Genome-wide transcriptome analysis of porcine epidemic diarrhea virus virulent or avirulent strain-infected porcine small intestinal epithelial cells

Porcine epidemic diarrhea virus (PEDV) is the main cause of diarrhea, vomiting, and mortality in pigs, which results in devastating economic loss to the pig industry around the globe. In recent years, the advent of RNA-sequencing technologies has led to delineate host responses at late stages of PEDV infection; however, the comparative analysis of host responses to early-stage infection of virulent and avirulent PEDV strains is currently unknown. Here, using the BGI DNBSEQ RNA-sequencing, we performed global gene expression profiles of pig intestinal epithelial cells infected with virulent (GDS01) or avirulent (HX) PEDV strains for 3, 6, and 12 h. It was observed that over half of all significantly dysregulated genes in both infection groups exhibited a down-regulated expression pattern. Functional enrichment analyses indicated that the differentially expressed genes (DEGs) in the GDS01 group were predominantly related to autophagy and apoptosis, whereas the genes showing the differential expression in the HX group were strongly enriched in immune responses/inflammation. Among the DEGs, the functional association of TLR3 and IFIT2 genes with the HX and GDS01 strains replication was experimentally validated by TLR3 inhibition and IFIT2 overexpression systems in cultured cells. TLR3 expression was found to inhibit HX strain, but not GDS01 strain, replication by enhancing the IFIT2 expression in infected cells. In conclusion, our study highlights similarities and differences in gene expression patterns and cellular processes/pathways altered at the early-stage infection of PEDV virulent and avirulent strains. These findings may provide a foundation for establishing novel therapies to control PEDV infection.     

Proteome analysis of Duck Tembusu virus (DTMUV)‐infected BHK‐21 cells

Duck Tembusu virus (DTMUV) is a newly emerging pathogenic flavivirus that has caused huge economic losses to the duck industry in China since 2010. Moreover, the infection has spread rapidly, posing a potential public health concern. In this study, iTRAQ approach was first used to quantitatively identify differentially expressed cellular proteins in DTMUV‐infected BHK‐21 cells which are usually employed to produce veterinary vaccines for DTMUV, as well as other flaviviruses by serial passage. We identified 192 differentially expressed cellular proteins, including 11 upregulated and eight downregulated proteins at 24 h postinfection (hpi), as well as 25 upregulated and 151 downregulated proteins at 48 hpi, of which TLR9, DDX3X, and DDX5 may play important roles in virus propagation. Further, DDX3X could inhibit DTMUV replication by modulating the IFN pathway via TBK1. In conclusion, our study is the first to analyze the protein profile of DTMUV‐infected cells by quantitative proteomics. We believe that our findings provide valuable information in better understanding the host response to DTMUV infection. These findings are particularly important in the development of vaccine‐based strategies.     

SILAC‐based quantitative proteomic analysis of secretome of Marc‐145 cells infected with porcine reproductive and respiratory syndrome virus

Porcine reproductive and respiratory syndrome virus (PRRSV) is the causative agent of PRRS, which causes severe reproductive failure in sows, respiratory disease in young and growing pigs, and enormous economic losses to the global swine industry. In this study, SILAC combined with MS/MS was used to quantitatively identify the secretory proteins differentially expressed in PRRSV‐infected Marc‐145 cells compared with mock‐infected controls. In total, we identified 204 secretory proteins showing significant differences in infected cells (163 upregulated, 41 downregulated). Intensive bioinformatic analysis of secretome data revealed that PRRSV infection strongly activated nonclassical protein secretion, especially vesicle‐mediated release of exosomal proteins, including different danger‐associated molecular pattern molecules and the majority of secreted proteins involved in protein binding and transport, regulation of response to stimulus, metabolic processes, and immune responses. According to the functional proteins analysis, we speculate that proteins functioning in binding, transport, and the immune response are exploited by PRRSV to facilitate virus replication and immune evasion. Our study for the first time analyzes the secretory protein profile of PRRSV‐infected Marc‐145 cells and provides valuable insight into the host response to PRRSV infection.     

