Selenium blocks porcine circovirus type 2 replication promotion induced by oxidative stress by improving GPx1 expression

Porcine circovirus type 2 (PCV2) is recognized as a key infectious agent in postweaning multisystemic wasting syndrome (PMWS), but not all pigs infected with PCV2 will develop PMWS. The aim of this work was to explore the relationships among PCV2 infection, oxidative stress, and selenium in a PK-15 cell culture model of PCV2 infection. The results showed that oxidative stress induced by H(2)O(2) treatment increased PCV2 replication as measured by PCV2 DNA copies and the number of infected cells. Furthermore, PCV2 replication was inhibited by selenomethionine (SeMet) at a high concentration (6μM) and the increase in PCV2 replication by oxidative stress was blocked by SeMet at physiological concentrations (2 or 4μM). PCV2 infection caused a decrease in glutathione peroxidase 1 (GPx1) activity but an increase in GPx1 mRNA levels, suggesting that GPx1 may represent an important defense mechanism during PCV2 infection. SeMet did not significantly block the promotion of PCV2 replication in GPx1-knockdown cells. This observation correlates with the observed influence of SeMet on GPx1 mRNA and activity in GPx1-knockdown cells, indicating that GPx1 plays a key role in blocking the promotion of PCV2 replication. We conclude that differences in morbidity and severity of PMWS observed on different pig farms may be related to variations in oxidative stress and that selenium has a potential role in the control of PCV2 infection.     

硒对猪细小病毒体外增殖抑制作用的研究

本文以PK-15细胞为模型,研究了亚硒酸钠、硒蛋氨酸和海藻硒多糖等三种硒化合物对猪细小病毒体外复制 的抑制作用,以及还原型谷胱甘肽、D-甘露醇等氧自由基清除剂对不同来源硒的抑制病毒作用的影响。结果表明: 三种硒化合物对猪细小病毒在PK-15中的复制呈现不同程度的抑制作用,在相同浓度时其强度依次为硒蛋氨酸、 亚硒酸钠、海藻硒多糖,随着浓度的增加,其抑制作用逐渐增强,呈剂量依赖性关系。还原型谷胱甘肽和甘露醇均 有增强硒的抑制病毒复制作用,两者同时添加时,协同增强硒的抑制病毒复制作用。     

Porcine Circovirus Type 2 Induces Autophagy via the AMPK/ERK/TSC2/mTOR Signaling Pathway in PK-15 Cells

Porcine circovirus type 2 (PCV2) uses autophagy machinery to enhance its replication in PK-15 cells. However, the underlying mechanisms are unknown. By the use of specific inhibitors, RNA interference, and coimmunoprecipitation, we show that PCV2 induces autophagy in PK-15 cells through a pathway involving the kinases AMP-activated protein kinase (AMPK) and extracellular signal-regulated kinase 1/2 (ERK1/2), the tumor suppressor protein TSC2, and the mammalian target of rapamycin (mTOR). AMPK and ERK1/2 positively regulate autophagy through negative control of the mTOR pathway by phosphorylating TSC2 in PCV2-infected PK-15 cells. Thus, PCV2 might induce autophagy via the AMPK/ERK/TSC2/mTOR signaling pathway in the host cells, representing a pivotal mechanism for PCV2 pathogenesis.     

Functional analysis of the interferon-stimulated response element of porcine circovirus type 2 and its role during viral replication in vitro and in vivo

ABSTRACT: Background, Porcine circovirus type 2 (PCV2) is associated with post-weaning multi-systemic wasting syndrome (PMWS) in young weaned pigs. Immune stimulation was found to activate the replication of PCV2 and exacerbate the clinical outcome of the infection. Proper amount of interferon-alpha (IFN-alpha) is able to enhance PCV2 infection and production in Porcine kidney-15 (PK-15) cells when administered after inoculation; Methods, in the present study, luciferase reporter assays, construction of mutant viruses, Analysis the replication efficiency and the response to IFN-alpha treatment in PK-15 cells and animal experiments were carried out to analyze the function of interferon-stimulated response element (ISRE) of PCV2 and its role during viral replication in vitro and in vivo; Results, a functional viral ISRE sequence, 5`-CTGAAAACGAAAGA-3`, was identified in Rep gene promoter (Prep) of PCV2. PCV2 Prep is composed of two mini promoters, the proximal one span the sequence +1 to -106, containing an ISRE while the distal mini promoter is composed of three tandem GC box like sites locate at -85 to -194. It was demonstrated that viral ISRE is necessary for porcine IFN-alpha initiated luciferase expression enhancement and it plays an important role in affecting the replication efficiency of PCV2 in vivo and in vitro; Conclusions, These findings provide a theoretical basis for the Phenomenon of immunostimulation is able to enhance PCV2 infection, and improve the understanding of the complicated mechanisms involved in the host and pathogen interactions of PCV2.     

