Molecular characterisation of measles virus strains among refugees from Central African Republic in Cameroon in 2014.

Measles is a highly infectious human viral disease caused by measles virus (MeV). An estimated 114 900 measles deaths occurred worldwide in 2014. There are currently eight clades (A-H) comprised 24 MeV genotypes. We sought to characterise MeVs among Central African Republic (CAR) refugees during the 2014 measles epidemic in Cameroon. Samples were collected from children <15 years with suspected measles infections in two refugee camps in the east region of Cameroon. Viral RNA was extracted directly from urine samples. RNA detection of MeV RNA was performed with real-time reverse transcription polymerase chain reaction (PCR) to amplify a 634 bp nucleotide fragment of the N gene. The sequence of the PCR product was obtained to determine the genotype. MeV RNA was detected in 25 out of 30 samples from suspected cases, and among the 25 positive samples, MeV sequences were obtained from 20. The MeV strains characterised were all genotype B3. The MeV strains from genotype B3 found in this outbreak were more similar to those circulating in Northern Cameroon in 2010-2011 than to MeV strains circulating in the CAR in 2011. Surveillance system should be improved to focus on refugees for early detection of and response to outbreaks.

Current status of diagnostic methods for henipavirus.

Hendra virus (HeV) and Nipah virus (NiV) are the causative agents of emerging transboundary animal disease in pigs and horses. They also cause fatal disease in humans. NiV has a case fatality rate of 40 - 100%. In the initial NiV outbreak in Malaysia in 1999, about 1.1 million pigs had to be culled. The economic impact was estimated to be approximately US$450 million. Worldwide, HeV has caused more than 60 deaths in horses with 7 human cases and 4 deaths. Since the initial outbreak, HeV spillovers from Pteropus bats to horses and humans continue. This article presents a brief review on the currently available diagnostic methods for henipavirus infections, including advances achieved since the initial outbreak, and a gap analysis of areas needing improvement.

Molecular epidemiology of measles virus.

Genetic characterization of wild-type measles viruses provides a means to study the transmission pathways of the virus and is an essential component of laboratory-based surveillance. Laboratory-based surveillance for measles and rubella, including genetic characterization of wild-type viruses, is performed throughout the world by the WHO Measles and Rubella Laboratory Network, which serves 166 countries in all WHO regions. In particular, the genetic data can help confirm the sources of virus or suggest a source for unknown-source cases as well as to establish links, or lack thereof, between various cases and outbreaks. Virologic surveillance has helped to document the interruption of transmission of endemic measles in some regions. Thus, molecular characterization of measles viruses has provided a valuable tool for measuring the effectiveness of measles control programs, and virologic surveillance needs to be expanded in all areas of the world and conducted during all phases of measles control.

Investigation of a mumps outbreak among university students with two measles-mumps-rubella (MMR) vaccinations, Virginia, September-December 2006.

Following the clinical diagnosis of the first case of mumps on September 22, 2006 at the University of Virginia (UVA), 52 suspected cases were identified through active surveillance for mumps by the end of December 2006. Samples were collected from 47 students who presented with parotitis despite a documented history of two doses of measles, mumps, and rubella (MMR) vaccine. Six of 47 serum samples (13%) were positive for mumps IgM, and 46/47 specimens were positive for mumps IgG. Endpoint titration of acute phase serum samples from laboratory-confirmed cases did not provide evidence that elevated serum IgG is a consistent marker for infection among cases due to secondary vaccine failure. Buccal swab samples from 39 of the 47 students were tested by real-time reverse transcription-polymerase chain reaction (RT-PCR) and/or viral culture. Mumps virus or mumps RNA was detected in 12 of 39 buccal samples (31%). Genetic analysis of the virus from the outbreak at UVA indicated that the outbreak was not linked to the large mumps outbreak in the Midwestern US that occurred earlier in 2006. Our findings support the use of viral detection to improve laboratory diagnosis of mumps among persons who have received two doses of MMR.

Nipah virus: a recently emergent deadly paramyxovirus.

