Background
Classical swine fever (CSF) is a highly contagious fatal infectious disease that primarily affects pigs caused by classical swine fever virus (CSFV) [
1‐
3]. CSF is also one of the notifiable diseases that must be reported by OIE [
4]. Due to the great economic losses in pig industry, Chinese government announced priority to prevent and control this major disease and sets the goal of elimination of CSF in all breeder farms by the end of 2020. However, there are still many challenges to achieve this goal [
5], for example, currently CSF of China native showed characters of wide prevalence, immunosuppression, high frequency of outbreak and persistent infection. Persistent infection is one of the major reasons that CSF have been long circulating throughout China [
6].
Therefore, it is important to study the replication circle which can pay the way to reveal the pathogenic mechanism of CSFV infection [
7,
8]. However, the study of virus replication circle, particularly in the cell and viral RNA levels, can constitute an important basis for revealing the infection mechanism. In this study, we established a novel ViewRNA ISH method to reveal the molecular location and dynamic distribution of CSFV on the infected PK15 cells at RNA level.
CSFV attaches the host cell mainly through fusion of its membrane glycoprotein E
rns and E2 with the host cell membrane, and then enter the host cell by the receptor-mediated endocytosis [
9]. Cell morphology research shows that CSFV replicate mainly in the nucleus periphery surrounding with rich membrane, while mature virions mainly distribute in the amorphous envelope in the cytoplasm. It is well documented that CSFV may release from nucleus periphery and then enter in host cytoplasm [
10]. Studies focused on the immune response and viral load in the process of CSFV infection confirmed that CSFV can be infected and replicated in most of pig tissue and organs and viral load is related with the course of disease [
11]. However, the dynamic distribution of CSFV RNA is still unknown in the infected cells, or the current methods are ideal enough to study the dynamic distribution of CSFV RNA. For example, electron microscope and IHC can only detect mature virus particle and the detection sensitivity is low. Quantitative real-time PCR can only detect the total RNA, and is not suited to study the dynamics of RNA replication in single infected cell.
ViewRNA ISH is a novel RNA ISH technology developed based on ISH, which has been widely used in cancer study [
12,
13], and also is used to verify the existence of new type small RNA virus in Turkey poultry [
14]. Recently, researchers studied the replication of Ebola viral RNA in infected cell and found that the virus attach and enter into the target cell less than 6 h, and the RNA completed the replication and release into parietal cell during 12–48dph [
15]. In present experiment, we used ViewRNA ISH to study the replication and dynamic distribution of medium virulence strain CSFV RNA in PK15 cell at RNA level, which lays an important theoretical basis for studying CSFV pathogenic mechanism.
Discussion
In situ hybridization (ISH) is a powerful technique for detecting nucleic acids in cells and tissues. Here we describe ViewRNA ISH that are optimized for detection of CSFV RNA in infected PK15 cell. The operational processes of ViewRNA ISH including The assay includes three steps of sample processing, probe hybridization and visualization.
The relative position of viral RNA and nucleus can be observed under fluorescence confocal microscopy which has the function of obtaining different spectrum section fluorescence signals at the same time and processing obtained cascading effect photos with Volocity Demo software, overcoming the disadvantages of low signal group strength and worse sensitivity of traditional fluorescence in situ hybridization (FISH), and the sensitivity is obviously higher than FAT and IHC. ViewRNA ISH can detect CSFV RNA gradually transferring from karyon to cytoplasm at 6 ~ 9hpi, but FAT was unable to detect the viral E2 protein in cytoplasm until 16 hpi, indicating that ViewRNA ISH is better than FAT and IHC to study the dynamic distribution of CSFV RNA in the infected cell. The specific probe make this method very efficient and there were no cross reactions with BVDV, PPV, PRV and PCV-2 swine virus.
