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1.
J Vet Sci ; 21(5): e64, 2020 Sep.
Article in English | MEDLINE | ID: mdl-33016015

ABSTRACT

BACKGROUND: Canine distemper virus (CDV) infection results in high morbidity and mortality in dogs. There has been no report about isolation of Korean CDV since 1980 in Korea. OBJECTIVES: To investigate the biological properties and the genetic characterization of Korean CDV. METHODS: Vero cells expressing dog signaling lymphocyte activation molecule (dSLAM) gene named as Vero/dSLAM were used to isolate CDV using 17 samples. Diagnostic methods such as cytopathic effects, immunofluorescence assay, peroxidase linked assay, electron microscopy, rapid immunodiagnostic assay, and reverse transcription polymerase chain reaction were used to confirm the Korean CDV isolate as a CDV. The genetic analysis was performed through cloning and sequencing of hemagglutinin gene of CDV isolate. RESULTS: A virus propagated in Vero/dSLAM cell was confirmed as CDV (CD1901 strain) based on the above methods. The CD1901 strain showed the highest viral titer (105.5 50% tissue culture infectious dose [TCID50]/mL) in the Vero/dSLAM cells at 4 days post inoculation, but did not form a fork on chorioallantoic membrane of 7-day-old egg. Ribavirin, a nucleotide analogue anti-viral agent, inhibits moderately the Korean CDV propagation in the Vero/dSLAM cells. The nucleotide and amino acid sequences of the H gene of CD1901 strain were compared with those of other CDV strains. The CD1901 strain belonged to Asia 1 group and had the highest similarity (99.9%) with the BA134 strain, which was isolated in China in 2008. CONCLUSIONS: We constructed successfully Vero/dSLAM and isolated one Korean CDV isolate (CD1901 strain) from a naturally infected dog. The CD1901 strain belonged to Asia 1 genotype.


Subject(s)
Distemper Virus, Canine/physiology , Signaling Lymphocytic Activation Molecule Family Member 1/chemistry , Animals , Chlorocebus aethiops , Distemper/virology , Distemper Virus, Canine/genetics , Distemper Virus, Canine/isolation & purification , Dog Diseases/virology , Dogs , Republic of Korea , Vero Cells
2.
Can J Microbiol ; 65(11): 783-794, 2019 Nov.
Article in English | MEDLINE | ID: mdl-31238018

ABSTRACT

SLAM (CD150) and nectin-4 are the major morbillivirus receptors responsible for virus pathogenesis and host range expansion. Recently, morbillivirus infections have been reported in unnatural hosts, including endangered species, posing a threat to their conservation. To understand the host range expansion of morbilliviruses, we generated the full-length sequences of morbillivirus receptors (goat, sheep, and dog SLAM, and goat nectin-4) and tried to correlate their role in determining host tropism. A high level of amino acid identity was observed between the sequences of related species, and phylogenetic reconstruction showed that the receptor sequences of carnivores, marine mammals, and small ruminants grouped separately. Analysis of the ligand binding region (V region; amino acid residues 52-136) of SLAM revealed high amino acid identity between small ruminants and bovine SLAMs. Comparison of canine SLAM with ruminants and non-canids SLAM revealed appreciable changes, including charge alterations. Significant differences between feline SLAM and canine SLAM have been reported. The binding motifs of nectin-4 genes (FPAG motif and amino acid residues 60, 62, and 63) were found to be conserved in sheep, goat, and dog. The differences reported in the binding region may be responsible for the level of susceptibility or resistance of a species to a particular morbillivirus.


Subject(s)
Mammals/genetics , Morbillivirus Infections/veterinary , Morbillivirus/physiology , Receptors, Virus/genetics , Amino Acid Sequence , Animals , Cats/genetics , Cattle/genetics , Cell Adhesion Molecules/chemistry , Cell Adhesion Molecules/genetics , Dogs/genetics , Goats/genetics , Host Specificity , Mammals/classification , Mammals/virology , Morbillivirus/genetics , Morbillivirus Infections/genetics , Morbillivirus Infections/metabolism , Morbillivirus Infections/virology , Phylogeny , Receptors, Virus/chemistry , Sequence Alignment , Sequence Analysis , Sheep/genetics , Signaling Lymphocytic Activation Molecule Family Member 1/chemistry , Signaling Lymphocytic Activation Molecule Family Member 1/genetics
3.
J Virol ; 92(23)2018 12 01.
Article in English | MEDLINE | ID: mdl-30232185