A paramyxovirus virus termed Nipah virus has been identified as the etiologic agent of an outbreak of severe encephalitis in people with close contact exposure to pigs in Malaysia and Singapore. The outbreak was first noted in late September 1998 and by mid-June 1999, more than 265 encephalitis cases, including 105 deaths, had been reported in Malaysia, and 11 cases of encephalitis or respiratory illness with one death had been reported in Singapore. Electron microscopic, serologic, and genetic studies indicate that this virus belongs to the family Paramyxoviridae and is most closely related to the recently discovered Hendra virus. We suggest that these two viruses are representative of a new genus within the family Paramyxoviridae. Like Hendra virus, Nipah virus is unusual among the paramyxoviruses in its ability to infect and cause potentially fatal disease in a number of host species, including humans.

Genetic variability and mRNA editing frequencies of the phosphoprotein genes of wild-type measles viruses.

The sequences of the nucleoprotein (N) and hemagglutinin (H) genes are routinely used for molecular epidemiologic studies of measles virus (MV). However, the amount of genetic diversity contained in other genes of MV has not been thoroughly evaluated. In this report, the nucleotide sequences of the phosphoprotein (P) genes from 34 wild-type strains representing 15 genotypes of MV were analyzed and found to be almost as variable as the H genes but less variable than the N genes. Deduced amino acid sequences of the three proteins encoded by the P gene, P, V and C, demonstrated considerably higher variability than the H proteins. Phylogenetic analysis showed the same tree topography for the P gene sequences as previously seen for the N and H genes. RNA editing of P gene transcripts affects the relative ratios of P and V proteins, which may have consequences for pathogenicity. Wild-type isolates produced more transcripts with more than one G insertion; however, there was no significant difference in the use of P and V open reading frames, suggesting that the relative amounts of P and V proteins in infected cells would be similar for both vaccine and wild-type strains.

Molecular biology of Hendra and Nipah viruses.

The structure and genetic organization of Hendra and Nipah viruses places them in the subfamily Paramyxovirinae. However, low homology with other subfamily members and several novel biological and molecular features such as genome length and F(0 )cleavage site suggest classification in a new genus within the Paramyxovirinae.

A europium fluoroimmunoassay for measuring binding of antigen to class II MHC glycoproteins.

A dissociation-enhanced lanthanide fluoroimmunoassay employing europium-streptavidin and time-resolved fluorimetry was developed to measure binding of biotin-labeled peptides to class II MHC proteins. Binding of biotin-peptides as measured by this assay was saturable and inhibited in the presence of unlabeled peptide. Background fluorescence was minimal and there was a direct relationship between signal and biotin-peptide/class II complex concentration from 1.3 pmol to less than 1 fmol total class II. The sensitivity of the assay and the ability to selectively capture specific class II proteins from detergent lysates of cells with solid phase mAb made it possible to measure formation peptide/class II complexes in live APC cultured with biotin-labeled insulin. This assay is expected to be useful for routine measurement of peptide/class II binding and biochemical analysis of Ag processing events.

New genetic group of measles virus isolated in the People's Republic of China.

Genetic and antigenic characterization of 14 wild-type measles viruses isolated from four provinces in the People's Republic of China during 1993 and 1994 was conducted. Sequence analyses of the hemagglutinin (H) and nucleoprotein (N) genes indicated that 13 of the 14 Chinese viruses comprised a previously undescribed genetic group. Viruses from this unique group were the most genetically diverse measles viruses described, so far. The Chinese viruses differed from other wild-type viruses by as much as 6.9% in the H gene and 7.0% in the N gene at the nucleotide level. One of the 14 viruses was a member of the same genetic group that contains the Edmonston strain. Antigenic analysis using monoclonal antibodies to the H protein did not detect significant differences in binding patterns between the Chinese viruses and other wild-type measles viruses. In addition, representative viruses from the unique Chinese group were neutralized by both human post-vaccination antiserum and mouse antiserum against the H protein of the Edmonston vaccine virus. Viruses closely related to these Chinese viruses were also associated with importations of measles into the United States during 1997 from Vietnam and Hong Kong suggesting that viruses from this new genetic group continue to circulate in China and possibly other parts of Asia.

Comparison of sequences of the H, F, and N coding genes of measles virus vaccine strains.