猪瘟病毒C株共感染口蹄疫病毒影响口蹄疫病毒复制

【背景】猪瘟(Classical Swine Fever)是由猪瘟病毒(Classical Swine Fever Virus,CSFV)引起的猪高度接触性传染病,致死率极高。在临床中存在着CSFV与猪其他病原菌共感染的情况,例如CSFV与口蹄疫病毒(Foot-and-Mouth Disease Virus,FMDV)的共感染。【目的】利用CSFV与FMDV共感染猪源宿主细胞,研究CSFV与FMDV共感染对FMDV病毒复制的影响。【方法】构建体外共感染细胞模型,在正常PK-15细胞上进行CSFV共感染FMDV实验,通过观察细胞病变效应(Cytopathic Effect,CPE)、实时荧光定量PCR(RT-qPCR)、Western Blot、间接免疫荧光检测CSFV和FMDV共感染及FMDV单独感染情况下FMDV复制水平的差异。利用RT-qPCR筛选鉴定能够影响FMDV复制的CSFV蛋白。【结果】CSFVC株共感染FMDV能够抑制FMDV的复制,而且灭活的CSFV同样抑制FMDV的复制。通过筛选鉴定出CSFV的C蛋白能够抑制FMDV复制。【结论】研究发现CSFV C株共感染FMDV能够抑制FMDV复制,而其C蛋白具有抑制FMDV复制的能力。     

Inhibition of endosome-lysosome system acidification enhances porcine circovirus 2 infection of porcine epithelial cells

Recently, Misinzo et al. (G. Misinzo, P. Meerts, M. Bublot, J. Mast, H. M. Weingartl, and H. J. Nauwynck, J. Gen. Virol. 86:2057-2068, 2005) reported that inhibiting endosome-lysosome system acidification reduced porcine circovirus 2 (PCV2) infection of monocytic 3D4/31 cells. The present study examined the effect of inhibiting endosome-lysosome system acidification in epithelial cells, since epithelial cells support PCV2 infection in vivo and are used in culturing PCV2 in vitro. Ammonium chloride (NH₄Cl), chloroquine diphosphate (CQ), and monensin were used to inhibit endosome-lysosome system acidification. NH₄Cl, CQ, or monensin increased PCV2 (Stoon-1010) infection by 726% ± 110%, 1,212% ± 34%, and 1,100% ± 179%, respectively, in porcine kidney (PK-15) cells; by 128% ± 7%, 158% ± 3%, and 142% ± 11% in swine kidney cells; by 160% ± 28%, 446% ± 50%, and 162% ± 56% in swine testicle (ST) cells; and by 313% ± 25%, 611% ± 86%, and 352% ± 44% in primary kidney epithelial cells. Similarly, increased PCV2 infection was observed with six other PCV2 strains in PK-15 cells treated with endosome-lysosome system acidification inhibitors. The mechanism behind increased PCV2 infection was further investigated in PK-15 cells using CQ. PCV2 infection of PK-15 cells was increased only when CQ was added early during PCV2 infection. CQ did not affect PCV2 virus-like particle (VLP) attachment to PK-15 cells but increased the disassembly of internalized PCV2 VLPs. In untreated PK-15 cells, internalized PCV2 VLPs localized within the endosome-lysosome system. PCV2 infection of untreated 3D4/31 and PK-15 cells and CQ-treated PK-15 cells was blocked by a serine protease inhibitor [4-(2-aminoethyl) benzenesulfonyl fluoride hydrochloride] but not by aspartyl protease (pepstatin A), cysteine protease (E-64), and metalloprotease (phosphoramidon) inhibitors. These results suggest that serine protease-mediated PCV2 disassembly is enhanced in porcine epithelial cells but inhibited in monocytic cells after inhibition of endosome-lysosome system acidification.     

