Cytotoxic T lymphocyte Responses Against Japanese Encephalitis Virus In Mice: Specificity And Immunotherapeutic Value

Krishna, Kaja Murali

10 1900

Cytotoxic T Lymphocytes (CTL) are known to play an important role in clearing infectious virus from infected hosts in a variety of viral infections. Depending on the type of virus and mode of virus entry both class I and class II restricted CTL can contribute to protection from virus-induced disease. Although CD8 positive CTL are associated with virus elimination and control in many viral infections, elimination of neurotropic viruses from the Central Nervous system (CNS) is more complex due to the lowered expression of MHC antigens on neuronal cells. This failure to constitutively express high levels of MHC antigens by neurons could serve as an advantage to avoid damage to this differentiated and non-renewable tissue. However, abnormal induction of MHC antigens in the CNS mediated by CD4 positive lymphocytes or by astrocytes have also been shown to cause destructive inflammation in the CNS. The present study deals with CTL responses against one such neurotropic virus called Japanese Encephalitis Virus (JEV). JEV is a positive-stranded RNA virus that belongs to the flavivirus group, a group that is among the most important agents causing human encephalitis worldwide. Although passive transfer of monoclonal antibodies against this virus has been shown to confer protection of mice from lethal challenge with virus, neither the presence of CTL against this virus nor its role in conferring protection has been reported so far. Understanding the CTL responses against these viruses acquired importance in light of recent reports that neurovirulence of JEV and yellow fever viruses can be enhanced by the administration of virus specific antibodies. Hence this study was undertaken to examine the possibility of raising CTL specific to JEV. The specificity of the CTL raised, their therapeutic value and the ability of different lymphocyte subsets to mediate protection in vivo are dealt with in this study. Generation of CTL against JEV The generation of CTL against JEV in BALB/c mice, requires MHC defined cell lines that not only support virus infection but are also histocompatible. Several cell lines were initially examined for their ability to support JEV infection as a prc-rcquisitc before their utilization in in vivo and in vitro stimulation protocols aimed at generating JEV-specific CTL. Virus infection was monitored by immunofluorescence using JEV envelope-specific monoclonal antibodies as well as by titration of virus produced from infected cells by plaque assays. These different cell lines that were characterised for their ability to support JEV infection were then utilised to generate and monitor antiviral CTL. Several in vivo immunisation protocols were examined initially find out which of these infected cells prime BALB/c mice efficiently for generation of virus-specific CTL upon secondary stimulation in vitro with infected syngeneic cells. Immunisation of mice with infected cells per se was preferred over free virus since this was thought to facilitate priming against some viral non-structural proteins preferentially found on infected cells in addition to other viral structural proteins. It was observed that not only infected syngeneic and allogeneic cells but also infected xenogeneic cells prime BALB/c mice for the generation of JEV- specific CTL upon secondary restimulation in vitro. An optimal protocol was standardised for the generation of CTL against JEV. This included primary in vivo immunisation of mice followed by secondary in vitro restimulation of splenocytes with infected syngeneic cells. Either immunisation alone or in vitro stimulation of