Novel Flavi-like virus in ixodid ticks and patients in Russia.

Novel Haseki tick virus (HSTV) was detected in ixodid ticks and patients in the Asian part of Russia. Sequencing of the genome fragments corresponding whole polyprotein and viral RdRp demonstrated that HSTV is genetically close to unclassified Flavi-like viruses. Phylogenetic analysis of HSTV sequences showed that these viruses were close to Bole tick virus 4 (BLTV 4), which was detected early in Asia, Europe, Africa and the Caribbean region. The organization of the genome predicts that HSTV and BLTV 4 may also be classified as putative new genera within Flaviviridae with enlarged Flavi-like positive-sense ssRNA viral genomes. Cases of HSTV putative human incidents after Ixodes persulcatus attack were discovered in hospital patients with tick-borne infections in Vladivostok (Russia). The illness was associated with 3-5 days of fever, accompanied by acute respiratory lesions. Mixed human tick-borne infections (TBIs) were also detected for these patients as dual or triple coinfections for tick-borne encephalitis virus, Borrelia spp., Anaplasma spp., and HSTV. Thus, it is necessary to study HSTV antibody tests, virus isolation, and surveillance for HSTV sequences in different species of ticks, different geographical regions and patients after tick attacks.

Surveillance of tick-borne encephalitis virus in wild birds and ticks in Tomsk city and its suburbs (Western Siberia).

To study the role of wild birds in the transmission of tick borne encephalitis virus (TBEV), we investigated randomly captured wild birds bearing ixodid ticks in a very highly endemic TBE region located in Tomsk city and its suburbs in the south of Western Siberia, Russia. The 779 wild birds representing 60 species were captured carrying a total of 841 ticks, Ixodes pavlovskyi Pom., 1946 (n=531), Ixodes persulcatus P. Sch., 1930 (n=244), and Ixodes plumbeus Leach. 1815 (n=66). The highest average number of ticks per bird in a particular species was found for the fieldfare (Turdus pilaris Linnaeus, 1758) (5.60 ticks/bird) and the tree pipit (Anthus trivialis Linnaeus, 1758) (13.25 ticks/bird). Samples from wild birds and ticks collected in highly endemic periods from 2006 to 2011 were tested for the TBEV markers using monoclonal modified enzyme immunoassay (EIA) and RT-PCR. TBEV RNA and antigen were found in 9.7% and 22.8% samples collected from wild birds, respectively. TBEV markers were also detected in 14.1% I. persulcatus ticks, 5.2% I. pavlovskyi, and 4.2% I. plumbeus ticks collected from wild birds. Two TBEV strains were also isolated on PKE (pig kidney embryo) cells from fieldfare and Blyth's reed warbler (Acrocephalus dumetorum Blyth, 1849). Sequencing of 5'-NCR of TBEV revealed that all TBEV isolates belong to Far Eastern (dominate) and Siberian genotypes. Several phylogenetic subgroups included TBEV sequences novel for the Tomsk region. Our data suggest that wild birds are potential disseminators of TBEV, TBEV-infected ixodid ticks, and possibly other tick-borne infections.