猪圆环病毒2型双拷贝感染性DNA的构建及体外拯救

感染性分子克隆是研究病毒复制和致病机制的有力工具。本研究应用PCR诱变技术解决了外源片段易于自连的难题,成功将2个PCV2SD1株全基因组(DQ346683)头尾相接插入到真核生物表达载体pSK的多克隆位点中,构建重组质粒pSK-2PCV2;另外课题组成功构建含单个PCV2全基因组的pSK-PCV2和自身环化质粒ds-PCV2。将所得3种质粒分别转染无PCV污染的PK-15细胞系,经10次连续传代后,间接免疫荧光试验检测显示三者均在细胞核中聚集大量的病毒抗原;经RT-PCR检测都有PCV2特异性基因转录;透射电镜下可观察到直径约为17～20nm的典型PCV2病毒粒子;经测序鉴定所拯救出的病毒与亲本病毒核苷酸同源性为100%。拯救出的PCV2与亲本病毒具有相同的病毒学及分子生物学特性。本研究应用PCR诱变技术成功构建PCV2双拷贝感染性克隆,并经体外拯救证实其具有感染性,为进行PCV2分子特性及致病机理研究打下了基础。     

猪1型圆环病毒全基因组克隆及其感染性初步鉴定

猪圆环病毒(porcine circovirus,PCV)是由Tis-cher等[1]于1974年在PK-15细胞中发现,当时认为是一种细胞污染物,后被证实为一种新的病毒。病毒粒子为20面体对称,无囊膜,以滚环方式进行复制,可在PK-15细胞上生长但不引起细胞病变。其基因组是一种环状、单股副链DNA,与鸡贫血病毒(chicken anemia virus,CAV)、鹦鹉喙羽病毒(psittacine beak and feather disease circovirus,PBF-DAV)和人的TT病毒(transfusion transmittedvirus,TTV)同属圆环病毒科。猪圆环病毒有两种基因型即:PCV1和PCV2。前者广泛存在于猪源肾细胞中,在猪的组织…     

Replacement of the Replication Factors of Porcine Circovirus (PCV) Type 2 with Those of PCV Type 1 Greatly Enhances Viral Replication In Vitro

Porcine circovirus type 1 (PCV1), originally isolated as a contaminant of PK-15 cells, is nonpathogenic, whereas porcine circovirus type 2 (PCV2) causes an economically important disease in pigs. To determine the factors affecting virus replication, we constructed chimeric viruses by swapping open reading frame 1 (ORF1) (rep) or the origin of replication (Ori) between PCV1 and PCV2 and compared the replication efficiencies of the chimeric viruses in PK-15 cells. The results showed that the replication factors of PCV1 and PCV2 are fully exchangeable and, most importantly, that both the Ori and rep of PCV1 enhance the virus replication efficiencies of the chimeric viruses with the PCV2 backbone.Porcine circovirus (PCV) is a single-stranded DNA virus in the family Circoviridae (34). Type 1 PCV (PCV1) was discovered in 1974 as a contaminant of porcine kidney cell line PK-15 and is nonpathogenic in pigs (31-33). Type 2 PCV (PCV2) was discovered in piglets with postweaning multisystemic wasting syndrome (PMWS) in the mid-1990s and causes porcine circovirus-associated disease (PCVAD) (1, 9, 10, 25). PCV1 and PCV2 have similar genomic organizations, with two major ambisense open reading frames (ORFs) (16). ORF1 (rep) encodes two viral replication-associated proteins, Rep and Rep′, by differential splicing (4, 6, 21, 22). The Rep and Rep′ proteins bind to specific sequences within the origin of replication (Ori) located in the intergenic region, and both are responsible for viral replication (5, 7, 8, 21, 23, 28, 29). ORF2 (cap) encodes the immunogenic capsid protein (Cap) (26). PCV1 and PCV2 share approximately 80%, 82%, and 62% nucleotide sequence identity in the Ori, rep, and cap, respectively (19).In vitro studies using a reporter gene-based assay system showed that the replication factors of PCV1 and PCV2 are functionally interchangeable (2-6, 22), although this finding has not yet been validated in a live infectious-virus system. We have previously shown that chimeras of PCV in which cap has been exchanged between PCV1 and PCV2 are infectious both in vitro and in vivo (15), and an inactivated vaccine based on the PCV1-PCV2 cap (PCV1-cap2) chimera is used in the vaccination program against PCVAD (13, 15, 18, 27).PCV1 replicates more efficiently than PCV2 in PK-15 cells (14, 15); thus, we hypothesized that the Ori or rep is directly responsible for the differences in replication efficiencies. The objectives of this study were to demonstrate that the Ori and rep are interchangeable between PCV1 and PCV2 in a live-virus system and to determine the effects of swapped heterologous replication factors on virus replication efficiency in vitro.     

