Japanese encephalitis virus-induced neuropathology in mouse model infected through the conjunctival route

Background & objectives: Mouse is a preferred animal model for studying pathogenesis of Japanese encephalitis virus (JEV) infections, and different routes of inoculation have been tried. Some neurotropic viruses can reach the brain following infection through ocular route. This study was undertaken to establish JEV-induced clinical disease in mouse model through conjunctival route and document the neuropathological effects. Methods: Ten two-week old Swiss albino mice were inoculated with 5 ?l Vero cell cultured virus containing 104.7 TCID50 JEV through conjunctival route. Clinical signs of mice were observed twice daily. After necropsy examination, different organs including eyes and olfactory bulbs were collected for histopathological examination, quantification of viral copy number and antigen by real-time TaqMan assay and immunohistochemistry, respectively. Results: Infected mice showed characteristic clinical signs of JE by 4 days post-infection (dpi). Histopathological lesions in brain included perivascular cuffing by mononuclear cells, focal gliosis, necrosis of neurons and neuronophagia and astrocytosis in the cerebrum, cerebellum and the brainstem. JEV viral load was highest in the brain followed by intestine, heart, liver, spleen, lung and kidney. JEV antigen was detected in the bipolar and ganglion cells of the retina and in the mitral cells and periglomerular cells of olfactory bulb and other parts of the brain. Interpretation & conclusions: JEV infection in mice through conjunctival route produced characteristic clinical signs of the disease and neuropathological lesions. Demonstration of JEV antigen in association with neuropathological lesions in the central nervous system and neuronal cells of the eye showed that conjunctival route could be an effective alternate route for virus invasion into the brain. These findings have biosafety implications for researchers, veterinary practitioners and pig farmers.

Pig IFITMs are restriction factors for Japanese encephalitis virus

Objective:Japanese encephalitis virus (JEV) is responsible for one of the most serious epidemics of encephalitis in the world. JEV uses pigs as its main hosts and spreads among vertebrates and humans mediated by Culex mosquitoes. The prevention and control of JEV spread in pigs is one of the most effective measures to protect global public health. Interferon-inducible transmembrane proteins (IFITMs) are small membrane-spanning proteins that were identified as innate antiviral factors against multiple pathogenic viruses, especially enveloped viral pathogens. This study aims to verify whether pig interferon-inducible transmembrane proteins (pIFITMs) inhibit JEV and investigate the related molecular mechanisms of anti-JEV.Methods:Transient expression and RNA interference technology were used to overexpress and silence IFITMs gene. Three different cell lines, PK15, HEK293 and Huh7, were transfected with recombinant pIFITMs-expressing plasmids. The lentiviral vectors harboring RNAi sequences targeting pIFITMs were introduced into PK15 cells. Quantitative real-time PCR was used to determine the antiviral activities of pIFITMs through measuring and analyzing the virus copy number of JEV (SA14-14-2 strain) in the supernant of pIFITMs overexpression or silencing cells 48 hours post transfection. The expression of the related proteins was examined by western blot. The fusion vectors inserted with pig IFITM1-EGFP were constructed and introduced into three different cell lines respectively. Then Laser Co-focus light microscopy was used to observe the subcellular localization. The key active amino acids of pIFITM1 were analyzed by investigating the anti-JEV effect of the cysteine mutants produced with PCR site directed mutagenesistechnology.Results:In three different cell lines, PK15, HEK293 and Huh7, all of three pig IFITM proteins, pIFITM1, pIFITM2, and pIFITM3 could inhibit the replication of JEV whether through transient gene over-expression methods or RNA interference silencing. And that, among three pig IFITMs, pIFITM1 showed the strongest anti-JEV effect. The anti-JEV activity of pIFITM1 manifested at the early entry stage. In PK15, BHK21, and HEK293 cells, before virus infection, pIFITM1 was located in the plasma membrane area, and after infection, transferred to the membranous structures outside the nucleus. The S-palmitoylated cysteines at position 50, 51 and 84 of pIFITM1 had significant effect on virus replication.Conclusions:Pig interferon-inducible transmembrane proteins are restriction factors for JEV infection and have potentials in the prevention of virus spread. Our results provide some new sights into understanding the antiviral activity of pig IFITMs.

