Oka varicella vaccine is distinguishable from its parental virus in DNA sequence of open reading frame 62 and its transactivation activity

When the nucleotide sequences of the Oka vaccine and its parental varicella-zoster virus (VZV) were compared in 6 open reading frames (ORFs), glycoprotein C (gC) and 5 transactivator genes, mutations were detected only in the immediate-early gene 62. The vaccine virus contained a mixture of different sequences that had variations at 15 nucleotide positions, but only one sequence was found for the Oka parental virus gene 62. The Oka vaccine virus gene 62 could be distinguished from the parental virus gene using a simplified restriction-enzyme fragment length polymorphism analysis, using NaeI and BssHII. This analysis was based on the sequence data obtained in this study. Studies of the regulatory activities of the ORF62 gene product (IE62) in a transient transfection assay indicated that IE62 of the parental virus had a stronger transactivational activity than that of the vaccine virus in activating immediate-early, early, and late gene promoters. These data suggest that IE62 might play an important role in the attenuation of VZV.     

Genetic variation of the prevailing porcine respiratory and reproductive syndrome viruses occurring on a pig farm upon vaccination

Summary. Recurrence of porcine respiratory and reproductive syndrome (PRRS) was observed on a pig farm after introducing two PRRS live virus vaccines to combat preceding outbreaks. The phylogenetic analysis of the nucleotide sequence encoding the GP5 envelope glycoprotein and the nucleocapsid protein coding sequences (ORF5 and ORF7, respectively) showed a close genetic relationship between the new outbreak-related and one of the vaccine viruses, while the prevailing PRRS virus genetic variants disappeared from the farm. These findings, supported by the epidemiological data, indicate that the new variant PRRS viruses might originate from a vaccine virus and demonstrate the limited efficacy of modified live vaccines against heterologous PRRS virus strains.     

Correlation of genetic variability with safety of mumps vaccine Urabe AM9 strain

The Urabe AM9 strain of mumps vaccine live is known for its genetic instability and some vaccines derived from this strain were withdrawn from the market due to an excessive number of vaccine-associated parotitis and meningitis cases. To identify the molecular basis of this instability, we determined complete nucleotide sequences of several stocks of the Urabe strain used for vaccine production by different manufacturers and of two clinical isolates from cases of vaccine-associated meningitis. In contrast to previously published studies relating the Lys335 --> Glu mutation in the viral HN gene with neurovirulence of mumps virus, we could not confirm any association of this mutation with the safety of mumps vaccine. Each of the three vaccine stocks studied had its own characteristic profile of mutations that was identified by cDNA sequencing and quantitated by mutant analysis by PCR and restriction enzyme cleavage. Determination of the mutational profile of mumps vaccine lots could allow vaccine manufacturers to characterize seed viruses and monitor the consistency of vaccine production to prevent emergence of virulent revertants.     

Genetic and antigenic characterization of complete genomes of Type 1 Porcine Reproductive and Respiratory Syndrome viruses (PRRSV) isolated in Denmark over a period of 10 years

Porcine Reproductive and Respiratory Syndrome (PRRS) caused by the PRRS virus (PRRSV) is considered one of the most devastating swine diseases worldwide. PRRS viruses are divided into two major genotypes, Type 1 and Type 2, with pronounced diversity between and within the genotypes. In Denmark more than 50% of the herds are infected with Type 1 and/or Type 2 PRRSV. The main objective of this study was to examine the genetic diversity and drift of Type 1 viruses in a population with limited introduction of new animals and semen. A total of 43 ORF5 and 42 ORF7 nucleotide sequences were obtained from viruses collected from 2003 to February 2013. Phylogenetic analysis of ORF5 nucleotide sequences showed that the Danish isolates formed two major clusters within the subtype 1. The nucleotide identity to the subtype 1 protogenotype Lelystad virus (LV) spanned 84.9–98.8% for ORF5 and 90.7–100% for ORF7. Among the Danish viruses the pairwise nucleotide identities in ORF5 and ORF7 were 81.2–100% and 88.9–100%, respectively. Sequencing of the complete genomes, including the 5′- and 3′-end nucleotides, of 8 Danish PRRSV Type 1 showed that the genome lengths differed from 14,876 to 15,098 nucleotides and the pairwise nucleotide identity among the Danish viruses was 86.5–97.3% and the identity to LV was 88.7–97.9%. The study strongly indicated that there have been at least two independent introductions of Type 1 PRRSV in Denmark and analysis of the full genomes revealed a significant drift in several regions of the virus.     