Two amino acid mutations in the capsid protein of type 2 porcine circovirus (PCV2) enhanced PCV2 replication in vitro and attenuated the virus in vivo

Porcine circovirus type 2 (PCV2) is the primary causative agent of postweaning multisystemic wasting syndrome (PMWS) in pigs. To identify potential genetic determinants for virulence and replication, we serially passaged a PCV2 isolate 120 times in PK-15 cells. The viruses harvested at virus passages 1 (VP1) and 120 (VP120) were biologically, genetically, and experimentally characterized. The PCV2 VP120 virus replicated in PK-15 cells to a titer similar to that of the PK-15 cell line-derived nonpathogenic PCV1 but replicated more efficiently than PCV2 VP1 with a difference of about 1 log unit in the titers. The complete genomic sequences of viruses at passages 0, 30, 60, 90, and 120 were determined. After 120 passages, only two nucleotide mutations were identified in the entire genome, and both were located in the capsid gene: the mutations were located at nucleotide positions 328 (C328G) and 573 (A573C). The C328G mutation, in which a proline at position 110 of the capsid protein changed to an alanine (P110A), occurred at passage 30 and remained in the subsequent passages. The second mutation, A573C, resulting in a change from an arginine to a serine at position 191 (R191S), appeared at passage 120. To experimentally characterize the VP120 virus, 31 specific-pathogen-free pigs were randomly divided into three groups. Ten pigs in group 1 received phosphate-buffered saline as negative controls. Each pig in group 2 (11 pigs) was inoculated intramuscularly and intranasally with 10(4.9) 50% tissue culture infective doses (TCID(50)) of PCV2 VP120. Each pig in group 3 (10 pigs) was similarly inoculated with 10(4.9) TCID(50) of PCV2 VP1. Viremia was detected in 9 of 10 pigs in the PCV2 VP1 group with a mean duration of 3 weeks, but in only 4 of 11 pigs in the PCV2 VP120 group with a mean duration of 1.6 weeks. The PCV2 genomic copy numbers in serum in the PCV2 VP1 group were significantly higher than those in the PCV2 VP120 group (P < 0.0001). Gross and histopathologic lesions in pigs inoculated with PCV2 VP1 were more severe than those inoculated with PCV2 VP120 at both day 21 and 42 necropsies (P = 0.0032 and P = 0.0274, respectively). Taken together, the results from this study indicated that the P110A and R191S mutations in the capsid of PCV2 enhanced the growth ability of PCV2 in vitro and attenuated the virus in vivo. This finding has important implications for PCV2 vaccine development.     

Copper may interact with selenite extracellularly in cultured HT-29 cells

Previous studies have demonstrated that copper (15.7 micromol/L) can inhibit selenite (12.6 micromol/L)-induced cytotoxicity and apoptosis in HT-29 cells. However, the exact nature of the interactions between selenium and copper is not fully understood. In this study, the effect of copper on the cell cycle arrest induced by selenite or selenocystine was examined. Both selenite and selenocystine were effective in inhibition of cell growth and cell cycle progression. Cell cycle analysis revealed that selenite (3-5 micromol/L) caused a decrease in G1 phase cells that corresponded with an increase in S and G2 phase cells, and that 0.625 or 1.25 micromol/L copper sufficiently inhibited selenite-induced cell cycle arrest. In contrast, selenocystine caused an increase in G1 phase cells that corresponded with a decrease in S and G2 phase cells. Interestingly, 0.625 or 1.25 micromol/L copper did not inhibit selenocystine-induced cell cycle arrest. In addition, cell free gel shift assay demonstrated that selenite suppressed the inhibitory effect of copper on SP-1 DNA binding. Furthermore, although 5 micromol/L selenite in culture media significantly increased the intracellular selenium content, 1.25 micromol/L copper sulfate blocked this increase of the intracellular selenium content. Collectively, these data demonstrate that selenite and selenocystine cause cell cycle arrest via distinct mechanisms, and suggest that copper may interact with selenite extracellularly, which represents the basis of antagonism between copper sulfate and selenite.     

