Glycosaminoglycans (GAGs) have diverse functions in the body and are involved in viral infection. The purpose of this study was to evaluate the possible roles of the E-disaccharide units GlcAβ1–3GalNAc(4,6-O-disulfate) of chondroitin sulfate (CS), a GAG involved in neuritogenesis and neuronal migration, in Japanese encephalitis virus (JEV) infection. Soluble CS-E (sCS-E) derived from squid cartilage inhibited JEV infection in African green monkey kidney-derived Vero cells and baby hamster kidney-derived BHK cells by interfering with viral attachment. In contrast, sCS-E enhanced viral infection in the mouse neuroblastoma cell line Neuro-2a, despite the fact that viral attachment to Neuro-2a cells was inhibited by sCS-E. This enhancement effect in Neuro-2a cells seemed to be related to increased viral RNA replication and was also observed in a rat infection model in which intracerebral coadministration of sCS-E with JEV in 17-day-old rats resulted in higher brain viral loads than in rats infected without sCS-E administration. These results show the paradoxical effects of sCS-E on JEV infection in different cell types and indicate that potential use of sCS-E as an antiviral agent against JEV infection should be approached with caution considering its effects in the neuron, the major target of JEV. 相似文献
An engineered bio‐nanocapsule (BNC) comprising modified hepatitis B surface antigen L protein was used as a physical scaffold for envelope protein domain III (D3) of Japanese encephalitis virus (JEV). At the N terminus, the BNC contained a two‐tandem repeat of the Z domain (ZZ) derived from Staphylococcus aureus protein A (ZZ‐BNC). The Lys‐rich ZZ moiety exposed on the surface of ZZ‐BNC was used for chemical conjugation with the JEV D3 antigen, which had been expressed and purified from Escherichia coli. Immunization of mice with D3 loaded on the surface of ZZ‐BNC (ZZ‐BNC:D3) augmented serum IgG response against JEV and increased protection against lethal JEV infection. The present study suggests that innocuous recombinant antigens, when loaded on the surface of ZZ‐BNC, can be transformed to immunogenic antigens. 相似文献
Japanese encephalitis virus (JEV), a common cause of encephalitis in humans, especially in children, leads to substantial neuronal injury. The survivors of JEV infection have severe cognitive impairment, motor and behavioral disorders. We hypothesize that depletion of neural progenitor cells (NPCs) by the virus culminates in neurological sequelae in survivors of Japanese encephalitis (JE). We utilized both in vivo model of JEV infection and in vitro neurosphere cultures to study progressive JEV infection. Cellular infection and cell death was determined by flow cytometry. BrdU administration in animals and in neurospheres was used to determine the proliferative ability of NPCs. JEV leads to massive loss of actively proliferating NPC population from the subventricular zone (SVZ). The ability of JEV infected subventricular zone cells to form neurospheres is severely compromised. This can be attributed to JEV infection in NPCs, which however do not result in robust death of the resilient NPC cells. Instead, JEV suppresses the cycling ability of these cells, preventing their proliferation. JEV primarily targets at a critical postnatal age and severely diminishes the NPC pool in SVZ, thus impairing the process of recovery after the insult. This arrested growth and proliferation of NPCs might have an effect on the neurological consequences in JE survivors. 相似文献
Epitope-based vaccination is a promising means to achieve protective immunity and to avoid immunopathology in Japanese encephalitis virus (JEV) infection. Several B-cell and T-cell epitopes have been mapped to the E protein of JEV, and they are responsible for the elicitation of the neutralizing antibodies and CTLs that impart protective immunity to the host. In the present study, we optimized a proposed multi-epitope peptide (MEP) using an epitope-based vaccine strategy, which combined six B-cell epitopes (amino acid residues 75-92, 149-163, 258-285, 356-362, 373-399 and 397-403) and two T-cell epitopes (amino acid residues 60-68 and 436-445) from the E protein of JEV. This recombinant protein was expressed in Escherichia coli, named rMEP, and its protective efficacy against JEV infection was assessed in BALB/c mice. The results showed that rMEP was highly immunogenic and could elicit high titer neutralizing antibodies and cell-mediated immune responses. It provided complete protection against lethal challenge with JEV in mice. Our findings indicate that the multi-epitope vaccine rMEP may be an attractive candidate vaccine for the prevention of JEV infection. 相似文献