Isolation and identification of Japanese encephalitis virus in the experimental minipigs / 中国比较医学杂志

Objective To understand the characteristics of minipigs infected withJapanese encephalitis virus(JEV).Methods After the brain tissues were treated, the pig brain tissue treatment solution was inoculated with BHK21 cells.Then, virus culture,indirect immunofluorescence assay, neutralization test, electron microscopic observation, and reverse transcription-polymerase chain reaction (RT-PCR) amplification of the new isolate E segment and PrM segment nucleotide sequence were performed and the genotype was identified.Results BHK21 cells were inoculated into 25 pigbrain tissues.Among them, three tissue-treated fluid couldinduce shrinkage and aggregation of BHK21 cells, and immunofluorescence staining showed strong green fluorescence response.The results of neutralization test showed that the neutralization titer of these three new isolates was 1:64, and the size of the virus particles was about 40nm under the electron microscope.The homology of both RT-PCR product sequencing results and E-segment of vaccine strain were 95%.Three new isolates were type GIII JEV.Conclusion The results ofthisstudydemonstrate that there is G III type Japanese encephalitis virus infection in the minipig farm.

An outbreak of Japanese encephalitis after two decades in Odisha, India.

Sudden deaths in children due to acute encephalitis syndrome (AES) from a tribal dominated district of Malkangiri in Odisha, India, was reported during September-November, 2012. The investigation was carried out to search for the possible viral aetiology that caused this outbreak. Clinico-epidemiological survey and seromolecular investigation were carried out to confirm the viral aetiology. Two hundred seventy two suspected cases with 24 deaths were observed. The patients presented with low to moderate grade fever (87%), headache (43%), vomiting (27%), cold (18%), cough (17%), body ache (15%), joint pain (15%), rash (15%), abdomen pain (9%), lethargy (5%), altered sensorium (8%), convulsion (2%), diarrhoea (3%), and haematemesis (3%). Laboratory investigation showed Japanese encephalitis virus (JEV) IgM in 13.8 per cent (13/94) in blood samples and JEV RNA in one of two cerebrospinal fluid (CSF) samples. Paddy fields close to the houses, high pig to cattle ratio, high density (33 per man hour density) of Culex vishnui mosquitoes, low socio-economic status and low health awareness in the tribal population were observed. This report confirmed the outbreak of JEV infection in Odisha after two decades.

Seasonal abundance & role of predominant Japanese encephalitis vectors Culex tritaeniorhynchus & Cx. gelidus Theobald in Cuddalore district, Tamil Nadu.

Background & objectives: Japanese encephalitis (JE) is the leading cause of viral encephalitis in Asia. The first major JE outbreak occurred in 1978 and since 1981 several outbreaks had been reported in the Cuddalore district (erstwhile South Arcot), Tamil Nadu, India. Entomological monitoring was carried out during January 2010 - March 2013, to determine the seasonal abundance and transmission dynamics of the vectors of JE virus, with emphasis on the role of Culex tritaeniorhynchus and Cx. gelidus. Methods: Mosquito collections were carried out fortnightly during dusk hours in three villages viz. Soundara Solapuram, Pennadam, Erappavur of Cuddalore district. Mosquitoes were collected during dusk for a period of one hour in and around the cattle sheds using oral aspirator and torch light. The collected mosquitoes were later identified and pooled to detect JE virus (JEV) infection by enzyme linked immunosorbent assay (ELISA). Results: A total of 46,343 mosquitoes comprising of 25 species and six genera were collected. Species composition included viz, Cx. tritaeniorhynchus (46.26%), Cx. gelidus (43.12%) and other species (10.62%). A total of 17,678 specimens (403 pools) of Cx. gelidus and 14,358 specimens (309 pools) of Cx. tritaeniorhynchus were tested, of which 12 pools of Cx. gelidus and 14 pools of Cx. tritaeniorhynchus were positive for JE virus antigen. The climatic factors were negatively correlated with minimum infection rate (MIR) for both the species, except mean temperature (P<0.05) for Cx. gelidus. Interpretation & conclusions: High abundance of Cx. tritaeniorhynchus and Cx. gelidus was observed compared to other mosquito species in the study area. Detection of JEV antigen in the two species confirmed the maintenance of virus. Appropriate vector control measures need to be taken to reduce the vector abundance.