Serum selenium levels in healthy slovak children and adolescents

Blood serum selenium levels were measured in 891 healthy children and adolescents (aged 11–18 yr, 450 girls and 441 boys) residing in both rural and urban areas from eight regions of Slovakia. Subjects were divided into four age groups (11–12 y, 13–14 y, 15–16 y, and 17–18 y). Serum selenium concentration was determined by the electrothermal atomic absorption spectrometric method. The mean (±SD) serum selenium concentrations were 0.750 ±0.255 μmol/L in girls and 0.773 ±0.235 μmol/L in boys. A large proportion of the individuals (25.7% in girls, 18.1% in boys) exhibited serum selenium levels under 0.57 μmol/L (45 μg/L). An increasing trend of the serum selenium values with age has been observed in both boys (p < 0.01) and girls (p < 0.05). Boys had higher serum selenium levels in the all age groups but the differences were not statistically significant.     

Interaction of porcine circovirus type 2 replication with intracellular redox status in vitro

Abstract

Objectives

Redox status influences replication of some viruses but its effect on porcine circovirus type 2 (PCV2), the primary causative agent of the emerging swine disease post-weaning multisystemic wasting syndrome is not known. The interaction of PCV2 replication with intracellular redox status in PK15 cells was examined in this study.

Methods

Intracellular glutathione (GSH) was measured spectrophotometrically by reaction with 5, 5′-dithiobis (2-nitrobenzoic acid). Total superoxide dismutase activity (SOD) was assayed by inhibition of oxyamine oxidation by the xanthine oxidase system. Malondialdehyde (MDA) was assayed spectrophotometrically using the thiobarbituric acid reaction. Both quantification of PCV2 DNA by real-time polymerase chain reaction and indirect immunofluorescence of PCV2-infected cells were used to evaluate the replication of PCV2.

Results

Both GSH and SOD decreased significantly at 48 hours after PCV2 infection, whereas MDA concentration increased significantly after 48 hour post-infection. Furthermore, PCV2 replication in PK15 cells was significantly impaired after the elevation of intracellular GSH through treatment with the antioxidant N-acetyl-l-cysteine (NAC), a precursor in GSH synthesis. In contrast, PCV2 replication in PK15 cells was enhanced after reduction of GSH levels through H₂O₂-mediated oxidation. In addition, NAC treatment blocked the increase of virus replication induced by H₂O₂.

Conclusions

This study suggests that PCV2 infection induces oxidative stress and that intracellular redox status influences PCV2 replication in PK15 cells.     

In vitro intragenomic rearrangement of porcine circovirus type 2

We report here for the first time the genome sequence of a rearranged porcine circovirus type 2 (PCV2) strain, CH-IVT1, isolated from PCV2-infected PK-15 cells. The complete circular genome of the CH-IVT1 is 605 nucleotides (nt) in length. The finding will help us to understand the molecular evolution of PCV2 and the relationship between PCV2 and PCV-associated diseases.     