naive splenocytes alone was unsuccessful. The effector cells generated specifically lysed JEV-infccted P388D1 targets but not uninfected P388D1 or YAC-1 targets suggesting that the lysis on infected targets is not mediated by Natural Killer activity. Specificity and MHC restriction of anti JEV Effectors Cell depletion studies using complement mediated lysis were performed to examine the phenotype of the cells mediating virus specific lysis of infected targets. Depletion of Lyt 2.2+ or Thy 1+ but not L3T4+ sub-populations of effector cells inhibited lysis of infected targets showing that the effectors mediating virus-specific lysis were Lyt-2+ T cells. Examination of target specificities and MHC restriction of the antiviral CTL generated showed that although infected xenogeneic cells were used for immunisation, the effector cells recognised only infected syngeneic (P388D1, Sp2/0) and semisyngeneic (Neuro 2a, YAC-1) cells. Virus-specific recognition was found to be class I Kd and class I Dd restricted. These effector cells were also found to recognise cells infected with a closely related flavivirus, West Nile Virus (WNV) suggesting that they were crossreactive to some degree. Based on the consensus motif that has been established for H-2Kd associated peptides, several nonamers were predicted as possible CTL epitopes by scanning the deduced amino acid sequences of three strains of JEV and WNV. Among several predicted nonamers, three peptides were examined for their ability to reconstitute lysis of uninfected targets by polyclonal anti JEV CTL populations. Results demonstrate that peptides derived from NS1 and NS3 but not NS5 protein of JEV were able to partially reconstitute lysis of uninfected targets by effectors when pulsed with the appropriate peptide. Protective ability of the CTL raised against JEV To examine whether anti-JEV effectors raised in vitro could confer protection from intracerebral challenge with JEV, these effectors were adoptively transferred into adult BALB/c mice intracerebrally along with 10 x LDJ0 dose of JEV. More than 55% of these animals were protected from death and survived beyond 100 days after JEV challenge demonstrating that adoptively transferred anti-JEV effectors could indeed confer protection from lethal challenge with JEV. However, adoptive transfer of effectors by either intravenous or intraperitoneal routes did not protect adult mice from the lethal effects of intracerebral challenge with JEV. In contrast to adult mice, newborn mice were not protected from death by the adoptively transferred effector cells. This was also supported by experiments where a correlation was observed with the increasing age of mice and the success of protection conferred by the adoptively transferred effector cells. To establish the identity of cell subsets responsible for protection, Lyt 2, L3T4 or Thy 1 positive cells were specifically depleted from the polyclonal CTL by multiple cycles of complement mediated lysis and the remaining cells were adoptively transferred intracerebrally along with 10 x LD of JEV. These results demonstrate that both Lyt 2 and L3T4 positive T cells present in the effector population were necessary to confer protection of adult mice. Examination of virus-specific neutralising antibodies in the sera of protected and unprotected mice revealed that presence of L3T4 positive cells in the adoptively transferred population increases virus-specific neutralising antibodies. However presence of neutralising antibodies alone was not sufficient to confer protection. The protection required both Lyt-2 and L3T4 positive cells together. These studies could in the long term throw some light on similar observations about age dependant susceptibility to JEV in humans.