As we know that CSFV entered cells by endocytosis, and replicated in the cytoplasm. The mature viruses were released from infected cells by budding or exocytosis. But viral RNA can also be detected in the karyon at the early infection stage in this experiment, suggesting it may generate some proteins which related with RNA self-duplication in cell nucleus. It was reported that heterogeneous nuclear ribonucleoprotein (hnRNPs) existing in nucleoplasm, taking part in the synthesis processing of viral RNA. For example, hnRNpAI participate in replication of hepatitis C virus. Knockout of the hnRNpAI, the efficiency of HCV RNA replication would be reduced [
16]. Some research on CSFV infected PK-15 cells showed that the expression levels of four types hnRNPs were changed indicated the replication of CSFV may require the hnRNPs to synthesis and processviral RNA [
17]. In addition, the viral RNA entering into nucleus is related with the nuclear localization of CSFV after infected the host cell [
18,
19]. As both flavivirus and CSFV are classified into the same flaviviridae family, it is reported that the nuclear localization of flavivirus C protein in connection with virus replication. The N terminal of C protein may combine with the viral RNA for a few minutes after synthesis and the C terminal of C protein takes part in the formation of nucleocapsid [
20]. The CSFV C protein has co-localization with host cell nucleolin (NCL) in nucleolus. When NCL is restrained, the efficiency of CSFV replication is declined [
21]. CSFV by acting on nucleus provides convenience for virus replication or regulation of virus [
22]. Recently, it was reported that in order to carry out the transcriptional regulation, the core protein may proceed into the nucleus. This speculation is not only reasonable but also possible, because a putative nuclear localization signal(NLS: lys-lys-lys-gly-lys-val), which is located at the carboxyl terminal half of the protein and conserved in different strains of the CSFV virus, was found in the deduced amino acid sequence [
23]. Therefore, we suggested that at the early stage of CSFV infection (0–12 h), viral RNA is very likely to be brought into the karyon by C protein. Further studies are needed to study how CSFV RNA enters into nucleus and the function of nucleus.
In addition, the envelope glycoproteins E2 is a non-essential protein of CSFV replication, which appeared behind the appearance of viral RNA. To study the dynamic distribution of CSFV RNA in infected cell, FAT were also used to test the E2 protein dynamic of HeBHH1/95 strain in PK15 cells, which can only detect weak fluorescence in the endochylema until 16hpi, however, ViewRNA ISH is a confocal ISH, which can detect positive fluorescenceat at 0.5hpi. As shown in Fig.
5, viral RNA accumulates outside the nucleus at 36hpi, meanwhile, the number of viral protein E2 detected by FAT in endochylema also increases during 36 ~ 72hpi; the concentrations of extranuclear viral RNA reaches the peak after 72hpi. While the results of FAT also indicates the number of positive cell reaches the peak and the fluorescent intensity is the strongest. After 96hpi, the concentrations of extranuclear RNA is declined and results of FAT also indicates the number of positive cell declines and the fluorescent intensity is weakened, which means the E2 protein concentrations is a positive correlation with the concentrations of viral RNA.
Conclusions
RNA ISH has been applied to the studies on viral RNA localization of nuclear matrices, using ISH in combination with immunohistochemical method. However, this is the first report that ViewRNA ISH has been applied to the detection of the dynamic distribution of CSFV medium virulence strain (HeBHH1/95) RNA after infected the PK15 cells, which has exhibited some better features such as high sensitivity and specificity. The sensitivity of ViewRNA ISH was higher three and four order of magnitude than FAT and IHC methods, and ViewRNA ISH were highly specific for the detection of CSFV and no cross-reaction occurred in negative control and other pig infectious virus. ViewRNA ISH method seems to be very useful for the detection of the dynamic distribution of CSFV RNA in the early stage of viral infection, which may contribute to the study of CSFV replication and also will be helpful for designing and developing new vaccine. However, there are some drawbacks with this method, such as the ViewRNA ISH reagent are expensive and unmarketed. The results proved that CSFV RNA enters cell early than 0.5hpi, relative to the eclipse period of cytoplasm is 6–9 hpi and RNA has ever existed in nucleus.
Methods
Primer and probes
Several specific CSFV probes (P1 is located at 5’-UTR 112 ~ 210 base sequence and P3 is located at NS5B 11426 ~ 11573 base sequence) and labeled probes (P2: label Cy3 red fluorescence) were designed based on CSFV (AF333000) sequence, and the designed probes should be avoid homology regions of bovine viral diarrhea virus (BVDV) (JQ799141) sequence and Border Disease Virus (KC963426) complete sequence. Specific pig house-keeping gene β-actin (ACTB) (AK237086) probe was designed as internal reference with labeled FITC green fluorescence. The design and synthesis of CSFV RNA ISH is completed by classical swine fever reference laboratory and NovoAT&M Biomaterials. The information of the probes sequences:
-
P1: GGACTAGCAAACGGAGGGACTAGCCGTAGTGGCGAGCTCCCTGGGTGGTCTAAGTCCTGAGTACAGGACAGTCGTCAATAGTTCGACGTGAGCAGGAGC
-
P2: TATGATTTATTGCAAGCCCAGAGGTACGGTATAGAAGACGGGATAAATATCACCAAATCCT
-
P3: AGGTGGTCAGACAACACTTCTAGTTACATGCCGGGGAGAAATACAACCACAATCCTAGCTAAAATGGCCACAAGGTTAGATTCCAGTGGTGAGAGGGGTACCATAGCATATGAGAAAGCAGTAGCATTCAGCTTCCTGCTGATGTACT
-
ACTB: TTCCTTCCTGGGTATGGAATCCTGTGGCATCCACGAAACTACCTTCAACTCAATCATGAA
Samples
CSFV shimen strain (SM,F114,1998.6.28), hog cholera lapinizedvaccine (C-Strain), SX-DT/2001 strain, HeBHH1/95 strain and HeNBY1/96 strain are preserved at the China Institute of Veterinary Drugs Control; BVDV (OregonC24V strain, NADL strain), porcine pseudorabies virus (PRV AV1211) and porcine parvovirus (PPV09/79 strain) was kindly provided by China Veterinary Culture Collection Center. Porcinecirco virus II (PCV-2) was kindly provided by Professor Zhou Jiyong of Zhejiang University. The information of these sample is listed in Table
1.
