key: cord-274620-6ebl319q
authors: Ceballos, Nidia Aréchiga; Morón, Sonia Vázquez; Berciano, José M.; Nicolás, Olga; López, Carolina Aznar; Juste, Javier; Nevado, Cristina Rodríguez; Setién, Álvaro Aguilar; Echevarría, Juan E.
title: Novel Lyssavirus in Bat, Spain
date: 2013-05-17
journal: Emerg Infect Dis
DOI: 10.3201/eid1905.121071
sha: 
doc_id: 274620
cord_uid: 6ebl319q

A new tentative lyssavirus, Lleida bat lyssavirus, was found in a bent-winged bat (Miniopterus schreibersii) in Spain. It does not belong to phylogroups I or II, and it seems to be more closely related to the West Causasian bat virus, and especially to the Ikoma lyssavirus.

B ats have been considered natural hosts of a wide diversity of viruses, including human pathogens such as lyssaviruses, severe acute respiratory syndrome coronavirus, henipavirus, and filoviruses (1) . Within the genus Lyssavirus, 12 (2) and Ikoma lyssavirus (IKOV) (3) .

Bats are the natural reservoirs for most lyssaviruses, and to our knowledge, only MOKV and IKOV have never been detected in bats. RABV is the only virus known to establish epidemiologic cycles in bats and carnivores, and it is responsible for most human infections, mainly transmitted by dogs. The genus Lyssavirus comprises at least 2 phylogroups: phylogroup I (RABV, DUVV, EBLV1-2, ABLV, ARAV, IRKV, BBLV, KHUV) and phylogroup II (LBV, MOKV, and SHIBV). Phylogroup III consists of WCBV (4). According to a recent phylogenetic reconstruction that included the novel IKOV and was based on a fragment of 405 nt from the nucleoprotein gene, IKOV has proven to be highly divergent (3) and probably also forms part of phylogroup III.

During 1977-2011 in Europe, 988 cases of bat rabies were reported to the Rabies Bulletin Europe. Bats of the species Eptesicus serotinus and E. isabellinus, which account for >95% of cases, are considered the major natural reservoirs of EBLV-1. Several bat species within the genus Myotis are reservoirs for EBLV-2, BBLV, and the central Asian lyssaviruses ARAV and KHUV (5) . WCBV has been isolated in the common bent-winged bat Miniopterus schreibersii (6) . Other bat species might act as eventual hosts, although in Spain, bat rabies has been declared only in E. isabellinus bats (7) . The possibility of a wider host range has been suggested by some surveys on natural bat colonies of other bat species describing neutralizing antibodies and genomic fragments related to EBLV-1 (8) .

In July 2011, a bat was found in the City of Lleida and taken to the Wildlife Care Center of Vallcalent (Lleida, Catalonia). The bat arrived lethargic and dehydrated, died soon after admission, and its carcass was frozen at -20°C. On March 12, 2012, as part of the rabies surveillance program in Spain, the bat carcass was received by the National Center of Microbiology, where rabies testing was conducted by 2 generic reverse transcription PCR (RT-PCR) methods for lyssavirus detection (9,10) and 2 commercial rabies antiserum assays (Bio-Rad Laboratories, Marnes La Coquette, France; and Fujirebio, Inc., Tokyo, Japan) for antigen detection by fluorescent antibody testing.

Brain smears were positive for lyssavirus by RT-PCR and fluorescent antibody testing, and an oropharyngeal swab sample was positive by RT-PCR. Further attempts to isolate the virus by tissue cultures were unsuccessful after 2 blind passages in BHK-21 and murine neuroblastoma cells. The negative results could be explained by the fact that the sample had been stored at -20°C for 8 months and had been frozen and thawed twice before cell culture testing; however, the possibility of the cell lines not being permissive for the virus cannot be excluded.

The bat was morphologically identified as a bentwinged bat (M. schreibersii) and genetically identified by cytochrome b sequencing (11) . The genomic sequence of the corresponding fragment of the diagnostic RT-PCR on the conserved region of the nucleoprotein gene, determined by BLAST (http://blast.ncbi.nlm.nih.gov/), showed no substantial sequence similarity to previously known lyssaviruses.