Genotyping of different varicella vaccine strains.

BACKGROUND: Little is known about single nucleotide polymorphism (SNP) in different lots of varicella vaccines distributed by the manufacturers. Recently, the genetic analysis of several genomic regions revealed a polymorphism in different vaccine lots of Varilrix manufactured by GlaxoSmithKline. These findings need attention since mutations in the vaccine strain could result in changes of virulence and efficacy of the vaccine. OBJECTIVES: To identify SNPs in three varicella vaccine lots of Varilrix and to compare the results with that of Varivax as well as the published sequences of the Oka vaccine strain (V-Oka) and its parental virus (P-Oka). STUDY DESIGN: The open reading frames (ORF) 1, 6, 10, 21, 50, 54, and 62 were analyzed by sequencing of amplified DNA fragments. RESULTS: Wild-type nucleotides identical to that of P-Oka and/or the European wild-type reference strain Dumas and in contrast to V-Oka could be identified in ORF 1 of a Varilrix vaccine lot distributed in 1991. In the ORF 62 probably responsible for attenuation of V-Oka, this vaccine strain contained 16 SNPs which were nearly all wild-type-like. By contrast, different lots of the Varivax vaccine revealed uniform sequencing results. The vaccine Varilrix 1999 showed a high similarity to the Varivax vaccine currently available. CONCLUSIONS: The obvious genetic diversity of different lots of the varicella vaccine Varilrix cannot be explained with the coexistence of several strain variants in the vaccine, but most likely with different seed lot preparations used for vaccine production.     

Mutations in the genome of porcine reproductive and respiratory syndrome virus responsible for the attenuation phenotype

Summary.  Although live-attenuated vaccines have been used for some time to control clinical symptoms of the porcine reproductive and respiratory syndrome (PRRS), the molecular bases for the attenuated phenotype remain unclear. We had previously determined the genomic sequence of the pathogenic PRRSV 16244B. Limited comparisons of the structural protein coding sequence of an attenuated vaccine strain have shown 98% homology to the pathogenic 16244B. Here we have confirmed the attenuated phenotype and determined the genomic sequence of that attenuated PRRSV vaccine and compared it to its parental VR-2332 and the 16244B strains. The attenuated vaccine sequence was colinear with that of the strain 16244B sequence containing no gaps and 212 substitutions over 15,374 determined nucleotide sequence. We identified nine amino acid changes distributed in Nsp1β, Nsp2, Nsp10, ORF2, ORF3, ORF5 and ORF6. These changes may provide the molecular bases for the observed attenuated phenotype. Received August 28, 1999 Accepted December 16, 1999     

Determining genetic stabilities of chimeric dengue vaccine candidates based on dengue 2 PDK-53 virus by sequencing and quantitative TaqMAMA

The genetic stabilities of the three attenuation loci of the candidate dengue 2 (D2) PDK-53 vaccine virus were evaluated for the PDK-53 virus and PDK-53-vectored chimeric D2/1, D2/3, and D2/4 viruses following 10 sequential passages in Vero cells. Sequencing revealed that the dominant NS1-53-Asp and the NS3-250-Val attenuation loci were extremely stable, whereas reversion occurred at the 5'NCR-57-U locus in 10 of the 18 viral lineages tested. A more sensitive and quantitative assay, the TaqMan mismatch amplification mutation assay (TaqMAMA), was employed to more finely discriminate the level of reversion at the 5'NCR-57 locus. This rapid genetic assay permitted detection of 80% in the viral population. Chimeric viruses based on the PDK-53-V (all three mutations present) genetic background were more stable than those developed in the PDK-53-E (5'NCR and NS1 mutations present) background. The TaqMAMA can be applied in quality control analyses to ensure that attenuated vaccine seeds contain undetectable or minimal levels of reversion at a given attenuation locus.     

