Identification and development of a promising novel mumps vaccine candidate strain

Mumps epidemics are usually caused by airborne transmission of mumps virus (MuV) and have high morbidity in non-immunized children. Epidemiological studies in many regions of China show that the genotype F viral strain is the most prevalent. However, the genotype A strain is currently used to prepare vaccines. Regional epidemiological MuV data suggest a significant application for the development of live attenuated mumps vaccines targeting specific genotypes. This article reports the isolation and culture of a genotype F MuV candidate strain that could be used to prepare a live attenuated mumps vaccine. This strain is shown to have good immunological efficacy and stability in neurovirulence evaluations. This work should facilitate the implementation of mumps vaccination in mainland China by targeting the most prevalent MuV genotype, genotype F.     

Gene-specific contributions to mumps virus neurovirulence and neuroattenuation

Mumps virus (MuV) is highly neurotropic and was the leading cause of aseptic meningitis in the Western Hemisphere prior to widespread use of live attenuated MuV vaccines. Due to the absence of markers of virus neuroattenuation and neurovirulence, ensuring mumps vaccine safety has proven problematic, as demonstrated by the occurrence of aseptic meningitis in recipients of certain vaccine strains. Here we examined the genetic basis of MuV neuroattenuation and neurovirulence by generating a series of recombinant viruses consisting of combinations of genes derived from a cDNA clone of the neurovirulent wild-type 88-1961 strain (r88) and from a cDNA clone of the highly attenuated Jeryl Lynn vaccine strain (rJL). Testing of these viruses in rats demonstrated the ability of several individual rJL genes and gene combinations to significantly neuroattenuate r88, with the greatest effect imparted by the rJL nucleoprotein/matrix protein combination. Interestingly, no tested combination of r88 genes, including the nucleoprotein/matrix protein combination, was able to convert rJL into a highly neurovirulent virus, highlighting mechanistic differences between processes involved in neuroattenuation and neurovirulence.     

2018-2019年中国流行性腮腺炎流行特征和病毒基因特征分析

阐明中国(未包括香港、澳门特别行政区和台湾地区,下同)2018-2019年流行性腮腺炎(流腮)流行特征和病毒基因特征。对2018-2019年中国流腮流行病学和病毒学监测数据进行描述流行病学和分子流行病学分析。2018-2019年中国流腮年报告发病率分别为18.65/10万和21.48/10万,15岁以下儿童和青少年是我国流腮的高发人群,分别占总病例数的85.30%和82.56%。流腮的流行具有明显的季节性特征。全国各省、自治区、直辖市份均有流腮病例报告,西部和中部地区发病率高于东部地区。2018-2019年共获得160条腮腺炎病毒(Mumps virus,MuV)SH基因序列,其中150条(93.75%)序列鉴定为F基因型MuV,在我国11个省份检测到;10条(6.25%)序列为G基因型MuV,2019年在广东、湖北和新疆3个省份检测到。和我国既往流行MuV代表株相比,2018-2019年流行的F基因型MuV代表株序列在基因亲缘性关系树上相对集中。现阶段我国流腮的流行病学特征未发生明显改变,仍呈现病毒自然流行模式;F基因型作为优势流行基因型,在我国大部分地区持续流行,但毒株的遗传多态性有所降低,这可能和我国实施1剂次腮腺炎疫苗常规免疫策略有关。G基因型MuV主要在我国局部地区流行,但流行范围在逐渐扩大。建议进一步加强两剂次腮腺炎疫苗接种工作,降低我国腮腺炎易感人群。同时持续性开展MuV流行学和病毒学监测工作,为鉴别病毒的来源,确定病毒传播途径和评估腮腺炎疫苗免疫策略奠定重要的基础。     

The F gene of rodent brain-adapted mumps virus is a major determinant of neurovirulence

Prior to the introduction of live-attenuated vaccines, mumps virus (MuV) was the leading cause of virus-induced meningitis. Although vaccination has been effective at controlling the disease, the use of insufficiently attenuated strains has been associated with high rates of aseptic meningitis in vaccinees. The molecular basis of MuV attenuation is poorly understood, and no reliable molecular markers of virulence have been identified. In this study, reverse genetics has been used to identify molecular determinants of MuV neuropathogenesis. Recombinant viruses, containing the envelope-associated genes from the Kilham (MuV(KH)) rodent brain-adapted strain of MuV, were generated in the Jeryl Lynn 5 (MuV(JL5)) vaccine strain background. The syncytium phenotypes of the recombinant viruses on Vero cells differed depending on the source of the fusion (F) and hemagglutinin-neuraminidase (HN) glycoproteins, with heterologous combinations showing either an increase or a decrease in the level of cell fusion compared to that of the homologous parental combinations. This was confirmed by transiently cotransfecting eukaryotic F and HN glycoprotein expression constructs. A Lewis rat model that discriminates between neurovirulent and nonneurovirulent MuV strains based on the extent of hydrocephalus induced in the rat brain after intracerebral inoculation was used to assess the phenotype of the recombinant viruses. Expression of the matrix (M), small hydrophobic (SH), or HN gene in isolation did not confer a neurovirulent phenotype. Expression of the F gene of the neurovirulent strain alone was sufficient to induce significant levels of hydrocephalus. Coexpression of the homologous HN gene led to a marginal increase in the level of hydrocephalus.     