Temporal changes of Japanese encephalitits virus in different brain regions of rat.

Background & objectives: Japanese encephalitis virus (JEV) infection results in acute encephalitic illness. The affinity of JEV to different regions of brain and temporal changes in viral load have not been studied. This study was conducted to describe localization of JEV to different regions of the brain at different stages of disease in a rat model of Japanese encephalitis (JE). Methods: Twelve days old Wistar rats were inoculated intracerebrally with a dose of 3 x 106 pfu/ml of JEV. After 3, 6, 10 and 20 days post-inoculation, brains were dissected out and different regions of brain (cortex, striatum, thalamus and mid brain) were taken. Motor deficit was assessed by the rota rod and JEV RNA copies were evaluated using real-time PCR assay. Results: There was a significant increase in motor deficit in rats inoculated with JEV compared to the controls. JEV RNA copies were present in all studied regions of the brain on days 3, 6 and 10 post-inoculation. Maximum number of JEV RNA copies were present in the mid brain on days 3 and 10 post-inoculation. JEV RNA copies were not detected in any of the brain regions on day 20. Interpretation & conclusions: This study reports JEV RNA load in different brain regions of rat with higher affinity of JEV virus to thalamus and mid brain compared to other regions.

Simultaneous Detection of Three Arboviruses Using a Triplex RT-PCR Enzyme Hybridization Assay / 中国病毒学·英文版

Arboviruses represent a serious problem to public health and agriculture worldwide.Fast,accurate identification of the viral agents of arbovirus-associated disease is essential for epidemiological surveillance and laboratory investigation.We developed a cost-effective,rapid,and highly sensitive one-step triplex RT-PCR enzyme hybridizationassay for simultaneous detections of Japanese Encephallitis virus (JEV,Flaviviridae)Getah virus (GETV,Togaviridae),and Tahyna virus (TAHV,Bunyaviridae) using three pairs of primers to amplify three target sequences in one RT-PCR reaction.The analytical sensitivity of this assay was 1 PFU/mL for JEV,10PFU/mL for GETV,and 10 PFU/mL for TAHV.This assay is significantly more rapid and less expensive than the traditional serological detection and single RT-PCR reaction methods.When “triplex RT-PCR enzyme hybridization” was applied to 29 cerebrospinal fluid(CSF)samples that were JEV-positive by normal RT-PCR assay,all samples were strongly positive for JEV,but negative for GETV and TAHV,demonstrating a good sensitivity,specificity,and performance at CSF specimen detection.

Japanese Encephalitis in Children admitted at Patan Hospital.

This is a hospital based retrospective study, which was done in Pediatric ward of Patan hospital. Study period was one and half year (from Srawan 2063 to 2064 poush).Data were taken from discharge book of Pediatric ward, from the record section of this hospital, and from JE surveillance office, WHO, Kathmandu. All children from 1 month to 14 years ,who were admitted in Pediatric ward with symptoms of Meningitis, Meningoencephalitis and Encephalitis were included in this study and patients more than 14 years of age and symptoms not suggestive of meningitis, meningoencephalitis or encephalitis were excluded from the study. Headache; vomiting and fever were the chief complaints of patients. Two patients died during study period. There were 16 patients with serologically confirmed Japanese encephalitis.