ORF3蛋白促进猪流行性腹泻病毒在Vero细胞上的增殖

【背景】猪流行性腹泻(Porcine epidemic diarrhea,PED)是由猪流行性腹泻病毒(Porcine epidemic diarrhea virus,PEDV)感染猪而引起的一种急性肠道传染病,常导致病猪水样腹泻、呕吐、脱水。自2010年起,其大规模的暴发给养猪业造成巨大的经济损失。由于对PEDV免疫机理及侵入机制知之甚少,至今仍缺乏有效的PED防治措施。【目的】研究orf3对PEDV体外增殖的影响。【方法】利用基于RNA同源重组的PEDV反向遗传学操作技术拯救一系列携带不同orf3基因及orf3基因缺失的重组PEDV;将获得的重组PEDV以MOI 0.1感染Vero细胞,分别于感染的第8、16、24、32、40、48 h测定其TCID_(50)并绘制病毒生长曲线;分别在感染25 h和36 h利用全自动细胞计数分析仪对6孔板内的细胞进行计数,并于感染后的第12、24、36、48 h用CCK-8试剂盒对其细胞活力进行测定。【结果】RT-PCR结果及细胞病变观察证明成功拯救到了携带不同orf3基因或orf3基因缺失的重组PEDV;进一步的免疫组化分析结果证实PEDV的ORF3蛋白可以在Vero细胞中合成。SPSS软件分析表明携带orf3基因的重组PEDV的滴度(TCID_(50))显著高于缺失orf3基因的重组PEDV的滴度;带有orf3基因的重组PEDV感染Vero细胞25 h和36 h时的活细胞数显著高于缺失orf3基因的重组病毒感染相同时间时的活细胞数;而且重组PEDV感染Vero细胞24 h后,带有orf3基因的重组PEDV的细胞活性显著高于缺失orf3基因的重组病毒。【结论】ORF3蛋白对于PEDV在Vero细胞中的增殖具有促进作用,该作用是通过延缓或减少感染细胞的死亡实现的。本研究为揭示PEDV orf3基因的功能和PEDV复制机制的研究提供理论基础。     

HMCES蛋白促进猪流行性腹泻病毒在Vero细胞中的复制

【目的】鉴定能够调控猪流行性腹泻病毒(porcine epidemic diarrhea virus,PEDV)复制的关键宿主蛋白。【方法】利用LC-MS/MS技术结合串联质谱标签(tandem mass tag,TMT)，分析PEDV感染Vero细胞36 h后和未感染组的蛋白组学差异。鉴定筛选了114个显著差异表达蛋白，其中宿主胚胎干细胞特异性5-羟甲基胞嘧啶结合蛋白(5-hydroxymethylcytosine binding,ES cell-specific protein,HMCES)显著上调。进一步构建HMCES真核表达质粒，通过蛋白免疫印迹和实时荧光定量PCR检测过表达HMCES对PEDV复制的影响；合成针对HMCES基因的特异性si RNA，利用Western blotting和RT-q PCR检测si RNA对HMCES表达的干扰效果及HMCES被干扰后对PEDV复制的影响。【结果】过表达HMCES能显著促进PEDV在Vero细胞中复制，并且复制水平随着HMCES的剂量递增呈现剂量依赖式增加；si RNA-341下调内源性HMCES表达进而抑制PEDV复制。【结论】H...     

Evaluation of purified recombinant spike fragments for assessment of the presence of serum neutralizing antibodies against a variant strain of porcine epidemic diarrhea virus

Since 2010, variant strains of porcine epidemic diarrhea virus(PEDV) have caused disasters in the pork industry. The spike(S) protein, as the major immunity-eliciting antigen, has previously been used for serological testing and has been found to correlate significantly with the results of the serum neutralization(SN) test. However, further evaluation of this method is needed as new epidemic strains of PEDV emerge. Hence, the main objective of this study was to assess sow sera and determine the correlation between enzyme-linked immunosorbent assay(ELISA) results(involving a newly isolated GDS01 virus-based ELISA and ELISAs based on seven recombinant fragments comprising overlapping S1 and partial S2 sequences) and SN titers. Furthermore, we determined the reliability of the ELISAs based on receiver operating characteristics(ROC) curve analyses. For the most promising ELISA, i.e., the SP4 ELISA, the correlation coefficient(r) and the area under curve(AUC) were determined to be 0.6113 and 0.8538, respectively. In addition, we analyzed the homology of the SP4 sequences obtained from different strains(including vaccine strains) and found that various strains showed a high degree of homology in this region. Thus, we conclude that SP4 is a promising serological testing protein for use in the field.     

Isolation and oral immunogenicity assessment of porcine epidemic diarrhea virus NH-TA2020 strain: One of the predominant strains circulating in China from 2017 to 2021