The V protein of mumps virus plays a critical role in pathogenesis

Mumps virus (MuV) causes an acute infection in humans characterized by a wide array of symptoms ranging from relatively mild manifestations, such as parotitis, to more-severe complications, such as meningitis and encephalitis. Widespread mumps vaccination has reduced mumps incidence dramatically; however, outbreaks still occur in vaccinated populations. The V protein of MuV, when expressed in cell culture, blocks interferon (IFN) expression and signaling and interleukin-6 (IL-6) signaling. In this work, we generated a recombinant MuV incapable of expressing the V protein (rMuVΔV). The rescued MuV was derived from a clinical wild-type isolate from a recent outbreak in the United States (MuV(Iowa/US/06), G genotype). Analysis of the virus confirmed the roles of V protein in blocking IFN expression and signaling and IL-6 signaling. We also found that the rMuV(Iowa/US/06)ΔV virus induced high levels of IL-6 expression in vitro, suggesting that V plays a role in reducing IL-6 expression. In vivo, the rMuV(Iowa/US/06)ΔV virus was highly attenuated, indicating that the V protein plays an essential role in viral virulence.     

Novel polyvalent live vaccine against varicella–zoster and mumps virus infections

The varicella–zoster virus (VZV) Oka vaccine strain (vOka) is a highly immunogenic and safe live vaccine that has long been used worldwide. Because its genome is large, making it suitable for inserting foreign genes, vOka is considered a candidate vector for novel polyvalent vaccines. Previously, a recombinant vOka, rvOka‐HN, that expresses mumps virus (MuV) hemagglutinin‐neuraminidase (HN) was generated by the present team. rvOka‐HN induces production of neutralizing antibodies against MuV in guinea pigs. MuV also expresses fusion (F) protein, which is important for inducing neutralizing antibodies, in its viral envelope. To induce a more robust immune response against MuV than that obtained with rvOka‐HN, here an rvOka expressing both HN and F (rvOka‐HN‐F) was generated. However, co‐expression of HN and F caused the infected cells to form syncytia, which reduced virus titers. To reduce the amount of cell fusion, an rvOka expressing HN and a mutant F, F(S195Y) were generated. Almost no syncytia formed among the rvOka‐HN‐F(S195Y)‐infected cells and the growth of rvOka‐HN‐F(S195Y) was similar to that of the original vOka clone. Moreover, replacement of serine 195 with tyrosine had no effect on the immunogenicity of F in mice and guinea pigs. Although obvious augmentation of neutralizing antibody production was not observed after adding F protein to vOka‐HN, the anti‐F antibodies did have neutralizing activity. These data suggest that F protein contributes to induction of immune protection against MuV. Therefore this recombinant virus is a promising candidate vaccine for polyvalent protection against both VZV and MuV.     

Critical factors for the replication of mumps virus in primary chicken embryo fibroblasts defined by the use of design of experiments (DoE)

Live attenuated vaccines against mumps virus (MuV) have been traditionally produced by passaging the virus in the embryonated chicken eggs or primary chicken embryo fibroblasts (CEFs). Virus propagation on these cell substrates enables successful virus attenuation and retains it sufficiently antigenic to induce lasting protective immunity in humans. The aim of this study was to identify critical factors for MuV replication in primary CEFs grown on a small-scale level in order to explore possibilities for improvements in the virus replication and yield. The effect of differently prepared cells, culturing conditions, and infection conditions on virus yield was estimated by employing statistical design of experiments (DoE) methodology. Our results show that the preparation of primary CEFs and the way of their infection substantially impact virus yield and are critical for efficient MuV replication. These process parameters should be considered in further process optimization. We also demonstrate the applicability of DoE in optimization of virus replication as a crucial step in obtaining high virus yields.     

