RESUMO

Canine distemper virus (CDV), a non-segmented single negative-stranded RNA (ssRNA), is the etiological agent of canine distemper. Canine distemper is a highly contagious and lethal viral disease in domestic dogs and wild carnivores. Study of the evolution of CDV presents an essential key to improve the vaccine efficacy. In this study, a total of 328 full-length CDV hemagglutinin (H) gene sequences were subjected to phylogenetic, amino acid mutations, and codon usage analysis. In accordance with previous study, CDV genotypes consisted of fifteen lineages. The unique amino acid substitution sites in each CDV lineages have been identified for the first time, including America-1 (Q330H), America-2 (I585S), Asia-1 (A359V), Asia-2 (H61R), Asia-3 (P108Q), Asia-4 (K213T), India-1/Asia-5(S497P), Arctic (S20L), Africa-1(N489S), Colombian (V41I), EWL (I44V), Europe (D560E), Europe-1/South America-1(K161Q), South America-2 (R580Q), and East African (S214A). Codon usage analysis indicated that H gene exhibited low codon usage bias and further neutrality plot analysis demonstrated that natural selection played a dominated role in driving CPV evolution. The effective number of codons (ENC) plots show that all the different sequences are below the standard curve, indicating that mutational pressure is not the only factor affecting CUB but other forces, including natural selection. The neutrality analysis showed that the slope of the regression line was 0.1501, indicating natural selection dominates directional mutation pressure in driving the codon usage pattern. In addition, nucleotide composition, relative synonymous codon usage value, dinucleotide content, and geographical distribution have been proven to influence the codon usage bias of the CDV H gene. The novel findings enhanced the understanding of CDV evolution.

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RESUMO

Canine Distemper Virus (CDV) is a highly contagious pathogen of dogs that causes severe respiratory, gastrointestinal and nervous signs. Although vaccines have been used to prevent infections, CDV has been reported worldwide, even in vaccinated animals. In the present study, a representative wild type CDV strain (Arg24) was isolated from a sick vaccinated dog and its genome was completely sequenced using Illumina technology. This strain produced a strong cytopathic effect in Vero SLAM (Signaling Lymphocyte Activation Molecule) cells with a higher titer of 1.1 × 105 Median Tissue Culture Infectious Dose (TCID50/mL) at 32 h post infection, in cell-associated virus. The Arg24 strain genome, showed values of 97.1, 90.3, 96.7, 90.6, 89.8 and 97.3 % of amino acid identity with respect to the Onderstepoort vaccine strain (Nucleoprotein, Phosphoprotein, Matrix, Fusion, Hemagglutinin and Large polymerase, respectively). Focusing on the Hemagglutinin gene, which is the target for genetic characterization, Arg24 showed four additional potential glycosylation sites, with respect to the Onderstepoort. The availability of Arg24 strain, which can be easily grown in Vero SLAM cells, is an important tool to perform immunological and antigenic comparative studies, between wild type and vaccine CDV strains.

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RESUMO

Canine distemper is one of the major infectious diseases in dogs and wild animals, resulting in high morbidity and mortality. The H gene has the greatest genetic variability among the genes encoded by the canine distemper virus (CDV) genome, and it has been used to characterise field samples, allowing the identification of specific lineages. Variation in the H gene can allow the virus to evade recognition by vaccine-induced antibodies, resulting in vaccine failure. The purpose of this study was to characterise H gene in CDV strains from naturally infected dogs in the state of São Paulo. The phylogenetic analysis revealed that Brazilian CDV strains were genetically related to the circulating CDV strains in Uruguay, Argentina, and Europe. We found no evidence of South America 2 and 3 CDV lineages circulating in Brazilian dogs. The degree of genetic divergence between wild Brazilian CDV strains and vaccine strains may suggest the possibility of vaccine failures and consequently the occurrence of canine distemper outbreaks.(AU)