Porcine epidemic diarrhea (PED) caused by porcine epidemic diarrhea virus (PEDV) is one of the most devastating diseases in the global pig industry due to its high mortality rate in piglets. Maternal vaccines can effectively enhance the gut-mammary gland-secretory IgA axis to boost lactogenic immunity and passive protection of nursing piglets against PEDV challenge. From 2017 to 2021, we collected 882 diarrhea samples from 303 farms in China to investigate the epidemiology of PEDV. The result showed that about 52.15% (158/303) of the farms were positive for PEDV with an overall detection rate of 63.95% (564/882) of the samples. The S1 fragments of S gene from 104 strains were sequenced for the phylogenetic analysis. A total of 71 PEDV strains (68.27%) sequenced in this study were clustered into the predominant G2c subgroup, while the newly-defined G2d strains (9.62%) were identified in three provinces of China. The NH-TA2020 strain of G2c subgroup was isolated and cultured, and its infection to piglets caused watery diarrhea within 24 h, indicating its strong pathogenicity. Oral administration of NH-TA2020 strain to pregnant gilts stimulated high levels of IgA antibody in colostrum. The piglets fed by the gilts above were challenged with NH-TA2020 strain or CH–HeB-RY-2020 strain from G2d subgroup, and the clinical symptoms and virus shedding were significantly reduced compared to the mock group. Our findings suggest that G2c subgroup is the predominant branch circulating in China from 2017 to 2021. Oral administration of NH-TA2020 enhances maternal IgA and lactogenic immune responses, which confer protection against the homologous and emerging G2d PEDV strains challenges in neonates.     

猪流行性腹泻病毒反向遗传操作技术及其应用

猪流行性腹泻病毒(PEDV)是引起猪(特别是新生仔猪)急性、高度传染性消化道疾病的主要病原之一;2010年底以来,猪流行性腹泻(PED)的再次暴发给我国乃至全球养猪业造成了巨大经济损失。最近,研究者已先后建立了基于靶向RNA重组技术、细菌人工染色体(BAC)载体系统和体外连接技术的PEDV反向遗传学操作技术,为PEDV编码的蛋白质的功能、致病机制以及新型疫苗的研发开辟了新的思路。本文对PEDV反向遗传操作技术的研究进展及其在PEDV胰酶依赖性、S蛋白和ORF3蛋白的功能以及新一代疫苗研制等方面的应用现状进行了综述与展望。     

猪流行性腹泻病毒S蛋白主要抗原表位区的原核表达及间接ELISA检测方法的建立

【目的】建立一种快速、特异、敏感的检测血清中猪流行性腹泻病毒(PEDV)抗体的方法。【方法】利用生物学软件对PEDV S蛋白进行抗原位点分析,选择S蛋白的主要抗原表位区进行原核表达。采用SDS-PAGE和Western-blot对重组蛋白进行鉴定及抗原性分析。用纯化的重组蛋白作为包被抗原,经过条件优化、特异性和重复性试验,建立一种针对血清中PEDV抗体的间接ELISA检测方法。【结果】表达了重组S蛋白,重组的S蛋白能与PEDV阳性血清发生特异性反应,并建立一种基于重组S蛋白的间接ELISA检测方法。组内及组间变异系数均小于10%,重复性较好。建立的间接ELISA检测方法分别与商品化PEDV抗体检测试剂盒和Western-blot鉴定结果相比,两者符合率分别为86.67%和88.89%。【结论】建立的间接ELISA方法可以用于PEDV抗体的检测。     

Antiviral escin derivatives from the seeds of Aesculus turbinata Blume (Japanese horse chestnut)

Porcine epidemic diarrhea virus (PEDV) causes severe diarrhea and high fatality of piglets, influencing the swine industry. Japanese horse chestnut (seed of Aesculus turbinata) contains many saponin mixtures, called escins, and has been used for a long time as a traditional medicinal plant. Structure-activity relationship (SAR) studies on escins have revealed that acylations at C-21 and C-22 with angeloyl or tigloyl groups were important for their cytotoxic effects. However, the strong cytotoxicity of escins makes them hard to utilize for other diseases and to develop as nutraceuticals. In this research, we investigated whether escin derivatives 1–7 (including new compounds 2, 3, 5 and 6), without the angeloyl or tigloyl groups and with modified glycosidic linkages by hydrolysis, have PEDV inhibitory effects with less cytotoxicity. Compounds 1–7 had no cytotoxicity at 20 μM on VERO cells, while compounds 8–10 showed strong cytotoxicity at similar concentrations on PEDV. Our results suggest that escin derivatives showed strong inhibitory activities on PEDV replication with lowered cytotoxicity. These studies propose a method to utilize Japanese horse chestnut for treating PEDV and to increase the diversity of its bioactive compounds.     

A Virulent PEDV Strain FJzz1 with Genomic Mutations and Deletions at the High Passage Level Was Attenuated in Piglets via Serial Passage In Vitro

Virologica Sinica - Highly virulent porcine epidemic diarrhea virus (PEDV) strains re-emerged and circulated in China at the end of 2010, causing significant economic losses in the pork industry...     