贡蕉胚性细胞悬浮系的建立和植株再生

鲜食蕉品种的高度不育性和多倍性制约了用传统育种方法培育生产实践中所需的新品种 ,建立稳定的胚性细胞悬浮系是香蕉生物技术育种的前提。以目前国内尚未建立该体系的鲜食蕉品种贡蕉 (AA)未成熟雄花序的第 1～ 15位花梳为外植体 ,对胚性细胞悬浮系的建立和植株再生体系进行了优化。结果表明 ,5～ 6个月的培养后可获得分生小球体和浅黄色、松散易碎的胚性愈伤组织。 9μmol/L 2,4 D对外植体愈伤组织的诱导效果最好 ,诱导率为 40.96 % ,胚性愈伤组织诱导率可达7.45 % ,其中5.79%的胚性愈伤组织来源于第 6～12号位置的花梳。胚性愈伤组织悬浮培养后 ,通过 3个月的筛选和继代培养 ,可得到均质的胚性细胞悬浮系。该培养体系合适继代周期为 15d ,继代时合适的起始接种量为每 30mL培养基加 2mLPCVECS。培养 6个月的胚性细胞在体细胞胚诱导培养基中培养15d后可见到白色半透明体细胞胚的发生 ,体细胞胚诱导率为 2 80× 10³个 mLPCV。成熟体细胞胚的萌发率为 17 2 8% ,其中发育成正常的再生植株的百分率为 14 16 %。     

抗微生物脂肽体外抗PRV和PPV的研究

本试验研究了枯草芽孢杆菌fmbJ株产生的抗微生物脂肽(Antimicrobiallipopeptide,AMI)的体外抗伪狂犬病病毒(Pseudorabiesvirus,PRV)、猪细小病毒(Porcineparvovirus,PPV)南京株活性并对其可能的机理进行了初步探讨。结果表明该抗微生物脂肽对猪肾(PorcineKidney,PK-15)细胞的半数中毒浓度(MedianToxicosisDose,TD50)和最大无毒浓度(TD0)分别为47.57mg/L、18.9mg/L;对PRV株、PPV南京株所致细胞病变效应(CytopathicEffects,CPE)有明显的抑制作用,可使细胞存活率显著升高;但不能抑制PRV株、PPV南京株在PK-15细胞上的感染和复制。由此可知,该抗微生物脂肽可以直接作用于PRV株、PPV南京株,从而抑制其对PK-15细胞的感染作用,其作用效果显著低于抗病毒药物阿昔洛韦(Acyclovir,ACV),但由于其对PK-15细胞毒性较弱,可作为一种抗病毒药物进行进一步开发研究。     

Quantitative proteomics using stable isotope labeling with amino acids in cell culture reveals protein and pathway regulation in porcine circovirus type 2 infected PK-15 cells

The infection of host cells by porcine circovirus type 2 (PCV2) leads to extensive modulation of the gene expression levels of target cells. To uncover the pathogenesis and virus-host interactions of PCV2, a quantitative proteomic study using the stable isotope labeling with amino acids in cell culture (SILAC), coupled with mass spectrometry, was performed on PCV2-infected PK-15 cells. The SILAC-based approach identified 1341 proteins, 163 of which showed significant change in level at 72 h after infection (79 up-regulated and 84 down-regulated). The modulated proteins included a number of proteins involved in substrate transport, cytoskeletal changes, and the stress response. Changes in the expression levels of selected proteins were verified by Western blot analysis. Ingenuity Pathway Analysis was used to reveal protein and interactive pathway regulation in response to PCV2 infection. Functional network and pathway analyses could provide insights into the complexity and dynamics of virus-host cell interactions and may accelerate our understanding of the mechanisms of PCV2 infection.     

嵌合猪圆环病毒PCV1-2的构建及其感染性初步鉴定

猪Ⅱ型圆环病毒(PCV2)是当前严重危害养猪业的重要病原之一。目前,世界上还没有有效疫苗用于该病毒的免疫预防。该研究利用PCR方法,将PCV2的ORF2基因替换猪Ⅰ型圆环病毒(PCV1)的ORF2基因,构建了以PCV1基因组为骨架的嵌合病毒(PCV1-2)分子克隆(pSK2PCV1-2)。将该分子克隆转染PK-15细胞并连续盲传5代,用RT-PCR方法可以在转染后盲传的细胞中检测到PCV1的ORF1 mRNA和PCV2的ORF2 mRNA,但检测不到PCV1的ORF2 mRNA和PCV2的ORF1 mRNA。间接免疫荧光检测显示在盲传第5代的细胞中有PCV2 ORF2蛋白的表达,表达蛋白主要分布于细胞核。该研究初步证实构建的PCV1-2分子克隆转染细胞后可以形成具有感染性的嵌合病毒,从而为更深入研究嵌合病毒生物学特性奠定了基础。