Molecular Epidemiology of Dengue Virus Strains from Finnish Travelers

Molecular Epidemiology of Dengue Virus Strains from Finnish Travelers

munoglobulin (Ig) M in the acute-or convalescent-phase sample or on a 4-fold IgG titer rise in paired serum specimens in an in-house IgG immunofl uorescence assay (IFA), and IgM-enzyme immunoassay (Focus Technologies, Cypress, CA, USA). For this study, serum specimens from all patients were aliquoted and stored at -70ºC.
From patients with dengue diagnosis, acute-phase serum specimens with IgG titers <320 (IFA) were chosen for virus isolation (n = 40). Virus isolations were done simultaneously in 2 cell lines: in Vero E6 cells (ATCC CRL-1586) grown in minimal essential medium at 37°C and 5% CO 2 , and in C6/36 Aedes albopictus cells (ATCC CRL-1660) grown in Leibowitch L-15 medium at room temperature. Cells in 25-cm 2 fl asks were incubated with 50 μL of patient serum for 1 hour and observed for 24 days for cytopathic effects (CPEs). When CPEs were evident, cells were harvested for IFA, and RNA was extracted from supernatants for reverse transcriptase-PCR (RT-PCR). In the absence of CPEs, cells were subcultured after 7 days into 75-cm 2 culture fl asks and studied by IFA on days 7 and 24.
Isolates were either strains that grew in both of the tested cell lines (n = 6) or strains that grew only in C6/36 cells (n = 5). Two of the DENV-3 isolates (2 and 7) were detectable considerably earlier in Vero E6 than in C6/36 cells. DENV-1 isolates showed 2 distinct growth patterns; isolates 4 and 8 grew only in C6/36 cells, and isolates 3 and 11 grew in both tested cell lines (Table).
All isolates were successfully serotyped with the RT-PCR of Lanciotti et al. (4), in agreement with results of the MAb IFA. However, isolate 3 (DENV-1) had particular properties in type-specifi c MAb IFA, depending on the cell type because it showed positive results in infected C6/36 cells and negative results in infected VE6 cells.
First-round RT-PCR amplicons were purifi ed by using ExoSAP-IT (US Biochemicals, Cleveland, OH, USA), and directly sequenced. When necessary, the envelope gene was amplifi ed using previously described primers (5) and sequenced. Nucleotide sequences of the isolates were aligned with published DENV sequences from GenBank (online Appendix Table, available from www.cdc.gov/ EID/content/14/1/80-appT.htm) using ClustalW (www.ebi. ac.uk/tools/clustalw). Phylogenetic analysis was performed by the neighbor-joining method with a Kimura 2-parameter model using MEGA3 software version 3.1 (6).
Phylogenetic analyses ( Figure 1) showed that isolates 3, 4, and 8 (DENV-1) clustered with Asiatic DENV-1 strains of genotype I (7), which corresponded with the patients' travel history. Isolate 11 (DENV-1) from India clustered with a genotype III strain isolated a year earlier from the Seychelles. Isolate 6 (DENV-2), obtained from Sri Lanka in 2003, clustered with a strain isolated in the same year from India. Unlike the other isolates, isolate 9 (DENV-2), obtained in Ghana in 2005, did not group with any of the representative strains of the C-preM region, for which no African sequences were available in GenBank. The additionally studied envelope gene sequence grouped with previous African isolates of the cosmopolitan genotype (8) (Figure 2).
The DENV-3 isolates represented genotype III (9) (Figure 1). Isolate 2 from Cuba clustered with strains from Martinique in agreement with previous data on Cuban strains (10). Isolate 7 (DENV-3), obtained in Sri Lanka in 2004, clustered with strains from Singapore, Sri Lanka, and Taiwan. Isolate 5 was identical in sequence to a strain isolated 1 year earlier from a patient in Brazil who died (11). DENV-4 isolates represented 2 different genotypes; isolate 1 from Sri Lanka clustered with genotype I strains, and isolate 10 from Indonesia clustered with genotype II (12).

Conclusions
Studies on imported DENV have provided interesting insights to the global picture of circulating strains (13,14), and also have led to the discovery of novel DENV strains and lineages (15,16). In this study, we characterized 11 strains of DENV isolated from Finnish travelers in 2000-2005 and provided new information about strains circulating in India, Sri Lanka, and Ghana.
Previous studies have shown that DENV isolation is possible when antibody levels are low (17). However, in this study, most samples yielding virus isolates were antibody positive. The patients had primary infections, except for 1 patient, who had an IgG titer of 320 in the acute phase, which is suggestive of a secondary infection. This was the only patient with any bleeding symptoms, i.e., prolonged bleeding from the venopuncture site.
Virus isolates from Finnish travelers were heterogeneous. All patients had dengue fever, including the patient Emerging Infectious Diseases • www.cdc.gov/eid • Vol. 14, No. 1, January 2008 81  whose isolate was identical in sequence to a strain isolated from a patient who had died. Since the disease outcomes of the patients were uneventful, no associations could be made between the infective virus serotype or strain and disease severity. Both mammalian and mosquito cells were used in virus isolation, which enabled the detection of other fl aviviruses that may have caused seropositivity through cross-reaction. All DENV isolates grew in C6/36 mosquito cells; however, use of 2 cell lines showed variation in the growth patterns of the isolates in different cell types. We observed that some DENV-3 strains were detectable earlier in mammalian Vero E6 cells than in C6/36 cells, which suggested a different capability to infect these cells. This property could not be associated with pathogenicity in this study; thus, the biologic relevance of this phenomenon is unknown.
The DENV type-specifi c MAb IFA showed that one of the DENV-1 isolates (isolate 3) had distinct antigenic properties when cultured in mammalian or mosquito cells. Whether this strain represents MAb-escape properties requires further studies.
The phylogenetic grouping of the isolates was consistent with the travel history of the patients in most cases. However, isolate 11 (DENV-1) from India clustered with a genotype III strain isolated a year earlier from the Seychelles, which suggested strain transfer between these countries.
Phylogenetic analysis of isolate 9 (Ghana 2005) showed that it could be grouped with other African isolates