Development of Neutralization Assay using Murine Leukemia Virus (MuLV) Pseudotyped with Japanese encephalitis Virus (JEV) env Gene

The envelope (E) glycoprotein of JEV is the major antigen to elicit neutralizing antibody (NAb) against JEV infection. In order to develop a rapid and safe neutralization assay system for evaluation of the JEV vaccine strains, we constructed JEV-pseudotyped viruses with JEV env genes (Nakayama-NIH, Beijing-1). The titers of JEV-pseudotyped viruses with NK and BJ strains were 4.0x10(4) IFU/ml and 1.3x10(5) IFU/ml in Vero cell cultures, respectively. We have analyzed the neutralization activity of immunized mouse sera with JEV-NK and JEV-BJ pseudotyped viruses. The neutralizing antibody titers of NK and BJ (50% reduction of virus) were about 1:10,000 at each immunized sera. Compared with conventional plaque reduction neutralization test (PRNT), the method using JEV-pseudotyped virus has desirable advantages such as more rapid, easier, and non-biohazardous. This neutralization assay system might be useful to evaluate NAb activity against JEV vaccine strains or vaccine candidates.

The seroprevalence of Japanese encephalitis virus in goats raised in Korea

Japanese encephalitis virus (JEV) causes a mosquitoborne viral zoonosis that is becoming increasingly important to public health in east and south Asia. Although JEV is primarily associated with reproductive failure in swine, JEV infection can cause fever and headache in humans and is associated with aseptic meningitis and encephalitis. The exact mode of transmission, including host range and possible source of viral amplification within livestock, is still not completely clear. This study consisted of a serological survey of JEV infection in goats. A total of 804 goat serum samples were collected from 144 farms in Korea between May 2005 and May 2006. The incidence of positive cases was 12.1% (97 out of 804 goats). The seroprevalence of JEV infection in the 144 farms screened was 31.3% (45/144), indicating that JEV infection is frequent in goat farms in Korea. In addition, three districts of Korea (mainly in the southern region) had a higher seroprevalence of JEV compared to other areas. The results suggest that goats could be monitored epidemiologically as a sentinel animal for JEV transmission in Korea.

Flaviviruses Induce Pro-inflammatory and Anti-inflammatory Cytokines from Murine Dendritic Cells through MyD88-dependent Pathway

BACKGROUND: The genus Flavivirus consists of many emerging arboviruses, including Dengue virus (DV), Japanese encephalitis virus (JEV) and West Nile virus (WNV). Effective preventive vaccines remain elusive for these diseases. Mice are being increasingly used as the animal model for vaccine studies. However, the pathogenic mechanisms of these viruses are not clearly understood. Here, we investigated the interaction of DV and JEV with murine bone marrow-derived dendritic cells (bmDC). METHODS: ELISA and FACS analysis were employed to investigate cytokine production and phenotypic changes of DCs obtained from bone marrow following flavivirus infection. RESULTS: We observed that these viruses altered the cytokine profile and phenotypic markers. Although both viruses belong to the same family, JEV-infected bmDC produced anti-inflammatory cytokine (IL-10) along with pro-inflammatory cytokines, whereas DV infection induced production of large amounts of pro-inflammatory cytokines (IL-6 and TNF-alpha) and no IL-10 from murine bmDCs. Both flaviviruses also up-regulated the expression of co-stimulatory molecules such as CD40, CD80 and CD86. JEV infection led to down-regulation of MHC II expression on infected bmDCs. We also found that cytokine production induced by JEV and DV is MyD88-dependent. This dependence was complete for DV, as cytokine production was completely abolished in the absence of MyD88. With regard to JEV, the absence of MyD88 led to a partial reduction in cytokine levels. CONCLUSION: Here, we demonstrate that MyD88 plays an important role in the pathogenesis of flaviviruses. Our study provides insight into the pathogenesis of JEV and DV in the murine model.