Genetic characterization of the Korean porcine reproductive and respiratory syndrome viruses based on the nucleocapsid protein gene (ORF7) sequences

To investigate the genetic characteristics of the Korean porcine reproductive and respiratory syndrome virus (PRRSV), we determined the complete sequence of the nucleocapsid protein gene (ORF7) from 105 PRRSV isolates from all nine Korean prefectures during the years 2003 through 2006. These sequences were then analyzed along with the published ORF7 sequences for two Korean PRRS viruses (PL97-1/1997 and LMY/2002) and 36 non-Korean viruses. The ORF7 nucleotide sequence identities among the 107 Korean PRRS viruses ranged from 86.2 to 100%, corresponding to 85.4 to 100% identity at the amino acid level. All of the Korean isolates examined belonged to the North American genotype. The ORF7 gene sequence from the North American prototype virus (VR-2332) and its derived vaccine virus (Ingelvac PRRS MLV) was 90.0–100% identical to the various ORF7 sequences of the Korean isolates, with corresponding amino acid identities from 91.0 to 100%. In the phylogenetic tree obtained by neighbor-joining analysis, all of the Korean PRRSVs were divided into four groups. Our ORF7 sequence data also revealed no correlations between the date or place of collection and the distribution of PRRSV in Korea. North American genotype PRRSVs may have been introduced into Korean swine herds some time ago; these viruses apparently radiated nationwide within a relatively short period of time. Within the North American genotype PRRSVs from around the world, the Korean PRRSVs did not emerge as a single independent clade overall, and their immediate relationships with the PRRSVs from other countries could not be determined.     

New method of differentiating wild-type varicella-zoster virus (VZV) strains from Oka varicella vaccine strain by VZV ORF 6-based PCR and restriction fragment length polymorphism analysis.

A new method was developed to distinguish accurately wild-type varicella-zoster virus (VZV) strains from the Oka vaccine strain. Several DNA fragments covering open reading frame (ORF) 1-37 were amplified from wild-type VZV strains including the Oka parent strain and from the Oka vaccine strain. Restriction fragment length polymorphisms of these regions were compared, and nucleotide differences between the vaccine virus and other wild-type VZV strains were noted in ORFs 6, 10, and 35. In addition, variations of the R2 and R4 reiterated structures of the vaccine and its parent strains were examined. The Oka vaccine strain used in Japan was shown to be a mixture of viruses with different nucleotide sequences that had variations in at least three nucleotide positions in ORF 1-37 and had variable polymorphisms at R2 and R4 repeat regions (two and three patterns, respectively). The Oka parent strain on the other hand showed a single sequence and had only one reiterated structure at these regions. When VZV ORF 6 was amplified and its product was digested with AluI, the Oka vaccine strain could be precisely differentiated from its parent and from 56 other Japanese clinical isolates.     

Genomic Features of Attenuated Junín Virus Vaccine Strain Candidate

Junin virus strain Candid #1 was developed as a live attenuated vaccine for Argentine haemorrhagic fever. In this paper, we report the nucleotide sequences of L RNA of Candid #1 and examine the relationship to its more virulent ancestors Junin virus XJ#44 and XJ 13 (prototype) and other closely and distantly related arenaviruses. Comparisons of the nucleotide and amino acid sequences of L and Z genes of Candid #1 and its progenitor strains revealed twelve point mutations in the L polypeptide that are unique to the vaccine strain. These changes could be provisionally associated with the attenuated phenotype. In contrast, Z ORF was completely conserved among all strains. The nucleotide sequences data of the of the L RNA of the Junin virus strains reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession numbers: AY819707.     