A cinomose canina é uma das principais doenças infecciosas em cães e animais selvagens, resultando em alta morbidade e mortalidade. O gene H tem uma das maiores variabilidades genéticas entre os genes codificados pelo vírus da cinomose canina (CDV), e tem sido utilizado para caracterizar as estirpes de CDV, permitindo a identificação de linhagens específicas. A variação no gene H pode permitir que o vírus evite o reconhecimento por anticorpos induzidos pela vacina, resultando em falha vacinal. O objetivo deste estudo foi caracterizar o gene H em estirpes de CDV de cães infectados naturalmente no estado de São Paulo. A análise filogenética revelou que as estirpes de CDV brasileiras estão geneticamente relacionadas as estirpes circulantes no Uruguai, na Argentina e na Europa. Não foi encontrada nenhuma evidência da circulação no estado de São Paulo das linhagens América do Sul 2 e 3. O grau de divergência genética entre linhagens selvagens de CDV brasileiras e as estirpes vacinais podem sugerir a possibilidade de falhas vacinais e consequentemente a ocorrência de surtos de cinomose canina.(AU)

Assuntos

RESUMO

Canine distemper is one of the major infectious diseases in dogs and wild animals, resulting in high morbidity and mortality. The H gene has the greatest genetic variability among the genes encoded by the canine distemper virus (CDV) genome, and it has been used to characterise field samples, allowing the identification of specific lineages. Variation in the H gene can allow the virus to evade recognition by vaccine-induced antibodies, resulting in vaccine failure. The purpose of this study was to characterise H gene in CDV strains from naturally infected dogs in the state of São Paulo. The phylogenetic analysis revealed that Brazilian CDV strains were genetically related to the circulating CDV strains in Uruguay, Argentina, and Europe. We found no evidence of South America 2 and 3 CDV lineages circulating in Brazilian dogs. The degree of genetic divergence between wild Brazilian CDV strains and vaccine strains may suggest the possibility of vaccine failures and consequently the occurrence of canine distemper outbreaks.(AU)

A cinomose canina é uma das principais doenças infecciosas em cães e animais selvagens, resultando em alta morbidade e mortalidade. O gene H tem uma das maiores variabilidades genéticas entre os genes codificados pelo vírus da cinomose canina (CDV), e tem sido utilizado para caracterizar as estirpes de CDV, permitindo a identificação de linhagens específicas. A variação no gene H pode permitir que o vírus evite o reconhecimento por anticorpos induzidos pela vacina, resultando em falha vacinal. O objetivo deste estudo foi caracterizar o gene H em estirpes de CDV de cães infectados naturalmente no estado de São Paulo. A análise filogenética revelou que as estirpes de CDV brasileiras estão geneticamente relacionadas as estirpes circulantes no Uruguai, na Argentina e na Europa. Não foi encontrada nenhuma evidência da circulação no estado de São Paulo das linhagens América do Sul 2 e 3. O grau de divergência genética entre linhagens selvagens de CDV brasileiras e as estirpes vacinais podem sugerir a possibilidade de falhas vacinais e consequentemente a ocorrência de surtos de cinomose canina.(AU)

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OBJECTIVE: Amelogenesis imperfecta (AI) is a group of clinically and genetically heterogeneous inherited conditions, causing alterations in the structure of enamel and chemical composition of enamel matrix during development. The objective of this study was to compare the clinical, radiographic, histological and immunohistochemical phenotypes of subjects affected with hypocalcified AI from three Chilean families and identify causal mutations in the FAM83H gene. DESIGN: The diagnosis was made using clinical, radiographic, histological and genealogical data from the patients, who were evaluated according to the classification criteria by Witkop. PCR and Sanger sequencing of the complete coding sequence and surrounding intron regions of the FAM83H gene were conducted. The structural study of the affected teeth was performed with light microscopy, scanning electron microscopy and immunohistochemistry. RESULTS: The probands of the three families were diagnosed with hypocalcified AI, but in only one of them the missense variant p.Gly557Cys was identified. This variant was not present in the SNP database or in 100 healthy controls and segregated with the disease in the affected family. Using light microscopy, a normal prismatic structure was observed in all three cases. However, the ultrastructure was found to be affected in two of the cases, showing persistence of organic matter including amelogenins. CONCLUSIONS: These results suggest that FAM83H missense mutation reported in one of the families analyzed in this study might cause a phenotype of hypocalcified enamel more attenuated with retention of amelogenin.