Development and evaluation of indirect ELISA for the detection of antibodies against Japanese encephalitis virus in swine

The Japanese encephalitis virus (JEV) is one of causative agents of reproductive failure in pregnant sows. An indirect enzyme-linked immunosorbent assay (I-ELISA) was examined for its potential use in the rapid monitoring of the JEV, and the results were compared with those from the hemagglutination inhibition (HI) and serum neutralization (SN) tests. The comparative analysis showed that the results of I-ELISA showed a significant correlation with the conventional HI (r = 0.867) and SN tests (r = 0.804), respectively. When the I-ELISA results were compared with the traditional diagnostic assays, the sensitivity of the I-ELISA was 94.3% with the HI test and 93.7% with the SN test, respectively. The specificity was found to be 81.4% and 80.0% with the HI and SN tests, respectively. To determine the applicability of I-ELISA in the field, the serum samples from 720 pigs were collected from 4 regions in Korea between July and August 2004. The results indicated that 21.7% of screened pigs were seropositive for the JEV. The seropositive rates of JEV in the 4 provinces were 12.6% in Gyeonggi, 45.0% in Gyeongnam, 16.7% in Jeonbuk, and 12.2% in Jeju. The I-ELISA methodology developed in this study was shown to have considerable sensitivity and specificity through a comparison with HI and the SN tests. Therefore, it might be one of convenient methods for screening a large number of samples in various fields.

Apoptotic Neuronal Death in the Mouse Brain Induced by Experimental Japanese Encephalitis Virus Infection / 대한해부학회지

Japanese encephalitis virus (JEV)may cause acute encephalitis in humans and induce severe cytopathic effects in various types of cultured cells. To investigate whether JEV infection induces apoptosis, we examined DNA fragmentation and apoptosis in the specific region of the JEV infected mouse brain by DNA oligonucleosomal laddering and in situ terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL)technique and immunohistochemical study. JEV infections in the mouse brain were detected in the telencephalon, the diencephalons, and the brain stem, but not in the cerebellum and the hippocampus. Fragmentation of cellular DNA into oligonucleosome-length ladders was only observed in tissue samples prepared from the cerebral cortex. In addition, the large number of TUNEL-positive cells was observed in the cerebral cortex. Double-labeling experiment with TUNEL staining and immunostaining for the JEV showed that TUNEL-positive neurons containing JEV immunoreactivity. These results suggest that JEV infection may evoke apoptotic neuronal death in the mouse brain, which plays an important role in the pathogenesis of Japanese encephalitis.

Immunogenicity of baculovirus expressed recombinant proteins of Japanese encephalitis virus in mice

Genes encoding for the premembrane and envelope (prME), envelope (E) and nonstructural protein (NS1) of Japanese encephalitis virus (JEV) were cloned. Each protein was expressed in baculovirus expression system. Of the three proteins expressed in baculovirus system, only prME had hemagglutination activity. The prME (72 and 54 kDa), E (54 kDa) and NS1 (46 kDa) proteins could be detected by Western blotting in the recombinant virus infected cells. Immunogenicity of the recombinant proteins obtained from infected Spodoptera frugiperda (Sf-9) cells was examined in mice. The 3 week-old ICR mice immunized intraperitoneally with three recombinant proteins three times were challenged with a lethal JEV. A survival rate was increased from about 7.7% in unimmunized mice to 92.3% in E + prME and only E groups. The complete protection was shown in prME and live vaccine inoculated groups, respectively. We also measured neutralizing antibody and three immunoglobulin subtypes of IgG1, IgG2a and IgG2b in the sera of mice before and after challenge. Titers of IgG1 antibodies were approximately two to three times higher than that of IgG2b antibodies in all the immunized groups as compared to the control group. However, IgG2a antibody level somewhat increased after challenge, indicating T-helper type 1 (Th1) cell response. The results of this study can provide useful information for developing efficacious subunit vaccine against JEV.

Evaluation of JEV and BVDV Clearance During the Purification of Recombinant HPV-16 L1 Virus-Like Particles