Obtaining antibodies with high affinity and specificity against antigens are required for the development of therapeutic and diagnostic antibodies. In this study, the contributions to binding affinity in the CDR2 and CDR3 regions of two monoclonal antibodies E3.3 and 2H2 were investigated by random mutagenesis in a phage-display synthetic oligonucleotide library. One high-affinity clone (CDR3-30) was obtained with a 3-fold increase of the dissociation constant, resulting from the changes in amino acids at residues 95, 97, and 98 in the CDRH3 region. Analysis of the predicted structure by modeling suggested that the contributions of mutated residues in the CDR3 region to the binding affinity involved not only complementarity between antigen and CDR3, but also interaction between heavy and light chains. The information gained from this study may benefit the design of vaccines and therapeutic antibodies against Japanese encephalitis virus infection. 相似文献
Japanese encephalitis virus(JEV) is one of the most common pathogens of severe viral encephalitis, which is a severe threat to human health. Despite instability of the JEV genome in bacteria, many strategies have been developed to establish molecular clone systems of JEV, providing convenient tools for studying the virus life cycle and virus–host interactions. In this study, we adapted an In-Fusion enzyme-based in vitro recombination method to construct a reverse genetic system of JEV, thereby providing a rapid approach to introduce mutations into the structural genes. A truncated genome without the structural genes was constructed as the backbone, and the complementary segment containing the structural genes was recombined in vitro, which was then transfected directly into virus-permissive cells. The progeny of the infectious virus was successfully detected in the supernatant of the transfected cells, and showed an identical phenotype to its parental virus. To provide a proof-of-principle, the 12 conserved cysteine residues in the envelope(E) protein of JEV were respectively mutated using this approach, and all mutations resulted in a complete failure to generate infectious virus. However, a leucine-tophenylanine mutation at amino acid 107 of the E protein did not interfere with the production of the infectious virus. These results suggested that all 12 cysteines in the E protein are essential for the JEV life cycle. In summary, a novel reverse genetic system of JEV was established for rapidly introducing mutations into structural genes, which will serve as a useful tool for functional studies. 相似文献
Skin-resident dendritic cells (DCs) likely encounter incoming viruses in the first place, and their migration to lymph nodes following virus capture may promote viral replication. However, the molecular mechanisms underlying these processes remain unclear. In the present study, we found that compared to cell-free viruses, DC-bound viruses showed enhanced capture of JEV by T cells. Additionally, JEV infection was increased by co-culturing DCs and T cells. Blocking the C-type lectin receptor DC-specific intercellular adhesion molecule-3-grabbing non-integrin (DC-SIGN) with neutralizing antibodies or antagonists blocked JEV transmission to T cells. Live-cell imaging revealed that DCs captured and transferred JEV viral particles to T cells via virological synapses formed at DC-T cell junctions. These findings indicate that DC-SIGN plays an important role in JEV transmission from DCs to T cells and provide insight into how JEV exploits the migratory and antigen-presenting capabilities of DCs to gain access to lymph nodes for dissemination and persistence in the host.
Transgenic plants have become attractive as bioreactors to produce heterologous proteins that can be developed as edible vaccines. In the present study, transgenic rice expressing the envelope protein (E) of Japanese encephalitis virus (JEV), under the control of a dual cauliflower mosaic virus (CaMV 35S) promoter, was generated by Agrobacterium-mediated transformation. Southern blot, Northern blot, Western blot and ELISA analyses confirmed that the E gene was integrated into transgenic rice and was expressed in the leaves at levels of 1.1-1.9 μg/mg of total soluble protein. After intraperitoneal immunization of mice with crude protein extracts from transgenic rice plants, JEV-specific neutralizing antibody could be detected. Moreover, E-specific mucosal immune responses could be detected in mice after oral immunization with protein extracts from transgenic rice plants. These results show the potential of using a transgenic rice-based expression system as an alternative bioreactor for JEV subunit vaccine. 相似文献
Japanese encephalitis (JE) remains the most important cause of acute viral encephalitis and continues to spread to hitherto
unaffected regions like Indonesia, Pakistan and Australia. Approximately 60% of the world population inhabits JE endemic areas.