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Canine distemper virus (CDV) is a highly contagious viral disease of carnivores affecting both wild and domestic populations. The hemagglutinin gene, encoding for the attachment protein that determines viral tropism, shows high heterogeneity among strains, allowing for the distinction of ten different lineages distributed worldwide according to a geographic pattern. We obtained the sequences of the full-length H gene of 15 wild-type CDV strains circulating in domestic dog populations from the Aburrá Valley, Colombia. A phylogenetic analysis of H gene nucleotide sequences from Colombian CDV viruses along with field isolates from different geographic regions and vaccine strains was performed. Colombian wild-type viruses formed a distinct monophyletic cluster clearly separated from the previously identified wild-type and vaccine lineages, suggesting that a novel genetic variant, quite different from vaccines and other lineages, is circulating among dog populations in the Aburrá Valley. We propose naming this new lineage as "South America 3". This information indicates that there are at least three different CDV lineages circulating in domestic and wild carnivore populations in South America. The first one, renamed Europe/South America 1, circulates in Brazil and Uruguay; the second, South America 2, appears to be restricted to Argentina; and the third, South America 3, which comprises all the strains characterized in this study, may also be circulating in other northern countries of South America.

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Fragmentos com 721 pares de bases do gene da hemaglutinina (H) do vírus da cinomose canina (CDV), amplificados pela RT-PCR a partir de três estirpes vacinais (Snyder Hill, Onderstepoort e Rockborn) e de 27 amostras de campo, provenientes de cães com cinomose, foram clivados com as endonucleases Hinf I and Rsa I. A seleção das enzimas foi realizada por meio de análises in silico de seqüências do CDV depositadas em bases públicas de dados. Tanto as estirpes vacinais quanto as amostras selvagens do CDV apresentaram com a enzima Hinf I o mesmo perfil de restrição, confirmando a identidade do fragmento amplificado pela RT-PCR, uma vez que todas as estirpes com seqüências disponíveis (GenBank) têm sítios de restrição para essa enzima nas mesmas posições. O perfil de restrição das estirpes vacinais Snyder Hill e Onderstepoort, que diferem entre si, foi confirmado com a enzima Rsa I que também clivou a estirpe Rockborn nas mesmas posições que a estirpe Snyder Hill. Todas as 27 amostras de campo do CDV apresentaram com a enzima Rsa I o mesmo perfil de restrição, indicando conservar os mesmos sítios de restrição para essa enzima. O perfil das amostras de campo foi diferente daquele obtido nas três estirpes vacinais. Os perfis de restrição do gene que codifica a hemaglutinina do CDV, gerados pela enzima Rsa I, sugerem diferenças moleculares entre as estirpes vacinais e as selvagens circulantes na região norte do estado do Paraná e abrem a perspectiva da elaboração de análises moleculares comparativas mais complexas, como o seqüenciamento de todo o gene H, de estirpes do CDV identificadas em diferentes regiões brasileiras.(AU)

The restriction fragment length polymorphism (RFLP) assay of a 721 bp fragment from hemagglutinin (H) gene of canine distemper virus (CDV) amplified by RT-PCR was analyzed with Hinf I and Rsa I enzymes. Clinical samples from 27 dogs with natural canine distemper infection, and three vaccine (Snyder Hill, Onderstepoort and Rockborn) CDV strains were analyzed. All RT-PCR amplified product from CDV wild-type and vaccine-strains had the same RFLP pattern with Hinf I enzyme showing the amplicon specificity. The RFLP pattern for CDV vaccine-strains generated with Rsa I enzyme was the expected by in silico analysis. All 27 wild-type CDV strains present the same Rsa I enzyme RFLP pattern that was different from vaccine-strains pattern, suggesting molecular differences between vaccine-strains and wild-type of CDV from dogs population in North region of Paraná State/Brazil. These results open the perspectives of the accomplishment of comparative molecular analysis, such as sequencing of the whole gene H, of CDV wild-type strains identified in different Brazilian regions.(AU)

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