability.

Ethics statement All animal procedures and study design were conducted in accordance with the Guide for the Care and Use of Laboratory Animals (Ministry of Science and Technology of China, 2006), and were approved by the animals ethics committee of Northwest A&F University.

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基于磁性微粒与纳米颗粒联用的PEDV和TGEV双重同步检测方法建立* 罗乐,陈静,李巧敏,乔丹,王振宇,吴星辰,杜倩,童德文**,黄勇* 西北农林科技大学动物医学院,陕西杨凌 712100,中国

a r t i c l e i n f o a b s t r a c t

文章历史: 收稿日期:2019年9月9日 修改稿收到日期:2020年1月16日 接受日期:2020年1月20日 在线发表日期:2020年3月5日

传染性胃肠炎病毒(TGEV)和猪流行性腹泻病毒(PEDV)是引起猪病毒性腹泻的主要病原体,这两种病毒的混合感染在集约化养猪场中非常普遍。然而,目前尚缺乏一种能在临床前水平同时检测和区分PEDV与TGEV的方法。本研究旨在建立一种基于功能化磁珠富集与特异性纳米技术放大的双重超灵敏纳米颗粒DNA探针PCR检测方法(dual UNDP-PCR),用于PEDV和TGEV的同时检测与鉴别诊断。该方法对PEDV和TGEV单一或混合感染的检测限为25拷贝/克,是目前已知双重RT-PCR灵敏度的400倍,且与其他病毒无交叉反应,具有更优的特异性和灵敏度。对于临床前粪便样本,dual UNDP-PCR的阳性检出率(52.08%)显著高于传统双重RT-PCR(13.21%),无论单一病毒感染还是共感染,均可快速准确地识别目标病原体。综上,本研究建立了一种高灵敏度、高特异性、可重复、低成本、应用前景广阔的PEDV与TGEV临床前水平检测与鉴别技术。 © 2020 日本化学疗法学会与日本传染病协会。由爱思唯尔有限公司出版。保留所有权利。

关键词: 猪流行性腹泻病毒 传染性胃肠炎病毒 双重超灵敏检测 临床前诊断 共感染

近年来,随着规模化养猪业的迅速发展,猪病毒性腹泻病例呈急剧上升趋势,给养殖户造成巨大经济损失,严重阻碍了养猪业的健康发展。其中,猪流行性腹泻病毒(PEDV)和传染性胃肠炎病毒(TGEV)是引起仔猪病毒性腹泻的主要病原体。TGEV和PGEV作为冠状病毒科的主要成员,可引起仔猪高度传染性肠道感染[1]。由于传染性胃肠炎(TGE)与猪流行性腹泻(PED)在临床症状、病理变化和流行病学方面极为相似,仅依靠临床特征和病理组织学难以进行鉴别诊断。若不能及时控制其感染,TGEV和PGEV将在整个猪场迅速传播。目前,TGE和PED的防控主要从疫苗接种和猪场环境净化两方面着手,而早期检测是环境净化的关键。因此,亟需建立一种针对这两种病原体的高灵敏度、高特异性的临床前实验室检测技术,这对于尽早净化环境、防止大规模感染、减少经济损失具有重要意义。

猪流行性腹泻(PED)是由猪流行性腹泻病毒(PEDV)引起的一种严重且全球范围内广泛传播的猪的传染病,可感染各年龄段的猪[2]。作为冠状病毒科成员,PEDV主要感染猪肠道上皮细胞,导致急性腹泻、呕吐和脱水,引起新生仔猪高发病率和高死亡率[3]。所有年龄段的猪均可感染PEDV,临床症状的严重程度与猪的年龄呈反比关系,通常年龄越小,尤其是哺乳仔猪,感染后发病率和症状越严重[4]。对于PEDV,一旦感染达到一定水平,若未及时预防,将在整个猪场及周边地区迅速蔓延[5]。据近期报道,PED已在全球广泛传播,波及中国、日本、韩国、德国、比利时、法国等国家和地区,其中亚洲的流行和发病率远高于欧洲[6]。

