Phylogenetic analysis of dengue viruses isolated from imported dengue patients: possible aid for determining the countries where infections occurred.

BACKGROUND: Molecular epidemiology of dengue viruses in endemic countries have been reported, but few were reported on the imported dengue cases among travelers. We analyzed dengue viruses isolated from imported dengue cases in Japan who were infected while traveling in endemic regions of the world. METHOD: We sequenced the complete envelope (E) gene of 33 dengue virus strains isolated from patients returning from Asia, Oceania, South Pacific islands, and South America to Japan where no domestic dengue virus infection occurs. We then performed phylogenetic analysis to define the geographic origin of isolated viruses. Moreover, we compared the genomes of isolated dengue viruses with those of the strains already deposited in the GenBank database. RESULT: The isolates are clustered into expected genotypes, confirming that the viruses originated from the visited countries. When patients visited more than one country during a single trip, the countries where the infection occurred were also determined for four of the six patients. There were three isolates, which were different genotypes from those previously isolated in visited countries. CONCLUSIONS: The study demonstrates that many dengue virus strains are introduced into Japan and that phylogenic analysis of isolated dengue viruses is a unique technique to determine the countries where infection occurred. Travelers carry viruses and provide important and unique information for clarifying dengue virus trait and its dissemination.

Genetic and phylogenetic analysis of glycoprotein of rabies virus isolated from several species in Brazil.

Genetic and phylogenetic analyses of the region containing the glycoprotein (G) gene, which is related to pathogenicity and antigenicity, and the G-L intergenic region were carried out in 14 Brazilian rabies virus isolates. The isolates were classified as dog-related rabies virus (DRRV) or vampire bat-related rabies virus (VRRV), by nucleoprotein (N) analysis. The nucleotide and amino acid (AA) homologies of the area containing the G protein gene and G-L intergenic region were generally lower than those of the ectodomain. In both regions, nucleotide and deduced AA homologies were lower among VRRVs than among DRRVs. There were AA differences between DRRV and VRRV at 3 antigenic sites and epitopes (IIa, WB+ and III), suggesting that DRRV and VRRV can be distinguished by differences of antigenicity. In a comparison of phylogenetic trees between the ectodomain and the area containing the G protein gene and G-L intergenic region, the branching patterns of the chiropteran and carnivoran rabies virus groups differed, whereas there were clear similarities in patterns within the DRRV and VRRV groups. Additionally, the VRRV isolates were more closely related to chiropteran strains isolated from Latin America than to Brazilian DRRV. These results indicate that Brazilian rabies virus isolates can be classified as DRRV or VRRV by analysis of the G gene and the G-L intergenic region, as well as by N gene analysis.

Discrimination between dog-related and vampire bat-related rabies viruses in Brazil by strain-specific reverse transcriptase-polymerase chain reaction and restriction fragment length polymorphism analysis.

BACKGROUND: There is a geographical overlap between the two main rabies epidemiological cycles maintained by dogs and vampire bats in Latin America. The geographical and temporal coincidence of rabies outbreaks of respective origins is not unusual in rural areas of Latin America. These circumstances make it difficult to discriminate the intraspecies and interspecies transmission pathways of rabies. OBJECTIVE: This study was conducted to develop techniques to discriminate dog-related and vampire bat-related rabies virus isolates (DRRV and VRRV, respectively) in Brazil. STUDY DESIGN: The 1396 nucleotides of the nucleoprotein gene of a total of 27 DRRV and VRRV were sequenced. Strain-specific (SS) primers were developed based on these sequences. Forty-nine rabies virus strains isolated from animals and humans in several parts of Brazil were examined by reverse transcriptase-polymerase chain reaction (RT-PCR) with SS primers. These rabies viruses were also amplified by RT-PCR with general rabies primers and the PCR products were cut by three restriction enzymes, Blp I, Bsu36 I and BspE I. RESULTS: All the DRRV and VRRV were distinguished by RT-PCR with SS primers. The PCR products obtained from DRRV were cut at one site by Blp I, but not by Bsu36 I. The PCR products obtained from VRRV were cut at one or two sites by Bsu36 I, but not by Blp I. Blp I and Bsu36 I clearly discriminated DRRV and VRRV in restriction fragment length polymorphysim (RFLP) assays. The results of SS RT-PCR and RFLP were consistent. CONCLUSION: SS RT-PCR and RFLP assays have been developed for determining the origins of rabies virus isolates in Brazil. These assays are simple and rapid, and will be useful for identifying the rabies virus reservoirs of field isolates in Brazil, especially when used together.