Genotyping of Mumps viruses based on SH gene: Development of a server using alignment-free and alignment-based methods

Mumps is an acute infectious childhood disease caused by mumps virus (MuV), a member of genus Rubu-lavirus, family Paramyxoviridae. Based on the genetic variability in small hydrophobic (SH) genes, currently MuVs have been divided into twelve confirmed genotypes designated as A-L and one proposed genotype, M. Despite successful vaccination program, a few genotypes are observed to co-circulate amongst vaccinated population. Furthermore, lack of cross protection between different genotypes is reported and hence, as a part of epidemiological surveillance, WHO has recommended genotyping of MuV. Currently genotyping is carried out using molecular phylogeny analysis (MPA) of SH genes and no genotyping server is available for MuV. The present study reports development of a genotyping server for the same, which employs three independent methods. The server uses two conventional methods viz., BLAST, MPA and a novel method based on Return Time Distribution (RTD), which is developed in-house. A server for genotyping of mumps virus is developed and made available at http://bioinfo.net.in/muv/homepage.html. RTD-based alignment-free method was initially developed for MPA and is applied for genotyping of MuV for the first time. It is found to have 98.95% of accuracy when measured using leave-one-out cross validation method on reference and test datasets. In addition to RTD, the server also imple-ments BLAST and MPA for genotyping of MuV. All the three methods were found to be highly reliable as evident from consensus predictions. A server for genotyping of MuV, which implements sequence-based bioinformatics approaches is developed and validated using SH gene sequences of known genotypes. This server will be useful for epidemiological surveillance and to monitor the circulation of MuV genotypes within and across geographic areas. This will also facilitate phylodynamics studies of mumps viruses.     

Comparison of the Neurovirulence of a Vaccine and a Wild-Type Mumps Virus Strain in the Developing Rat Brain

Prior to the adoption of widespread vaccination programs, mumps virus was the leading cause of virus-induced central nervous system (CNS) disease. Mumps virus-associated CNS complications in vaccinees continue to be reported; outside the United States, some of these complications have been attributed to vaccination with insufficiently attenuated neurovirulent vaccine strains. The development of potentially neurovirulent, live, attenuated mumps virus vaccines stems largely from the lack of an animal model that can reliably predict the neurovirulence of mumps virus vaccine candidates in humans. The lack of an effective safety test with which to measure mumps virus neurovirulence has also hindered analysis of the neuropathogenesis of mumps virus infection and the identification of molecular determinants of neurovirulence. In this report we show, for the first time, that mumps virus infection of the neonatal rat leads to developmental abnormalities in the cerebellum due to cerebellar granule cell migration defects. The incidence of the cerebellar abnormalities and other neuropathological and clinical outcomes of mumps virus infection of the neonatal rat brain demonstrated the ability of this model to distinguish neurovirulent (Kilham) from nonneurovirulent (Jeryl Lynn) mumps virus strains. Thus, this neonatal rat model may prove useful in evaluating the neurovirulence potential of new live, attenuated vaccine strains and may also be of value in elucidating the molecular basis of mumps virus neurovirulence.     

Studies on live attenuated mumps vaccine. II. Follow-up study on the efficacy of Biken Vaccine.

Clinical and serological follow-ups were made on 18 children for 3 years and on another 18 children for 4 years, after immunization against mumps by attenuated mumps vaccine; Biken vaccine. To evaluate the protective efficacy of the vaccine, matched controls were studied during the same period. Serological examinations revealed that 77% of the vaccinees and 93% of the controls were infected with mumps after close contacts with mumps patients. Regular mumps was contracted by 88% of the controls, but none of the vaccinees. There was no substantial decrease in the antibody titers in unexposed vaccinees after vaccination.     

Accumulation of defective interfering viral particles in only a few passages in Vero cells attenuates mumps virus neurovirulence

Immunization programs have implemented live attenuated mumps vaccines which reduced mumps incidence ≥97%. Some of the vaccine strains were abandoned due to unwanted side effects and the genetic marker of attenuation has not been identified so far. Our hypothesis was that non-infectious viral particles, in particular defective interfering particles (DIPs), contribute to neuroattenuation. We showed that non-infectious particles of the mumps vaccine L-Zagreb attenuated neurovirulence of wild type mumps virus 9218/Zg98. Then, we attenuated recent wild type mumps virus MuVi/Zagreb.HRV/28.12 in Vero cells through 16 passages but already the fifth passage (p5) showed accumulation of DIPs and attenuated neurovirulence in a newborn rat model when compared to the second passage (p2). Sequence analysis of the p2 and p5 revealed a single mutation in the 5′ untranslated region of the HN gene. Analysis of the expression level of the HN protein showed that this mutation does not affect the expression of the protein. We conclude that the passages of MuVi/Zagreb.HRV/28.12 in Vero cells for only three passages accumulated DIPs which attenuate neurovirulence.These findings reveal DIPs as a very promising and general neuroattenuating factor which should be considered in the rational design of the new mumps vaccine.     