ABSTRACT

Morbilliviruses infect a broad range of mammalian hosts, including ruminants, carnivores, and humans. The recent eradication of rinderpest virus (RPV) and the active campaigns for eradication of the human-specific measles virus (MeV) have raised significant concerns that the remaining morbilliviruses may emerge in so-called vacated ecological niches. Seeking to assess the zoonotic potential of nonhuman morbilliviruses within human populations, we found that peste des petits ruminants virus (PPRV)-the small-ruminant morbillivirus-is restricted at the point of entry into human cells due to deficient interactions with human SLAMF1-the immune cell receptor for morbilliviruses. Using a structure-guided approach, we characterized a single amino acid change, mapping to the receptor-binding domain in the PPRV hemagglutinin (H) protein, which overcomes this restriction. The same mutation allowed escape from some cross-protective, human patient, anti-MeV antibodies, raising concerns that PPRV is a pathogen with zoonotic potential. Analysis of natural variation within human and ovine SLAMF1 also identified polymorphisms that could correlate with disease resistance. Finally, the mechanistic nature of the PPRV restriction was also investigated, identifying charge incompatibility and steric hindrance between PPRV H and human SLAMF1 proteins. Importantly, this research was performed entirely using surrogate virus entry assays, negating the requirement for in situ derivation of a human-tropic PPRV and illustrating alternative strategies for identifying gain-of-function mutations in viral pathogens.IMPORTANCE A significant proportion of viral pandemics occur following zoonotic transmission events, where animal-associated viruses jump species into human populations. In order to provide forewarnings of the emergence of these viruses, it is necessary to develop a better understanding of what determines virus host range, often at the genetic and structural levels. In this study, we demonstrated that the small-ruminant morbillivirus, a close relative of measles, is unable to use human receptors to enter cells; however, a change of a single amino acid in the virus is sufficient to overcome this restriction. This information will be important for monitoring this virus's evolution in the field. Of note, this study was undertaken in vitro, without generation of a fully infectious virus with this phenotype.


Subject(s)
Antibodies, Viral/immunology , Glycoproteins/metabolism , Mutation , Peste-des-Petits-Ruminants/virology , Peste-des-petits-ruminants virus/pathogenicity , Signaling Lymphocytic Activation Molecule Family Member 1/metabolism , Virus Replication , Amino Acid Sequence , Animals , Chlorocebus aethiops , Glycoproteins/chemistry , Glycoproteins/genetics , Glycoproteins/immunology , Humans , Models, Theoretical , Mutagenesis, Site-Directed , Peste-des-Petits-Ruminants/pathology , Peste-des-Petits-Ruminants/transmission , Peste-des-petits-ruminants virus/genetics , Peste-des-petits-ruminants virus/immunology , Protein Conformation , Sequence Homology , Sheep , Signaling Lymphocytic Activation Molecule Family Member 1/chemistry , Signaling Lymphocytic Activation Molecule Family Member 1/genetics , Signaling Lymphocytic Activation Molecule Family Member 1/immunology , Vero Cells
4.
J Chem Phys ; 146(16): 165103, 2017 Apr 28.
Article in English | MEDLINE | ID: mdl-28456200

ABSTRACT

The signalling lymphocytic activation molecule (SLAM) family of receptors, expressed by an array of immune cells, associate with SLAM-associated protein (SAP)-related molecules, composed of single SH2 domain architecture. SAP activates Src-family kinase Fyn after SLAM ligation, resulting in a SLAM-SAP-Fyn complex, where, SAP binds the Fyn SH3 domain that does not involve canonical SH3 or SH2 interactions. This demands insight into this SAP mediated signalling cascade. Thermodynamics of the conformational changes are extracted from the histograms of dihedral angles obtained from the all-atom molecular dynamics simulations of this structurally well characterized SAP-SLAM complex. The results incorporate the binding induced thermodynamic changes of individual amino acid as well as the secondary structural elements of the protein and the solvent. Stabilization of the peptide partially comes through a strong hydrogen bonding network with the protein, while hydrophobic interactions also play a significant role where the peptide inserts itself into a hydrophobic cavity of the protein. SLAM binding widens SAP's second binding site for Fyn, which is the next step in the signal transduction cascade. The higher stabilization and less fluctuation of specific residues of SAP in the Fyn binding site, induced by SAP-SLAM complexation, emerge as the key structural elements to trigger the recognition of SAP by the SH3 domain of Fyn. The thermodynamic quantification of the protein due to complexation not only throws deeper understanding in the established mode of SAP-SLAM interaction but also assists in the recognition of the relevant residues of the protein responsible for alterations in its activity.


Subject(s)
Models, Chemical , Signaling Lymphocytic Activation Molecule Associated Protein/chemistry , Signaling Lymphocytic Activation Molecule Family Member 1/chemistry , Crystallography, X-Ray , Molecular Dynamics Simulation , Protein Structure, Secondary , Protein Structure, Tertiary , Signal Transduction , Signaling Lymphocytic Activation Molecule Associated Protein/metabolism , Signaling Lymphocytic Activation Molecule Family Member 1/metabolism , Structure-Activity Relationship , Thermodynamics , src Homology Domains
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