Despite its restricted range mostly in the developing countries, a high annual incidence of 50,000 cases and about 10,000
deaths has been reported. Disease can be fatal in 25% cases. Magnitude of the problem is even more alarming since the survivors
are left with serious long-term neuropsychiatric sequelae. Almost every two years, epidemics of JE occur in Indian subcontinent
with a high mortality. JE virus infection results in different disease manifestations in host from mild subclinical febrile
illness to clinical infections leading to encephalitis. No antiviral treatment is so far available for JE. The prevention
of JE can be achieved by controlling the vector or by immunization regime. The vector control in the rural areas, which are
the worst affected ones, is practically almost impossible. Three vaccines that have been implicated against JE include inactivated
mouse brain derived, inactivated cell culture derived and cell culture derived live attenuated JE vaccine. But each has its
own limitation. Currently, attempts to synthesize recombinant DNA vaccine are being made. New therapeutics are on the way
of development like use of minocycline, short interfering RNA, arctigenin, rosmarinic acid, DNAzymes etc. However, the immune
mechanisms that lead to JE are complex and need to be elucidated further for the development of therapeutics as well as safe
and efficacious JE vaccines. 相似文献
The virus-host interactions between Japanese encephalitis (JE) virus and mouse brain neurons were analyzed by electron microscopy.
JE virus replicated exclusively in the rough endoplasmic reticulum (RER) of neurons. In the early phase of infection, the
perikaryon of infected neurons had relatively normal-looking lamellar RER whose cisternae showed focal dilations containing
progeny virions and characteristic endoplasmic reticulum (ER) vesicles. The reticular RER, consisted of rows of ribosomes
surrounding irregular-shaped, membrane-unbounded cisternae and resembled that observed in JE-virus-infected PC12 cells, were
also seen adjacent to the lamellar RER. The appearance of the reticular RER indicated that RER morphogenesis occurred in infected
neurons in association with the viral replication. The fine network of Golgi apparatus was extensively obliterated by fragmentation
and dissolution of the Golgi membranes and their replacement by the electron-lucent material. As the infection progressed,
the lamellar RER was increasingly replaced by the hypertrophic RER which had diffusely dilated cisternae containing multiple
progeny virions and ER vesicles. The Golgi apparatus, at this stage, was seen as coarse, localized Golgi complexes near the
hypertrophic RER. In the later phase of infection, RER of infected neurons showed a degenerative change, with the cystically
dilated cisternae being filled with ER vesicles and virions. Small, localized Golgi complexes frequently showed vesiculation,
vacuolation, and dispersion. The present study, therefore, indicated that during the viral replication the normal lamellar
RER which synthesized neuronal secretory and membrane proteins was replaced by the hypertrophic RER which synthesized the
viral proteins. The hypertrophic RER eventually degenerated into cystic RER whose cisternae were filled with viral products.
The constant degenerative change which occurred in the Golgi apparatus during the viral replication suggested that some of
the viral proteins transported from RER to the Golgi apparatus were harmful to the Golgi apparatus and that increasing damage
to the Golgi apparatus during the viral replication played the principal role in the pathogenesis of JE-virus-infected neurons
in the central nervous system. 相似文献
The Japanese encephalitis virus (JEV) is one of the main causes of encephalitis in Asia, including Cambodia. An understanding of the interactions between JEV hosts and vectors (Diptera: Culicidae) remains rare in the context of expanding urbanization. The relative abundance, species diversity and population dynamics of potential JEV vectors were studied between August 2015 and July 2016 on a peri-urban and rural pig farm in Kandal province, Cambodia, where JEV is circulating. Five similar environments in the two farms were selected for mosquito trapping: pig farm, cattle house, river/canals, household/ponds and paddy fields. The main objective was to describe the distribution and the dynamics of the main JEV vector mosquito species. In total, 83,013 mosquitoes from 20 species were caught in rural and peri-urban areas, and 82.3% of the mosquitoes were potential JEV vector species. In peri-urban areas, Culex (Cx.) gelidus was the most abundant species, followed by Cx. vishnui subgroup and Cx. tritaeniorhynchus. In rural areas, the same species were dominant: Cx. vishnui subgroup, Cx. gelidus and Cx. tritaeniorhynchus. The vast majority of mosquitoes (95.9%) were collected in close proximity to pigs and cattle. In conclusion, JEV vectors were present at all study sites and throughout all months of the year, supporting a continuous circulation of JEV in Cambodia. 相似文献