Evidence for the adaptive evolution of ORF5 gene of Porcine reproductive and respiratory syndrome virus isolated in China

Porcine reproductive and respiratory syndrome virus (PRRSV) ORF5 gene encoding an envelope glycoprotein involved in humoral immunity is the most variable protein-coding gene of PRRSV. The present study aimed to identify potential selective pressures acting on the ORF5 gene of PRRSV isolates of North American type prevalent in China. The non-synonymous to synonymous rate ratio ω (dN/dS) was employed as a measure of selective pressure at the codon level. An overall ω of 0.45 indicated negative (purifying) selection as the major driving force operating on the ORF5 gene during adaptation of the virus to swine. Determination of ω values for individual amino acids sites revealed 8 positively selected sites, most of them situated in the N-terminal ectodomain, indicating their potential role in the binding of virus to the cellular receptors. Further, 75 negatively selected sites were identified in the rest of molecule, probably as a result of functional or immunological constraints. Determination of potential N-glycosylation sites revealed 7 sites, four of which coincided with the positively selected ones. These results indicated that a specific adaptive evolution has operated on the ORF5 gene of Chinese PRRSV isolates. It is hoped that the disclosed adaptive sites might help identify a candidate antigenic epitope for the use in vaccine against this serious swine disease.     

Evolution of attenuating mutations in dengue-2 strain S16803 PDK50 vaccine and comparison of growth kinetics with parent virus

A live-attenuated dengue-2 virus strain S16803 vaccine candidate that is immunogenic and safe in humans was derived by 50 passages in primary dog kidney (PDK) cells. To identify mutations associated with attenuation of the dengue-2 PDK50 vaccine strain, we determined the nucleotide changes that arose during PDK passage of the dengue-2 virus. Thirteen mutations distinguished the PDK50 virus from low-passage parent resulting in amino acid substitutions in the premembrane (E89G), envelope (E202K, N203D), nonstructural proteins NS1 (A43T), NS2A (L181F), NS2B (I26V), and NS4B (I/T108T, L112F). In addition, the PDK50 virus contained a C to T change of nucleotide 57 in the 5′ non-coding region and four silent mutations of nucleotides 591, 987, 6471, and 8907. An infectious PDK50 cDNA clone virus was produced and characterized for growth kinetics in monkey (LLC-MK₂, Vero) and mosquito (C6/36) cells. Identification of mutations in the vaccine strain and availability of an infectious clone will permit systematic analysis of the importance of individual or collective mutations on attenuation of dengue virus.     

Reversion to normal phenotype induced by SV40 in a spontaneously transformed malignant Chinese hamster cell line

By using a selection procedure that excluded the transforming effect of SV40, reversions to several properties of normal phenotype were for the first time obtained in a transformed Chinese hamster cell line after SV40 infection. The value of induction to recovery of contact inhibition was typical for SV40-induced reverse gene mutations. Thirteen of 15 isolated revertant clones were T-antigen positive, thus synthesizing the product of viral oncogene. Therefore, in the majority of clones reversion occurred in spite of the presence of viral transforming protein. Dot hybridization revealed the presence of SV40 DNA in all revertants including those expressing no T antigen. The virus rescued from one T-antigen positive and two negative clones proved to be infectious. Reversion to contact inhibition was followed by reversion as regards serum requirements and growth in soft agar. However, in all cases reversion was partial. Karyologic analysis of revertant clones showed that six clones maintained the hypodiploid karyotype of the parental clone, six revertants were near-tetraploid, and one was near triploid. The possible events underlying the SV40-induced reversions to normal phenotype and the role of virus-induced mutations in viral carcinogenesis are discussed.     

Second-site mutations encoding residues 34 and 78 of the major capsid protein (VP5) of herpes simplex virus type 1 are important for overcoming a blocked maturation cleavage site of the capsid scaffold proteins