Mumps vaccine L-Zagreb, prepared in chick fibroblasts. I. Production and field trials

Leningrad-L3 Mumps Vaccine virus has been further attenuated by adaptation and passage on SPF chick embryo fibroblast cell cultures. This new mumps strain has been designated L-Zagreb and has been used to prepare mumps vaccines which meet the WHO requirements. Observations during both the field trial period prior to registration and during the later use of the vaccine showed that the few reactions observed were mild and that seroconversion was obtained in 88-98% of vaccines. The morbidity of mumps in Croatia declined more than tenfold after the introduction of the new vaccine. During a mumps epidemic, vaccine efficiency was calculated to be 97-100%.     

Protection of mumps in children with various underlying diseases: application of a live attenuated mumps and trivalent measles-rubella-mumps (MRM) vaccines in these children

A live attenuated mumps and trivalent measles-rubella-mumps (MRM) vaccines have been applied to 887 and 148 children with various underlying diseases at the vaccine clinic of Osaka University Hospital between 1975 and 1985, respectively. Clinical reactions after mumps vaccination occurred in only 7 children (0.8%) and those after MRM vaccination in 28 children (19%), but their underlying diseases were not deteriorated by either vaccination. Clinical follow up study revealed that 2 of the 430 children immunized with mumps vaccine had contracted the disease during 7 year period and 2 of the 123 children immunized with MRM vaccine had contracted clinical mumps or rubella during 3 year period. The seroconversion rates after mumps vaccination were 70% and 61% by the hemagglutination inhibition (HI) test and neutralization (NT) test, respectively, while 94% by the fluorescent antibody to membrane antigen (FAMA) test. Those after MRM vaccination were 87% for measles, 96% for rubella by the HI test and 89% for mumps by the FAMA test. Serological follow up study revealed that antibodies elicited by mumps vaccination were sustained without substantial decline for at least 7 years. These results suggest that a live attenuated mumps and MRM vaccines are safe and effective in children with various underlying diseases.     

Discrimination of mumps virus small hydrophobic gene deletion effects from gene translation effects on virus virulence

Deletion of the small hydrophobic (SH) protein of certain paramyxoviruses has been found to result in attenuation, suggesting that the SH protein is a virulence factor. To investigate the role of the mumps virus (MuV) SH protein in virulence, multiple stop codons were introduced into the open reading frame (ORF) of a MuV molecular clone (r88-1961(SHstop)), preserving genome structure but precluding production of the SH protein. No differences in neurovirulence were seen between the wild-type and the SH(stop) viruses. In contrast, upon deletion of the SH gene, significant neuroattenuation was observed. These data indicate that the MuV SH protein is not a neurovirulence factor and highlight the importance of distinguishing gene deletion effects from protein-specific effects.     

Utility of neutralization test for laboratory diagnosis of suspected mumps

Mumps is an infectious disease caused by mumps virus (MuV), which belongs to the family Paramyxoviridae and genus Rubulavirus. Typical symptoms of mumps include fever and swelling of the parotid glands; however, mumps can be asymptomatic. Mumps is diagnosed by molecular and serological methods (i.e., PCR and Enzyme Immunoassay [EIA]); however, both methods have pros and cons. This study was performed to compare the diagnostic utility of a focus reduction neutralization test (FRNT) to that of MuV‐specific commercial IgM and IgG antibody EIA in patients suspected of having mumps. One hundred‐eighty six samples collected during mumps outbreak in 2012–16 were studied. Samples (n = 80) were tested by all the three serological assays and showed 70.4%, 83% and 92.5% positivity by IgM EIA, IgG and FRNT, respectively. In all, 58.8% samples (n = 47) tested positive in all three assays. Concordance between mumps RT‐PCR and IgM EIA was highest during the first 2–5 days and decreased with increasing time post‐onset. Mumps FRNT results agreed with those of RT‐PCR/IgM EIA from the second week onwards, whereas the results of mumps IgG EIA agreed with those of RT‐PCR/IgM EIA from post‐onset days 3–10. These findings suggest the utility of a FRNT for laboratory diagnosis of mumps in countries whose populations are not immunized against this infection.