To determine the identity of the lyssavirus, we sequenced a larger fragment (565 bp), including the variable codifying region of the nucleoprotein gene (GenBank accession number submitted). We reconstructed an overall The best-fit nucleotide model, GTR + I + G, available in MrBayes,was selected according to the corrected Akaike information criterion. The phylogenetic reconstruction was based on a dataset representative of all known lyssaviruses, including the recently described IKOV. The topology obtained showed that this sequence is more closely related to IKOV and WCBV than to the lyssaviruses in phylogroups I and II (Figure) . These results suggest that this sequence tentatively belongs to a new Lyssavirus species named after the location of collection, Lleida bat lyssavirus (LLEBV). The highest nucleotide identity was with IKOV (71. 7%-64%) . The lowest nucleotide identity was with the only lyssavirus found in bats of the Iberian Peninsula, EBLV-1. The nucleotide identity among the previously known lyssaviruses was 63.5%-80.0% in this particular fragment, and the lowest identities among strains belonging to the same lyssavirus were 80.4% for ABLV and 79.9% for LBV (the most distant LBV strain has been suggested to be a different lyssavirus) (online Technical Appendix, wwwnc.cdc.gov/EID/article/19/5/12-1071-Techapp1.pdf).

The lyssavirus-specific antigen reactivity and association with a genomic sequence found in a bent-winged bat in northeastern Spain could be derived from the tentative new virus LLEBV. According to our phylogenetic reconstruction, the virus does not seem to belong to phylogroup I, which comprises most bat lyssaviruses, or to the African phylogroup II. The evolutionary relationships between the LLEBV sequence with WCBV and IKOV sequences need to be clarified before it can be determined whether they form >1 different phylogroups.

Of note, the new LLEBV was detected in M. schreibersii bats, as was WCBV, the other European lyssavirus outside phylogroup I. The genus Miniopterus has traditionally been considered to belong to the family Vespertilionidae as do other bat genera linked to lyssaviruses in Eurasia (Eptesicus, Myotis, and Murina). However, recent molecular analyses have confirmed that the genus Miniopterus belongs to the family Miniopteridae (12) . M. schreibersii bats are migratory, widely distributed across southern Europe and Eurasia. Large numbers (thousands) of these bats overwinter in caves and move in the spring to different and sometimes distant summer roosts for reproduction (13) . These ecologic features make it relatively easy for an infectious agent to quickly spread out within and among the populations.

Consequently, it is difficult to imagine that WCBV or LLEBV are locally restricted; both could be located far from where they were found. Neutralizing antibodies against WCBV have been found in bats in Africa (14) . The cumulative description of new bat lyssaviruses in recent years shows the convenience of always using generic amplification primers for rabies diagnosis based on RT-PCR to complement antigen detection.

No human exposure to the new virus has been reported. However, because of the divergence exhibited by LLE-BV and IKOV, and the growing evidence of inadequate protection/cross-neutralization against viruses outside phylogroup I, the effectiveness of current rabies vaccines for these viruses remains a concern (15). 

Bats: important reservoir hosts of emerging viruses

Novel lyssavirus in natterer's bat

Ikoma lyssavirus, highly divergent novel lyssavirus in African civet

Complete genomes of Aravan, Khujand, Irkut and West Caucasian bat viruses, with special attention to the polymerase gene and non-coding regions

Current state of bat rabies surveillance in Europe

Novel lyssaviruses isolated from bats in Russia

Phylogeny of European bat lyssavirus 1 in Eptesicus isabellinus bats in Spain

European bat lyssavirus infection in Spanish bat populations

Screening of active lyssavirus infection in wild bat populations by viral RNA detection on oropharyngeal swabs

RT-PCR for detection of all seven genotypes of Lyssavirus genus

The Iberian contribution to cryptic diversity in European bats

Molecular phylogenetics of the chiropteran family Vespertilionidae

Migratory movements of Miniopterus schreibersii in the north-east of Spain

Possible emergence of West Caucasian bat virus in Africa

Passive immunity in the prevention of rabies: a neglected tool for a neglected disease

We thank the Genomics Unit of the Instituto de Salud Carlos III for the analyses of the genomic sequences.This research was financially supported by project no. SAF 2009-09172 of the General Research Program of the Spanish Ministry of Science and Education. C.R.N. was supported by a research fellowship from the Universidad de Alcalá de Henares.Dr Aréchiga Ceballos is postdoctoral fellow in the Unidad de Aislamiento y Deteccion Viral at the Centro Nacional de Microbiologia, Instituto de Salud Carlos III (Spain), supported by the Consejo Nacional de Ciencia y Tecnologia, Mexico. Her research interests are focused on zoonoses, particularly those related to lyssavirus, bats, and procionids.

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