Many live-attenuated vaccines for measles virus have been developed using either the prototype Edmonston strain or other locally isolated measles strains. The attenuation methods used to develop these vaccines have differed in the type(s) of cell line(s) used, number of passages, and temperatures of incubation. To assess the extent of genetic diversity within vaccine strains and to determine the extent to which the varied passage histories may have affected the viruses, we conducted sequence analyses of the fusion, hemagglutinin, nucleoprotein, and matrix genes of Edmonston-derived and non-Edmonston-derived strains. Despite the diverse geographic origins of the vaccine viruses and the different attenuation methods used, there was remarkable sequence similarity among all strains examined. The sequences of all of the vaccine strains were very similar to the sequences of a low-passage seed of the original Edmonston strain. The most divergent sequences were from two of the non-Edmonston-derived vaccines: CAM-70, a vaccine developed from a Japanese wild-type virus, and S-191, which was developed in China.

Genetic and antigenic characterisation of the haemagglutinin protein of measles virus strains recently circulating in the UK.

The complete nucleotide sequence of the H protein gene of seven measles virus (MV) strains, representing three MV genotypes circulating in the UK in recent years, was determined. Compared to the MV vaccine strain Moraten (Mor-v), the divergence of the coded H gene (aal-600) of the seven UK strains was between 1.8% and 2.8%. Representative isolates from each of the genotypes were tested by radio-immunoprecipitation using a panel of H protein-specific MAbs. Different patterns of MAb reactivity were shown between the three genotypes and between the wild-type strains and the vaccine strain. Plaque reduction neutralising antibody titres against strains UK350/94 (genotype I) and UK226/94 (genotype III) were measured in sera from 11 vaccinees. Vaccine derived antibody neutralised both strains and the GMTs were not significantly lower against the wild-type strains than against strain Mor-v.

Genetic characterization of contemporary wild-type measles viruses from Vietnam and the People's Republic of China: identification of two genotypes within clade H.

Genetic characterization was conducted on 17 wild-type measles viruses isolated near Hanoi, Vietnam, during 1998 as well as on eight viruses isolated in the Hunan, Hainan, Shandong, and Anhui provinces of the People's Republic of China during 1995, 1998, and 1999. Previous studies had shown that, compared to wild-type measles viruses found in other parts of the world, wild-type viruses from China were genetically distinct and comprised a new clade of viruses, clade H. In this study, sequence analyses of the nucleotides coding for the COOH terminal 150 amino acids of the nucleoprotein (N) and the entire hemagglutinin (H) protein indicated that although all of the viruses from Vietnam were members of clade H, they were clearly distinct from the Chinese viruses. With the exception of MVi/Beijing.China/94/1, the Vietnamese viruses differed from all of the Chinese viruses by at least 3.5 and 2.5% at the nucleotide level for the N and H genes, respectively. These data suggest that clade H should be divided into two genotypes with the Chinese viruses placed in genotype H1 and the Vietnamese viruses in genotype H2. Sequence analysis of measles viruses imported into the United States from either China or Vietnam demonstrated that this designation of genotypes will be helpful in future measles surveillance activities.

Comparison of inactivated, live and recombinant DNA vaccines against influenza virus in a mouse model.

The protective efficacy of influenza hemagglutinin expressed from recombinant vaccinia virus was compared with that induced by inactivated or infectious influenza vaccines. Intraperitoneal and intranasal routes of vaccination were compared. All the vaccines except the intranasally administered, inactivated vaccine induced detectable levels of neutralizing and hemagglutination-inhibiting antibodies in the serum of mice at 28 days postvaccination. Immunization with any of the intranasally administered vaccines reduced the amount of influenza virus nucleoprotein antigen in lungs after challenge with a homologous, mouse-adapted strain of influenza virus. Intraperitoneally administered vaccines failed to provide such protection. These results indicated that the route of vaccine administration may be the most critical factor for inducing protective immunity. The results also showed that in this mouse model a recombinant DNA-based vaccine could provide protection equivalent to that provided by conventional attenuated and inactivated influenza vaccines.

Monitoring progress toward measles elimination by genetic diversity analysis of measles viruses in China 2009-2010.