传染性胃肠炎(TGE)是一种高度接触性肠道传染病。各年龄段的猪均为该病的主要易感宿主,但10日龄以内仔猪的发病率通常伴随高死亡率[7]。当健康猪接触被病毒污染的空气、饮水、饲料、器具等时,TGEV易通过呼吸道或消化道进入仔猪体内,最终到达靶器官小肠,并在小肠上皮细胞中增殖,导致小肠绒毛萎缩甚至脱落[8]。

目前,检测PEDV和TGEV的主要实验室技术包括:病毒分离鉴定、血清学检测、免疫学和分子生物学方法。然而,病毒分离鉴定方法耗时长、操作繁琐;血清学检测灵敏度低,无法实现早期预警;免疫学方法成本高、检测范围有限、应用范围不广;而双重RT-PCR等分子生物学方法操作不便、成本较高,且需经过病毒核酸提取、纯化和逆转录等步骤。因此,亟需开发具有高灵敏度、高特异性和低成本特点的新型检测方法[9-11]。本研究建立的针对PEDV和TGEV的双重超灵敏纳米颗粒DNA探针PCR(dual UNDP-PCR)检测方法,利用磁珠和金纳米颗粒提高检测灵敏度,采用特异性探针和标记物降低假阳性概率;同时,整个操作过程无需逆转录和专业研究人员,节省了检测成本。

在我们前期研究中,已分别建立了针对PEDV或TGEV的检测方法,其基于磁性微粒富集与特异性纳米探针放大的原理,实现了高特异性和操作便捷性[12,13]。然而,使用前期建立的单一PEDV或TGEV检测方法,难以同时检测和区分这两种病毒。本研究进一步建立了针对PEDV和TGEV的dual UNDP-PCR检测方法,有效解决了该问题,可在同一反应体系中同时、快速检测和区分临床前水平的TGEV和PEDV。

为评估dual UNDP-PCR对PEDV和TGEV的检测灵敏度,将含有PEDV和TGEV的田间样本分别进行10倍系列稀释(从10^5至1拷贝/克)。将每克含相同病毒拷贝数的PEDV和TGEV稀释样本混合后,分别采用传统双重RT-PCR、以及包被特异性探针的磁性微粒(MMPs)与包被特异性探针条形码的金纳米颗粒(Au-NPs)为基础的dual UNDP-PCR进行检测。通过检测三种不同浓度的PEDV和TGEV混合田间样本(10^4、10^3、10^2拷贝/克),进行批间和批内重复试验(各重复三次),以评估该方法的重复性。在评估dual UNDP-PCR特异性时,采用统一检测方法对猪细小病毒(PPV)、猪圆环病毒2型(PCV2)、伪狂犬病病毒(PRV)、猪繁殖与呼吸综合征病毒(PRRSV)和猪瘟病毒(CSFV)进行检测。

采集发病猪场病猪粪便样本,分别采用dual UNDP-PCR和传统双重RT-PCR检测PEDV和TGEV,统计并分析所采集粪便样本的检测结果,计算单一病毒感染和混合感染的阳性率。此外,通过比较临床前样本和临床样本的阳性检出率,对比两种方法的临床应用灵敏度。对dual UNDP-PCR与传统双重RT-PCR检测结果不一致的样本进行复检,并通过病原体分离纯化验证结果。由此,可进一步证明dual UNDP-PCR检测方法的灵敏度。