     

Vaccination of School Children With Live Mumps Virus Vaccine

Live, attenuated mumps virus vaccine (Mumpsvax) was administered to 146 school children 6 to 9 years of age. One child developed clinical mumps nine days after vaccination; epidemiological and serological data strongly suggest that this child had become infected before vaccination. Apart from this single instance there were no apparent clinical reactions that could be ascribed to the administration of the vaccine. Sixty-three of the 146 children with no clinical history of mumps had an initial serum neutralizing antibody titre of less than 1:2. Specific antibodies to mumps virus were detected in 93.5% of the sera of the susceptible children 28 days after vaccination, and the geometric mean antibody titre of these sera was low (1:6). Of the 80 initially seropositive children 21 (26.2%) showed a significant antibody response to the vaccine and this was influenced by the pre-existing antibody level. These data have further demonstrated the safety and efficacy of the live mumps vaccine in children.     

Development of a new live attenuated mumps virus vaccine in human diploid cells

A new live attenuated mumps vaccine was developed in human diploid cells. The S-12 virus was isolated from a 10-year-old girl showing typical symptoms of mumps infection, the diagnosis was confirmed by a pediatrician. The virus was isolated in green monkey kidney cells, without passage in chick embryo cavity or chick embryo fibroblasts. Attenuation of the wild virus was performed by serial passages in human diploid cells (MRC-5). The attenuated virus was characterized by identity tests, as well as by a reduction in plaque size, as marker tests. The virus was free from adventitious agents and safe for laboratory animals as well as for monkeys. The reactogenicity and immunogenicity of the S-12 virus for man was investigated by administration of a monovalent vaccine to 20 seronegative adult male volunteers and 30 children aged 1 to 5 years without history of mumps infection or vaccination. Seroconversion was obtained in 95% of the vaccinees. The new vaccine has the advantage of not requiring specific pathogen-free eggs, and being free from avian proteins and therefore can be used in sensitized patients.     

Cell-mediated immune response to mumps virus infection in man.

The antibody and cell-mediated immune response to mumps virus infection was studied in groups of subjects after natrually acquired mumps virus infection, after parenteral immunization with live attenuated mumps vaccine, and in a population of mumps seronegative subjects. The technique of neutralization of tissue culture infectivity was utilized to study mumps specific antibody. The cell-mediated immunity (CMI) was detected by specific immune release (SIR) of radioactivity by purified lymphocytes after they were reacted with radioactive chromium (51Cr) labeled human conjunctival cell cultures chronically infected with mumps virus. No SIR activity was observed in lymphocytes obtained from cord blood and young individuals seronegative for antibody to mumps virus. Detectable SIR activity was observed in a few older seronegative subjects; however, immunization with mumps vaccine in such antibody negative subjects failed to result in the development of any antibody response in the serum. High SIR activity was observed in the lymphocytes of naturally infected and vaccinated subjects. Although all naturally infected or immunized subjects had varying levels of mumps specific antibody activity in the serum, no correlation existed between the levels of antibody and SIR activity. These observations suggest the development of mumps specific in vitro correlates of CMI after naturally acquired or vaccine-induced mumps virus infection.     

不同保存条件下Wm84株腮腺炎减毒活疫苗的稳定性

采用留样观察法对Wm84株腮腺炎减毒活疫苗在不同保存条件和不同规格疫苗(1 mL/支21批、0.5mL/支24批)的稳定性进行了比较.结果表明不同规格疫苗的稳定性均较好,疫苗保存温度越低其稳定性越好.     

Genetic Variation in the HN and SH Genes of Mumps Viruses: A Comparison of Strains from Mumps Cases with and without Neurological Symptoms

Background

It is known that mumps virus (MuV) strains may vary in their neurovirulent capacity, and certain MuV strains may be highly neurotropic. In animal models and epidemiological studies, mutations at specific amino acids (aa) have been proposed to be associated with neurovirulence. To assess whether these genetic variations can be observed in clinical samples from patients and if they correlate with neurovirulence as determined by clinical symptoms, 39 mumps patients with or without neurological symptoms were investigated.

Principal Findings

Respiratory samples, oral fluids, throat swabs, and neurological and cerebrospinal fluid samples were tested by RT-PCR and products sequenced. Sequences of the entire small hydrophobic (SH) gene and the partial hemagglutinin-neuraminidase (HN) gene were compared.

Conclusions

The results showed there was no significant difference between the samples of the two groups of patients at the aa sites in either the HN protein or the SH protein, which have previously been hypothesized to be associated with neurovirulence or antigenicity. The occurrence of neurological symptoms of mumps does not appear to be due to a single point mutation in either the HN or SH gene.