With the achievement of high coverage for routine immunization and supplementary immunization activities (SIAs), measles incidence in mainland China reached its lowest level in 2010. The proportion of measles cases in the vaccination-targeted population decreased during 2007-2010 after the SIAs. More than 60% of measles cases were in adults or infants, especially in the coastal and eastern provinces during 2009 and 2010. A total 567 isolates of measles virus were obtained from clinical specimens from 27 of 31 provinces in mainland China during 2009 and 2010. Except for two vaccine-associated cases, one genotype D4 strain, two genotype D9 strains, and four genotype D11 strains, the other 558 strains were genotype H1 cluster H1a. Genotype H1 has been the only endemic genotype detected in China since surveillance began in 1993. Only genotype H1 was found in mainland China during 1993-2008, except for one detection of genotype H2. More recently, multiple genotypes of imported measles were detected even with the background of endemic genetotype H1 viruses. Analysis of the 450-nucleotide sequencing window of the measles virus N gene showed that the overall genetic diversity of the recent geneotype H1 strains decreased between 2008 and 2010. The lower genetic diversity of H1 strains suggested that enhanced vaccination may have reduced the co-circulating lineages of endemic genotype H1 strains in mainland China.

Genetic variability of wild-type measles viruses, circulating in the Russian Federation during the implementation of the National Measles Elimination Program, 2003-2007.

Genetic characterization of wild-type measles viruses (MVs) is an important component of laboratory surveillance of measles. In this study, a phylogenetic analysis was performed of the nucleoprotein gene sequences of 228 MVs isolated in the Russian Federation between 2003 and 2007. Five genotypes, D4, D5, D6, D8, and H1, were detected. From 1999 through the first 6 months of 2003, the most prevalent genotype in the European part of Russia was D4. All genotype D4-type viruses were closely related to each other (with overall sequence diversity of

Effects of single amino acid substitutions at the E residue in the conserved GDNE motif of the Nipah virus polymerase (L) protein.

Nipah virus (NiV) is an emergent zoonotic paramyxovirus. The L proteins of most paramyxoviruses contain a GDNQ motif, thought to be part of the catalytic site for polymerase activity. Conversely, NiV L has GDNE in this position. We substituted the E residue with eight different amino acid residues and examined the effect on L function in an in vitro replication assay. Our results demonstrated that NiV L functioned with similar efficiency with either GDNE or GDNQ, but polymerase activity was severely reduced or abolished when a structurally destabilising residue (such as K, P or G) was introduced at this site.

Proposal for genetic characterisation of wild-type mumps strains: preliminary standardisation of the nomenclature.

Though mumps virus (MuV) is a monotypic virus, genetic variation between strains has been described. Viruses have been placed into genotypes designated A-L based on the nucleotide sequence of the small hydrophobic (SH) gene, which is the most variable gene in the mumps genome. Molecular characterisation of MuV is an important component of mumps surveillance because it can help identify the transmission pathways of the virus as well as distinguish between wild-type and vaccine strains. Here, we propose a standardized nomenclature and an analysis protocol for the genetic characterisation of mumps strains to facilitate expansion of molecular epidemiological studies. In addition to assigning standard reference strains for the recognized genotypes of MuV, a convention is proposed for naming for strains and criteria to designate a new genotype.

Genetic diversity of wild-type measles viruses: implications for global measles elimination programs.

Wild-type measles viruses have been divided into distinct genetic groups according to the nucleotide sequences of their hemagglutinin and nucleoprotein genes. Most genetic groups have worldwide distribution; however, at least two of the groups appear to have a more limited circulation. To monitor the transmission pathways of measles virus, we observed the geographic distribution of genetic groups, as well as changes in them in a particular region over time. We found evidence of interruption of indigenous transmission of measles in the United States after 1993 and identified the sources of imported virus associated with cases and outbreaks after 1993. The pattern of measles genetic groups provided a means to describe measles outbreaks and assess the extent of virus circulation in a given area. We expect that molecular epidemiologic studies will become a powerful tool for evaluating strategies to control, eliminate, and eventually eradicate measles.

Homology between feline herpesvirus-1 and canine herpesvirus.

The purpose of this study was to determine the extent of the relatedness between feline herpesvirus-1 (FHV-1) and canine herpesvirus (CHV). Immunoprecipitation studies using antisera to FHV-1 and CHV revealed that both share virion glycoprotein antigens with apparent molecular weights of approximately 60 and 68 kDa. Two non-glycosylated, virion-associated antigens of each virus also displayed weaker cross reactivity. Southern blot hybridization experiments indicated that restriction fragments which represented approximately 51% of the FHV-1 genome hybridized to CHV DNA under conditions which allowed less than 7% base pair mismatch. This is the first molecular characterization of cross-reactivity between FHV-1 and another herpesvirus.