Insect cell-derived biotechnological products have a potential for viral contamination from cell line sources themselves or from adventitious introduction of virus during production. The objective of this study was to establish techniques for viral clearance validation of insect cell-derived recombinant human papillomavirus (HPV)-16 type L1 virus-like particles (VLPs) using Japanese encephalitis virus (JEV) and bovine viral diarrhea virus (BVDV) as relevant viruses. The downstream process for the production of recombinant HPV-16 L1 VLPs was sequentially carried out employing detergent lysis (NP-40/PBS), sonication, sucrose cushion centrifugation, and cesium chloride (CsCl) equilibrium density centrifugation. Recombinant HPV-16 L1 capsid protein (56 kD) expressed in Sf9 cell culture was clearly detected by SDS-PAGE and Western blotting analysis. Each purification step was evaluated to determine reduction factor for viral clearance by infectivity assay. In individual purification steps, detergent treatment (0.50% v/v, NP-40/PBS) and CsCl equilibrium density centrifugation were found to be effective in JEV and BVDV clearance. Overall cumulative reduction factors of JEV and BVDV infectivity titer for the purification procedure implemented in this study were 12.53 and 10.05 log TCID(50)/pool, respectively. The results suggest that the purification procedure employed in this study for the HPV-16 L1 VLPs produced from recombinant baculovirus-infected Sf9 cells will be effective over 10 log TCID(50)/pool reduction factor in the clearance of enveloped, adventitious viruses with a buoyant density lower than approximately 1.23 g/ml.

TaqMan reverse transcription polymerase chain reaction for the detection of Japanese encephalitis virus

One step TaqMan reverse transcription polymerase chain reaction (RT-PCR) using TaqMan probe was developed for detection of Japanese encephalitis virus (JEV). Real-time RT-PCR was optimized to quantify JEV using the detection system (Rotor Gene 2000 detector) and dual-labeled fluorogenic probes. The gene specific labeled fluorogenic probe for the 3' non-translated region (3' NTR) was used to detect JEV. When the specificity of the assay using specific JEV primers was evaluated by testing three different JEV strains, other swine viruses and bovine viral diarrhea virus, no cross-reactions were detected with non-JE reference viruses. A single tube TaqMan assay was shown to be 10-fold more sensitive than the conventional two-step RT-PCR method. Detection limits of two step and real-time RT-PCR for JEV were 112 TCID50 /ml and 11.2 TCID50 /ml, respectively. Quantification of JEV was accomplished by a standard curve plotting cycle threshold values (Ct ) versus infectivity titer. Real-time RT-PCR assay using single tube method could be used as a sensitive diagnostic test, and supplied the results in real time for detection and quantification of JEV. We could detect JEV RNA genome in plasma samples of pigs inoculated with KV1899 strain at 2 days post inoculation, but couldn't in 41 fetus samples. This assay was sensitive, specific, rapid and quantitative for the detection of JEV from laboratory and field samples.

A Quantitative Assay of Japanese Encephalitis Virus as a Model Virus for Viral Clearance Validation in Insect Cell-Derived Biotechnology Products

Commercial interests towards insect cell cultures have greatly been increased recently, in part due to the widespread use of insect virus-based vectors for efficient expressions of foreign proteins. Insect cell-derived biotechnology products should be free of adventitious agents such as arboviruses and mycoplasmas. The objective of this study was to establish techniques for the viral safety evaluation of insect cell-derived biotechnology products using Japanese encephalitis virus (JEV) as a model, since JEV is a member of arthropod-borne flaviviruses which has been known to be infectious to insect cells such as Sf9 cells. Quantitative assays for viral infectivity, concentrations of an antigen or a genome are a prerequisite for the studies of viral clearance validation. Here, we report the development of a quantitative assay for JEV RNA using real-time reverse transcription-polymerase chain reaction (RT-PCR). The assay was performed using LightCycler and RNA amplification kit SYBR Green I. Viral RNA extracted from stock suspension of JEV with known infectivity titer was made to 10-fold serial dilution, and each dilution was subjected to the assay for the generation of a standard curve. A JEV specific primer was selected from 3' untranslated region with the expected band size of 323 base pairs. The real-time RT-PCR assay resulted in a successful amplification within 5 log dilution ranges of JEV RNA samples, and the sensitivity of the assay was calculated to be approximately 15 TCID50 per reaction. Highly reproducible standard curves were obtained from experiments performed on three different days. The real-time RT-PCR assay for the quantification of JEV will be an efficient alternative tool for viral clearance validation studies of insect cell-derived biotechnology products.