During assembly of the herpes simplex type 1 capsid, the major capsid protein VP5 interacts with the C-terminal residues of the scaffold proteins encoded by UL26 and UL26.5. Subsequent to capsid assembly the scaffold proteins are cleaved at the maturation site by a serine protease also encoded by UL26, thereby enabling the bulk of the scaffold proteins to be released from the capsid. Previously, a mutant virus (KUL26-610/611) was isolated in which this maturation cleavage site was blocked by replacing the Ala/Ser at the 610/611 cleavage site by Glu/Phe. This mutation was lethal and required a transformed cell line expressing wild-type UL26 gene products for growth. Although the mutation was lethal, spontaneous reversions occurred at a high frequency. Previously, a small number of revertants were isolated and all were found to have second-site mutations in VP5. The purpose of the present study was to do a comprehensive determination of the sites altered in VP5 by the second-site mutations. To do this, an additional 25 independent spontaneous revertants were characterized. Seven of the 25 arose by GC --> GT changes in codon 78, giving rise to an alanine to valine substitution. Four were the result of base changes at codon 34 but two different amino acids were produced as the changes were at different positions in the codon. Two mutations were detected at position 41 and mutations that occurred once were found at codons 69 and 80. Thus, 15 of the 25 second-site mutants were localized to codons 34 to 80 of VP5, which contains 1374 amino acids. The remaining 10 revertants had codon changes at nine different sites, of which the most N-terminal was altered at codon 187 and the most C-terminal at codon 1317. As noted in the much smaller study a preponderance of the second-site mutants in VP5 were altered in codons at the extreme N-terminus of VP5. It is especially noteworthy that 11 out of 25 of the mutations occurred at codons 34 and 78. As expected, all of the revertants isolated were shown to retain the original KUL26-610/611 mutation, and the scaffold proteins remain uncleaved. All showed decreased retention of VP24 in the B capsids compared to the wild-type KOS, but more than the KUL26-610/611 parental virus. The revertants all had decreased growth rates of 2 to 18% compared to that of KOS and showed varying degrees of sensitivity when grown at 39.5 degrees C. The mutations in VP5 of three of the previously isolated viruses (PR5, PR6, and PR7) were transferred into a wild-type background, i.e., a virus encoding wild-type UL26 and UL26.5 gene products. All replicated in nonpermissive (Vero) cells and cleaved scaffold proteins. PR5 and PR6 in the wild-type background gave wild-type burst sizes and gave C-capsids that retained VP24 at approximately wild-type levels. The third revertant, PR7, in the wild-type background showed only a twofold increase of burst size (to 20% of wild-type) and the capsids showed little or no increase of VP24 retention. Therefore, the second-site mutations of PR7 (R69C) by itself had a negative effect on virus replication. By contrast the temperature sensitivity of PR6 and PR7 remained unchanged in the wild-type background. Thus the temperature sensitivity of PR6 and PR7 resides in VP5 independently of the mutation in the UL26 cleavage site.     

Complete genome sequence of virulent duck enteritis virus (DEV) strain 2085 and comparison with genome sequences of virulent and attenuated DEV strains

We here report the complete genome sequence of the duck enteritis virus (DEV) wild-type strain 2085, an avian herpesvirus (GenBank ID: JF999965). The nucleotide sequence was derived from the 2085 genome cloned as an infectious bacterial artificial chromosome (BAC) clone. The DEV 2085 genome is 160,649-bp in length and encodes 78 predicted open reading frames (ORFs), a number identical to that identified for the attenuated DEV VAC strain (GenBank ID: EU082088.2). Comparison of the genome sequences DEV 2085 and VAC with partial sequences of the virulent CHv strain and the attenuated strain Clone-03 was carried out to identify nucleotide or amino acid polymorphisms that potentially contribute to DEV virulence. No amino acid changes were identified in 24 of the 78 ORFs, a result indicating high conservation in DEV independently of strain origin or virulence. In addition, 39 ORFs contain non-synonymous nucleotide substitutions, while 15 ORFs had nucleotide insertions or deletions, frame-shift mutations and/or non-synonymous nucleotide substitutions with an effect on ORF initiation or termination. In 7 of the 15 ORFs with high and 27 of the 39 ORFs with low variability, polymorphisms were exclusively found in DEV 2085, a finding that likely is a result of a different origin of 2085 (Europe) or VAC, Clone-03 and CHv (Eastern Asia). Five ORFs (UL2, UL12, US10, UL47 and UL41) with polymorphisms were identical between the virulent DEV 2085 and CHv but different from VAC or Clone-03. They, individually or in combination, may therefore represent DEV virulence factors. Our comparative analysis of four DEV sequences provides a comprehensive overview of DEV genome structure and identifies ORFs that are changed during serial virus passage.     