Japanese encephalitis virus (JEV) is a mosquito-borne flavivirus closely related to the human pathogens including yellow fever virus, dengue virus and West Nile virus. There are currently no effective antiviral therapies for all of the flavivirus and only a few highly effective vaccines are licensed for human use. In this paper, the E protein domain III (DIII) of six heterologous flaviviruses (DENV1-4, WNV and JEV) was expressed in Escherichia coli successfully. The proteins were purified after a solubilization and refolding procedure, characterized by SDS-PAGE and Western blotting. Competitive inhibition showed that all recombinant flavivirus DIII proteins blocked the entry of JEV into BHK-21 cells. Further studies indicated that antibodies induced by the soluble recombinant flavivirus DIII partially protected mice against lethal JEV challenge. These results demonstrated that recombinant flavivirus DIII proteins could inhibit JEV infection competitively, and immunization with proper folding flavivirus DIII induced cross-protection against JEV infection in mice, implying a possible role of DIII for the cross-protection among flavivirus as well as its use in antigens for immunization in animal models. 相似文献
An attenuated Japanese encephalitis (JE) virus SA14-14-2 (PDK) was adapted to Vero cells, a continuous cell line that has been licensed for human vaccine production, by serial passages. The resulting virus was purified by tangential flow ultrafiltration followed by sucrose density gradient ultracentrifugation, giving 2.3 mg purified virus per liter of culture supernatant. Treatment with 0.05% formalin for 4 days at 22 °C completely inactivated viral infectivity while preserving its antigenicity. The purified, inactivated JE virus was formulated with alum hydroxide and administered to mice by intraperitoneal route. In terms of its ability to induce anti-JE neutralizing antibody and to protect the immunized animal against neurovirulent virus challenge, the purified, inactivated JE virus formulated with alum was equivalent to the exiting commercial mouse brain-derived vaccine (JE-VAX, Aventis Pasteur Inc.). 相似文献
We previously reported that mice immunized with recombinant modified vaccinia virus Ankara (MVA) encoding Japanese encephalitis virus (JEV) prM and E genes were completely protected against JEV challenge (Nam, J.H., Wyatt, L.S., Chae, S.L., Cho, H.W., Park, Y.K., Moss, B. Vaccine 1999,17: 261-268). In this study, we examined the immunogenicity in swine of this recombinant MVA (vJH9) or a DNA vaccine (pcJH-1) expressing the same JEV genes. Although the booster effect in mice with a combination of vJH9, pcJH-1 and inactivated JEV commercial vaccine was not apparent by measuring JEV antibodies, the recombinant MVA vaccine (vJH9) and the DNA vaccine (pcJH-l) efficiently produced neutralizing antibodies in swine and 2 doses of each showed a booster effect in mice and swine. Therefore, both vJH9 and pcJH-1 are good candidates for a second generation JEV vaccine. 相似文献
The U.K. has not yet experienced a confirmed outbreak of mosquito‐borne virus transmission to people or livestock despite numerous autochthonous epizootic and human outbreaks of mosquito‐borne diseases on the European mainland. Indeed, whether or not British mosquitoes are competent to transmit arboviruses has not been established. Therefore, the competence of a local (temperate) British mosquito species, Ochlerotatus detritus (=Aedes detritus) (Diptera: Culicidae) for transmission of a member of the genus Flavivirus, Japanese encephalitis virus (JEV) as a model for mosquito‐borne virus transmission was assessed. The JEV competence in a laboratory strain of Culex quinquefasciatus (Diptera: Culicidae), a previously incriminated JEV vector, was also evaluated as a positive control. Ochlerotatus detritus adults were reared from field‐collected juvenile stages. In oral infection bioassays, adult females developed disseminated infections and were able to transmit virus as determined by the isolation of virus in saliva secretions. When pooled at 7–21 days post‐infection, 13% and 25% of O. detritus were able to transmit JEV when held at 23 °C and 28 °C, respectively. Similar results were obtained for C. quinquefasciatus. To our knowledge, this study is the first to demonstrate that a British mosquito species, O. detritus, is a potential vector of an exotic flavivirus. 相似文献
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