对样本中的模板进行10倍系列稀释以评估灵敏度。PEDV和TGEV基因组RNA通过含RNase抑制剂的裂解液煮沸释放,随后用于形成AuNP-RNA-MMP复合物,经磁分离和寡核苷酸洗脱后,对寡核苷酸进行纯化并通过UNDP-PCR检测。如图1A所示,在病毒浓度为10^3拷贝/克至25拷贝/克的粪便样本泳道中,可见约628 bp和501 bp的目标条带。然而,当采用传统双重RT-PCR检测时,样本中TGEV和PEDV浓度至少需达到10^4拷贝/克,才能在泳道中观察到约451 bp和275 bp的目标条带(图1B),表明针对PEDV和TGEV的dual UNDP-PCR灵敏度是传统双重RT-PCR的400倍。

进行批间和批内试验以评估dual UNDP-PCR方法的重复性,对三种浓度(10^4拷贝/克、10^3拷贝/克、10^2拷贝/克)的样本在连续三天内进行三次独立检测,每次设三个重复。独立三次检测的结果显示出高度一致性,符合预期(图2A)。

图1. dual UNDP-PCR对PEDV和TGEV的灵敏度分析。(A) 采用dual UNDP-PCR检测系列稀释的PEDV和TGEV粪便样本。M:Trans 2K Plus DNA Marker;其他泳道为采用UNDP-PCR检测的不同病毒浓度的粪便样本。10^3:10^3拷贝/克;10^2:10^2拷贝/克;50:50拷贝/克;25:25拷贝/克;20:20拷贝/克;15:15拷贝/克;10:10拷贝/克;0:阴性样本。(B) 采用双重RT-PCR检测系列稀释的PEDV和TGEV粪便样本。M:Trans 2K Plus DNA Marker;其他泳道为粪便样本的病毒浓度。10^5:10^5拷贝/克;10^4:10^4拷贝/克;5000:5000拷贝/克;2500:2500拷贝/克;1250:1250拷贝/克;0:阴性样本。

罗乐等 / J Infect Chemother 26 (2020) 523-526 525

图2. dual UNDP-PCR对PEDV和TGEV的重复性与特异性分析。(A) 在连续三天内,对三种浓度进行三次独立检测,每次设三个重复,采用dual UNDP-PCR检测PEDV和TGEV。M:Trans 2K Plus DNA Marker;其他泳道为粪便样本的病毒浓度。10^4:10^4拷贝/克;10^3:10^3拷贝/克;10^2:10^2拷贝/克;-:阴性样本。(B) 采用dual UNDP-PCR检测感染PPV、PRV、PCV2、CSFV、PRRSV的样本及健康样本作为对照。M:Trans 2K Plus DNA Marker;其他泳道为含不同病毒或健康样本的样本,其中“Others”代表含PPV、PRV、PCV2、CSFV和PRRSV的样本。

通过采集健康猪及感染PPV、PRV、CSFV、PCV2或PRRSV的其他猪的粪便样本,评估dual UNDP-PCR对PEDV和TGEV的特异性。正如预期,无论是否存在其他病毒,在含有PEDV和TGEV的样本中均检测到628 bp和501 bp的特异性PCR产物。如图2B所示,结果表明TGEV和PEDV的检测结果互不干扰,且不受其他病毒影响,证明了所建立的dual UNDP-PCR方法对PEDV和TGEV的特异性和独立性。

采用dual UNDP-PCR和传统双重RT-PCR对发病猪场病猪的粪便样本进行PEDV和TGEV检测。如表1所示,传统双重RT-PCR检测出53份阳性样本和219份阴性样本,而dual UNDP-PCR检测出96份阳性样本和176份阴性样本(共272份样本);dual UNDP-PCR的阳性检出率(35.29%)显著高于传统双重RT-PCR(19.49%)。我们发现,传统双重RT-PCR检测出的53份阳性样本中,有46份来自有临床腹泻症状的仔猪;而dual UNDP-PCR检测出的96份阳性样本中,有50份来自无明显临床症状的仔猪。值得注意的是,传统双重RT-PCR检测出的所有53份阳性样本在dual UNDP-PCR检测中均为阳性,且这53份样本经dual UNDP-PCR检测得到的TGEV阳性率(9.43%)、PEDV阳性率(56.61%)和共感染双阳性率(33.96%)与传统双重RT-PCR结果完全一致(表S3)。这些结果表明,dual UNDP-PCR不仅与传统双重RT-PCR具有同样优异的诊断准确性,而且阳性检出率更高。