Respiration-deficient Chinese hamster cell mutants: Genetic characterization

We present here genetic experiments with a series of Chinese hamster cell mutants defective in oxidative energy metabolism. The mutations were all shown to be recessive in intraspecies hybrids. Thirty-five mutants were sorted into eight complementation groups, but one of these mutants failed to complement representatives of two distinct complementation groups. The possibility was raised that this is a cell carrying two mutations or a deletion. Because of the greatly different frequencies with which such mutants could be isolated from two different Chinese hamster cell lines, CCL16 (DON) and V79, the stability of representatives from each cell line was examined, and it was found that revertants could be obtained after treatment with mutagens, while spontaneous revertants appeared at unmeasurable or extremely low frequencies, with one exception. The mutant with a very noticeable frequency of spontaneous reversion was defective in mitochondrial protein synthesis, and the question arose whether the mutation was on the mitochondrial genome. A detailed fluctuation analysis of reversion rate and comparison with rates for other mutations was consistent with a nuclear mutation. This conclusion was supported by experiments involving fusions with cytoplasts.     

Analysis of genome determinants of virulence and setting-up of a library of full-size genome copies of the attenuated virus strain of the porcine reproductive and respiratory syndrome virus North American type

Primary genome structures of 3 variants of the NADC-8 North American virulent strain of porcine reproductive and respiratory syndrome virus (PRRSV) were compared for the purpose of detecting any potential genetic virulence determinants of genus Arterivirus. Apart from the virulent variant, we also investigated the attenuated variant, obtained after 251 passages in cell culture, and the intermediate variant isolated from a pig after a partial reversion of the attenuated virus. The attenuated variant genome acquired a 3-nucleotide deletion and 50 mutations versus its virulent precursor. A comparison of the attenuated and intermediary virus variants denoted 8 nucleotide mutations entailing substitutions of 6 amino acids in 3 open reading frames (ORF1a, ORF1b and ORF6). A 32-clone library was constructed in the pACYC177 plasmid vector, which comprised full-size copies of the genome of the NADC-8 attenuated variant strain (251), virus PPCC, for the purpose of experimentally verifying the functional role of the obtained mutations. Full-size analogues ((+)-chain of RNA) of the viral genome, comprising the CAP-structures and polyadenylated ones were obtained in vitro on the basis of the cloned DNA. Seven of the 8 analyzed clones of the viral genome were infected and their insertion into the MARC-145 cell resulted in obtaining of infectious PRRSVs. Four of the constructed recombinant viruses had delayed growth parameters, and 3 of them were similar to the parental strain. The described technology (inverse genetics) would make it possible to introduce changes into the viral genome in applied and fundamental research of Arteriviruses.     

水痘-带状疱疹病毒临床分离株基因型别分析以及与Oka疫苗株的区别

目的 运用分子生物学方法 对从水痘或带状疱疹患者皮肤疱疹液中分离得到的水痘-带状疱疹(VZV)株进行基闪型研究,并区分感染是南野牛株还是由Oka疫苗株引起的.方法 从水痘或带状疱疹患者的皮肤水疱液中分离VZV,然后利用聚合酶链反应和限制性片段长度多态性分析对病毒株的ORF38、54、62和R5可变区基因进行分析.结果 在所分离的19株VZV中,存在PstⅠ+ Bgl Ⅰ+ R5A和Pst Ⅰ+ Bgl Ⅰ+RSB两种基因型,其中Pst Ⅰ+ Bgl Ⅰ+ R5A占52.7%,Pst Ⅰ+ Bgl Ⅰ+R5B占47.3%,没有发现与Oka疫苗株相同的基因型.结论 本研究中所分离的VZV毒株均系野生株,它们的基因型与欧洲、美国、日本的VZV分离株均不相同.利用病毒基因组中ORF38和ORF62区域的单一核苷酸多态性,能够区分疫苗株和野毒株.