Table 1
The samples background information of CSFV RNA ViewRNA ISH
SM | 1.1 | 10−3.67/200 μL | PK15 | NCSFRL |
C−Strain | 1.1 | 10−3.5/200 μL | ST | NCSFRL |
SXDT2011 | 2.1 | 10−3.3/200 μL | PK15 | NCSFRL |
HeBHH1/95 | 2.2 | 10−4.5/200 μL | PK15 | NCSFRL |
HeNBY1/96 | 2.3 | | PK15 | NCSFRL |
PPV09/79 | | | ST | CVCC |
BVDV | | | MBDK | CVCC |
PRV | | | PK15 | CVCC |
PCV-2 | | | PK15 | ZJU |
Reagents
ViewRNA ISH reagent (protease, washing liquor, DAPI) is purchased from NovoAT & MBiomaterials Co, Ltd. The classical swine fever monoclonal antibody (WH303) was kindly provided by England AHVLA Trevor Drew. Lab-Tek II Chamber Slide is purchased from America Thermo Fisher Scientific Company.
TCID50 of HeBHH1/95 strain
The diluted HeBHH1/95 (from 10−1 to 10−6) were inoculated in PK15 cell in the 24 well plate, cultured in RPMI 1640 medium with 8% fetal bovine serum (FBS) under 37 °C in 5%CO2. After 72 h inoculation, the FAT method was used to measure the TCID50 titer.
Development of ViewRNA ISH
Each well of PK15 cell with 70% ~ 80% densities is inoculated with 200 μL HeBHH1/95 strain with 10−4.5 TCID50/ml for 72 h in 37 °C under 5%CO2. Addition of 4% formaldehyde to fix under room temperature; incubation for 5 min with washing buffer Solution I after washing with PBS; after addition protease to treat for 15 min and incubation with probe under 40 °C, then add in working concentration DAPI to dye cell nucleus before incubating for 30 min with fluorescence label probe. Finally, controlling the working temperature within 5–20 °C and the wave length is 488/550 nm, using 20 × objective lens for imaging with fluorescence confocal microscopy in the normal temperature evades under light.
Optimization of ViewRNA ISH conditions
Orthogonal experiment was used to analyze the optimum concentrations of protease K and the most suitable of formaldehyde fixed time. The concentrations of protease K were diluted as: 1:500, 1:1000, 1:2000, 1:4000 and the formaldehyde fixed time is set as: 30 min and 60 min. Considering the test result and fluorescence intensity and repeatability, optimal reaction conditions were determined in Table
2.
Table 2
The optimization of proteinase K concentration and the formalin fixed time
1:500 | (-) Probe and (+) Probe | (-) Probe and (+) Probe |
1:1000 | (-) Probe and (+) Probe | (-) Probe and (+) Probe |
1:2000 | (-) Probe and (+) Probe | (-) Probe and (+) Probe |
1:4000 | (-) Probe and (+) Probe | (-) Probe and (+) Probe |
Sensitivity and specificity
200ul serial dilutions (from 10−1 to 10−10) of the strain HeBHH1/95 strain (10−4.5 TCID50) were inoculated in three groups PK15 cells. After inoculation for 72 h at 37 °C under 5%CO2, each group was used to detect the viral RNA by ViewRNA ISH,FAT and IHC, respectively, to test their sensitivity.
Different kinds of CSFV, BVDV, PPV, PRV, PCV-2 and other related viral strain quality control sample were inoculated in two groups PK 15 cells. After inoculation for 72 h at 37 °C under 5% CO2, two group inoculated cells was used to detect the specificity using ViewRNA ISH and FAT methods.
Acknowledgments
The different samples of CSFV ViewRNA ISH were kindly provided by China Veterinary Culture Collection Center and Zhejiang University where it was used for detection the specificity of CSFV ViewRNA ISH.
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