表1. 272份粪便样本经dual UNDP-PCR与传统双重RT-PCR检测结果的比较 检测方法 检测阶段 各组分数量 各组分百分比(%) 总检测样本数

dual UNDP-PCR 临床前阳性 临床阳性 阴性 临床前阳性 临床阳性 阴性 50 46 176 7 46 219 18.38 16.91 64.71 2.57 16.91 80.52 272 双重RT-PCR 272 526 罗乐等 / J Infect Chemother 26 (2020) 523-526

对于43份阳性样本,经病原体分离纯化进一步确认,其中3份为TGEV阳性,27份为PEDV阳性,13份为双阳性。这些数据进一步证明了dual UNDP-PCR具有更高的灵敏度,表明该方法无论对单一病毒感染还是共感染,均能快速准确地从临床前样本中识别目标病原体。

目前,尽管已建立了针对TGEV和PEDV病毒的单重或双重RT-PCR检测方法,但仍需经历病毒核酸提取和RNA逆转录等复杂过程[14,15]。此外,传统RT-PCR方法无法检测感染早期低浓度病毒的存在,导致病毒感染无法及时发现,病毒开始在猪场迅速传播,对养猪业造成严重危害。随着纳米技术的发展,纳米颗粒已被广泛应用于病原体检测。本研究基于纳米颗粒和DNA标签,建立了一种dual UNDP-PCR技术,可在同一体系中同时检测和区分TGEV和PEDV。该联合方法不仅大幅缩短了检测时间、降低了检测成本,而且与传统双重RT-PCR相比,具有可靠的重复性、特异性和更高的灵敏度。

综上所述,与传统病毒检测方法相比,dual UNDP-PCR的优势主要体现在以下几个方面:首先,与病毒分离鉴定法及其他血清学方法相比,该方法无需细胞培养和抗体生产,节省了检测成本和人力。其次,与双重RT-PCR、实时RT-PCR等分子生物学方法相比,dual UNDP-PCR省去了病毒核酸提取、纯化和逆转录等步骤,节省了检测时间和成本。第三,基于两种特殊金纳米颗粒和功能化磁珠,dual UNDP-PCR可在低剂量病毒粪便样本中同时检测临床前水平的TGEV和PEDV,并在一次检测中区分两者,比之前建立的单一UNDP-PCR更为便捷快速。此外,实验结果表明,该方法对TGEV和PEDV的检测限为25拷贝/克,灵敏度是传统双重RT-PCR的400倍。最后,在特异性方面,用于标记磁性颗粒的特异性核酸探针和用于修饰纳米金颗粒的DNA标签是基于病毒基因保守区设计的两种完全不同的特异性序列,通过评估其捕获病毒核酸的能力优化了特异性筛选。在临床样本应用中,本研究建立的检测技术可轻松鉴别是单纯PEDV或TGEV感染还是混合感染,为临床用药和早期控制感染提供了依据,有助于减少猪场的经济损失。

总之,本研究建立的dual UNDP-PCR方法无需病毒核酸提取、纯化和逆转录,即可在同一反应体系中同时检测大规模粪便样本中的TGEV和PEDV。该方法可显著提升当前临床前阶段的检测技术水平,实现早期诊断和早期预防,从而降低新生仔猪TGE和PED的发病率和死亡率。综上,dual UNDP-PCR是一种快速、经济、具有高特异性、高灵敏度和良好重复性的检测方法。

伦理声明 所有动物实验和研究设计均遵照《实验室动物护理与使用指南》(中国科技部,2006年)进行,并经西北农林科技大学动物伦理委员会批准。