猪流行性腹泻病毒(PEDV)与抗病毒天然免疫

猪流行性腹泻病毒(porcine epidemic diarrhea virus,PEDV)是引起猪流行性腹泻病等肠道疾病的一种动物冠状病毒.PEDV与宿主系统相互作用,特别是其对宿主抗病毒天然免疫调节作用和机制是目前动物冠状病毒研究的基础科学问题之一.基于作者近几年来对人类重要冠状病毒对宿主抗病毒天然免疫系统调节作用的研究,本文对PEDV基因组与编码蛋白主要功能以及PEDV调节宿主抗病毒天然免疫反应及其可能机制的进展和现状进行了分析.与人类冠状病毒相似,PEDV编码的木瓜样蛋白酶(papain like protease,PLP)是一个多功能蛋白酶,除了蛋白酶活性外,还具有去泛素化酶(DUB)活性和宿主干扰素拮抗活性,是PEDV编码的一种新型病毒来源DUB和宿主干扰素拮抗蛋白.这些研究为阐明PEDV对宿主抗病毒天然免疫反应调节作用和其致病机制提供了重要的理论依据,为研制新型PEDV免疫防治措施提供了重要理论基础.     

Expression of neutralizing epitope of porcine epidemic diarrhea virus in potato plants

Transgenic plants expressing recombinant proteins from pathogenic microorganisms provide an inexpensive edible vaccine for induction of local immunity. A neutralizing epitope of porcine epidemic diarrhea virus (PEDV) gene containing SEKDEL was expressed in potato using Agrobacterium-mediated transformation system. Putative transgenic plants were regenerated, and genomic PCR confirmed the presence of PEDV epitope gene in the potato plants. Based on the ELISA results, epitope of PEDV protein made up approximately 0.1% of the total soluble tuber protein.     

Cloning and sequence analysis of the Korean strain of spike gene of porcine epidemic diarrhea virus and expression of its neutralizing epitope in plants

Porcine epidemic diarrhea virus (PEDV) causes acute diarrhea and dehydration in pigs and leads to death with a high mortality rate, which has been reported notably in Korea. The spike (S) gene of the PEDV isolated in Korea was cloned and sequenced. The nucleotide sequence encoding the entire S gene open reading frame of Korean strain was 4161 bases long encoding 1387 amino acids. The neutralizing epitope of Korean PEDV (K-COE) was expressed in tobacco plants using Agrobacterium-mediated protein transformation. The recombinant K-COE constituted up to 0.1% of the total soluble protein in the leaves of transgenic tobacco plants. The result of this study opens the way for the development of an edible vaccine against PEDV infection in Korea.     

猪流行性腹泻病毒核衣壳蛋白与感染细胞核磷蛋白的共定位分析

【目的】阐明猪流行性腹泻病毒(PEDV)核衣壳蛋白与病毒感染细胞核仁成分B23.1蛋白的共定位特征。【方法】分别参照GenBank中PEDV CV777株的N基因序列(AF353511)和编码人细胞核仁蛋白B23.1基因序列(BC050628.1),设计、合成扩增N基因和B23.1基因的引物,利用RT-PCR技术扩增了N基因和Vero E6细胞的B23.1基因的cDNA,分别克隆到真核表达载体pAcGFP1-C1和pDsRed2-N1,获得重组质粒pAcGFP1-C1/N和pDsRed2-N1/B23.1,共转染Vero E6细胞。【结果】Western blots分析表明这些融合蛋白在转染的Vero E6细胞中表达;共聚焦显微镜技术分析表明在共转染Vero E6细胞中猪流行性腹泻病毒N蛋白与Vero E6细胞核磷蛋白B23.1发生共定位。【结论】为进一步鉴定PEDV N蛋白中核仁定位信号和N蛋白核仁定位机制提供可靠依据。     

猪流行性腹泻病毒非结构蛋白nsp9互作宿主蛋白对病毒复制的影响

猪流行性腹泻病毒(porcineepidemicdiarrheavirus,PEDV)导致仔猪和育肥猪发生急性肠道传染病,是危害养猪业最重要的病原体之一。目前发现PEDV能够编码至少16个非结构蛋白,其中nsp9能够结合至单链RNA中,但是其功能机制还不清楚。本研究通过免疫沉淀联合蛋白质谱分析,筛选出潜在的与PEDV nsp9宿主互作蛋白。通过进一步免疫共沉淀(co-immunoprecipitation, Co-IP)和激光共聚焦技术确认了nsp9与热休克蛋白HSPA8、Toll相互作用蛋白Tollip、热休克蛋白HSPA9、线粒体外膜蛋白TOMM70互作。其中,过表达HSPA8使nsp9的表达量先上调而后下调,并促进PEDV的增殖;过表达Tollip使nsp9的表达量显著上调,并抑制PEDV的增殖;过表达TOMM70使nsp9的表达量显著下调,但对PEDV的增殖无明显影响;过表达HSPA9对nsp9的表达以及PEDV的增殖均无明显影响。该研究为探索nsp9互作蛋白在PEDV感染过程中的功能提供了重要信息。     

Structure and immune recognition of the porcine epidemic diarrhea virus spike protein

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