Medicine

Immunotherapy - Mice

Japanese Encephalitis Virus (JEV)

Cytotoxic T Lymphocytes (CTL)

Enciphilitis Virus

West Nile Virus (WNV)

A multipathogen vaccine for rabies, hepatitis B, Japanese encephalitis and enterovirus 71

Lauer, Katharina

January 2016

To enhance the global control of encephalitis and hepatitis caused by rabies virus (RABV), Japanese encephalitis virus (JEV), enterovirus 71 (EV71) and hepatitis B virus (HBV), novel immunisation strategies are needed. All four diseases particularly affect low income countries with marginal health services – an affordable combined vaccine strategy could alleviate the large burden of disease. Therefore, we aimed to construct a multipathogen vaccine assessing the immunising activity of a recombinant modified vaccinia Ankara (MVA), expressing key antigens (RABV-glycoprotein, JEV pre-membrane & envelope protein, EV71-P1 protein and large hepatitis B surface antigen) from the various pathogens. Successful delivery of the pathogen sequences into non-essential sites (deletion site I, II, VI) of MVA via homologous recombination with a transfer plasmid, was demonstrated by transient color selection (LacZ-marker) in vitro. The stable insertion of the expression cassettes was validated over ten virus passages by PCR with specific primer sets, targeting the pathogen sequence. Two recombinants, one carrying the EV71 and JEV pathogen sequence and one carrying the RABV-HBV pathogen sequence were generated and validated by PCR.To ensure similar expression of the key antigens, a T7-promoter was linked to the expression cassettes of all pathogen sequences. Direct regulation of this promoter was achieved through co-infection with a second T7-polymerase expressing MVA under the control of a vaccinia p7.5 promoter. Protein expression from recombinant MVA using the co-infection model of expression in vitro, was further characterised by Western blot, dot blot and immunocytochemistry. All inserted transgenes were expressed using an avian (chicken embryo fibroblasts) or mammalian (human fetal lung fibroblasts) cell culture system. To investigate the co-infection model of antigen delivery in vivo, a pilot murine immunogenicity study was performed in six Balb/c mice using the MVA-RABV-HBV recombinant in a homologous prime-boost regimen two weeks apart. To detect antibodies against the expressed pathogen sequences in the mouse serum an antibody-capture assay was performed (Western blot, dot blot). The antigen (used to capture murine antibodies) was purified RABV-glycoprotein or large hepatitis B surface antigen expressed from a baculovirus. The murine antibodies were detected by a secondary anti-mouse antibody, conjugated with horseradish peroxidase for a chemiluminescent reporter assay. Although, serum antibodies against MVA were induced in all mice, no serum antibodies against RABV or HBV could be detected. In summary, we were able to demonstrate that two transgenes, when inserted into one or two different loci in the MVA genome, can be expressed in vitro when using the co-infection model of gene expression with a T7-expression system. This project has provided new insights into a novel group of vaccines, the multipathogen viral vector vaccines, employing MVA as a vector. Future studies will be needed to further explore this vaccine-group, as well as the co-infection model of expression.

616.07

Potential Of Live Recombinant 'Bakers Yeast' As Antigen Delivery Vectors : Application In Generating Antibodies To GFP And Envelope Protein Of JEV

Upadhyaya, Bhaskar

11 1900

No description available.

Yeast - Antigen Delivery Vectors

Antibodies

Antigens

Vaccination

Green Flourescent Protein (GFP)

Antigen Delivery Vector

JEV Envelope Protein

Immunology

Safety and Stability of Samples Stored on Filter Paper for Molecular Arbovirus Diagnosis

Bringeland, Emelie

January 2021

Expanding urbanization, climate change, and population growth contribute to increased transmission and spread of arthropod-borne viruses (arboviruses), many of which cause severe disease in humans. Pathogenic arboviruses include dengue, Zika, tick-borne encephalitis, and sindbis viruses, which together threaten more than half the global population. Thus, there is a constant need for safe, specific, and sensitive molecular tests to identify early-stage infections for accurate diagnosis and molecular epidemiological data for disease prevention and control. The study tested the biosafety of using FTA™ cards when working with pathogenic arboviruses by conducting an infectivity assay using sindbis virus. Conditions for RNA extraction and storage of arboviruses on FTA were analyzed by measuring viral RNA (vRNA) stability using a SYBR-Green, Pan-Flavi RT-qPCR method composed of degenerate primers able to detect a variety of flaviviruses. Data from a Pan-Flavi RT-qPCR study comprising of 222 clinical blood and serum samples collected from a 2018 dengue virus outbreak in Hanoi (Vietnam) was analyzed to establish applicability of FTA for molecular epidemiology and diagnosis. Results showed that sindbis virus infectivity was inhibited by FTA-adsorption. FTA-adsorbed arboviruses were extracted with the highest yield using Trizol extraction and were preserved at storage at 4-20ºC for up to 30 days. The results showed that clinical blood samples acquired higher yields of vRNA for molecular testing than serum samples and that it may be possible to perform sequencing for genomic analysis. The study suggests that FTA cards may facilitate the storage and transportation of adsorbed arboviruses for downstream molecular epidemiological and diagnostic tests.

Arthropod-borne viruses (arboviruses)

alphaviruses

flaviviruses

dengue virus (DENV)

Japanese encephalitis virus (JEV)

Tick-borne encephalitis virus (TBEV)

Usutu virus (USUV)

Zika virus (ZIKV)

Biosafety

Vietnam

Microbiology in the medical area