Dogs are the main animal vectors of rabies to both humans and animals in most of the developing countries of Asia, Africa and South America. Human mortality from endemic canine rabies was estimated to be 55 000 deaths per year in Asia and Africa [1]. Rabies is endemic in Israel; until 1979 dogs (Canis familiaris) and jackals (Canis aureus) constituted the main reservoirs while dogs were the most common vector from 1967 to 1977. Two actions resulted in a 62% decrease in the number of cases during the subsequent 10 years; (a) the mass poisoning of jackals throughout the country and (b) the compulsory vaccination of dogs which was initiated in 1957. From 1979 the major rabies vector changed from urban dogs to sylvatic foxes (Vulpes vulpes) and the total number of positive fox cases increased significantly [Reference Yakobson2]. During 1996–1997 there were three human rabies cases, but the vectors were not identified [Reference David3]. The rabies viruses isolated from the human cases were typed as those maintained by foxes at that time.

In 1998, as a result of the increasing prevalence of rabies in Israel, the Israeli Veterinary Authorities decided to implement an eradication programme based on oral vaccination (ORV) to eliminate the disease from wildlife in the Northern regions of the country (Golan Heights and Galilee). The vaccine used in the ORV programme was Raboral V-RG [Merial Ltd, Athens, GA, USA (US Vet License no. 298)] delivered by aerial distribution using small aircraft and helicopters. The initial ORV programme in 1998 was conducted over an area of 495 km² (14–19 doses/km²) and was extended in 2002 to the whole Northern region (6700 km²). Vaccine dispersal was performed biannually in spring and autumn. In 2003–2005, ORV was extended to cover the entire country. From 2006, baits were dispersed only once a year in autumn. The countrywide dispersal in 2006 showed similar efficacy to the excellent results that were achieved in the 2002–2004 eradication area [Reference Yakobson2].

Despite the elimination of fox rabies in the Northern regions of Israel, a new outbreak was seen recently in this region. We now report the epidemiological and molecular characteristics of the stray dog-mediated rabies virus that emerged recently in Northern Israel after ORV implementation. It is also apparent that this transition imposes a new threat to public health.

In October 2004 a cow (Nt1211) from Kibbutz Natur on the Golan Heights showed clinical signs and rabies was suspected; after the cow was destroyed samples were submitted for diagnosis to the Rabies Laboratory at the Kimron Veterinary Institute. The specimens tested positive for rabies by direct immunofluorescence (FAT) staining using FDI-conjugated monoclonal antibodies (Fujirebio Diagnostics Inc., Malvern, PA, USA) and conjugated polyclonal antibodies (Chemicon International, Temecula, CA, USA) according to the manufacturer's instructions. The virus was isolated by the intra-cerebral mouse inoculation test, using suckling mice and by propagation in tissue culture [Reference David4]. Total RNA for RT–PCR assay was extracted from infected brain tissue with TRI reagent (Molecular Research Center, Cincinnati, OH, USA) according to the manufacturer's instructions. An oligonucleotide primer pair designated G and L were used to amplify an 880-bp segment of the G–L intergenic region by RT–PCR assay as previously described [Reference Sacramento5]. The G(+) strand 5′-GAC TTG GGT CTC CCG AAC TGG GG-3′ primer was used for the polymerase reaction at positions 4665–4687 of the G gene sequence, and the L(–) primer 5′-CAA AGG AGA GTT GAG ATT GTA GTC-3′ at positions 5543–5566 of the polymerase encoding gene according to the numbering of the published Pasteur virus (accession no. M13215) [Reference Sacramento5].

The 880-bp PCR product was purified with a GenEluted™ agarose spin column (Sigma, Israel) and sequenced by two of the PCR primers G and L using an Applied Biosystems (Foster City, CA, USA) automatic sequencer. The nucleotide sequences were aligned with the Clustal X program. A phylogenetic tree of 469-bp fragment (accession nos. EU589958–EU590040, EU715371–EU715395) from the G–L intergenic region was constructed by the neighbour-joining method, with the distance calculated using the Kimura-2 parameter with the MEGA program (version 3.1). The reliability of the phylogenetic groupings was evaluated using bootstrapping with 1000 replicates, as previously described [Reference David6].

Table 1 shows that from 1998, when ORV was implemented, the prevalence of fox rabies decreased gradually in these regions, indicating that the main rabies reservoir in the Northern region of Israel switched from foxes for dogs. During 2001–2003, the efficacy of ORV against wildlife rabies was demonstrated, as only one case of rabies was detected in Northern Israel, in spite of the intensive rabies surveillance (Table 1). The change in species reported, following the success of the ORV programme directed against foxes, suggests an epidemiological shift. This is substantiated by the molecular study. Phylogenetic analysis showed that seven rabies clades circulated in Israel [Reference David6]. The molecular analysis of this study revealed that sample Nt1211 belonged to new Israeli clade VII that was identified on the Golan Heights (Fig. 1). The new clade was found to be distinct from the other Israeli clades I–VI that circulated prior to implementation the ORV programme throughout the country [Reference David7].

Fig. 1. Phylogenetic analysis of the Israeli, Turkish, Jordanian and South Lebanese rabies virus isolates (J, Jordan, SL, South Lebanon, T, Turkey). The animals and human isolates are indicated by abbreviated names: Dg, dog; Fx, fox; Cw, cow; Wf, wolf; Hs, horse; Dn, donkey; Gt, goat; Sh, sheep; Mo, mongoose; Sm, stone marten; Jk, jackal; Po, polecat; Bg, badger; Sq, squirrel; Hu, human. The scale bar indicates an evolutionary distance of 0·02 per position in the sequence.

Table 1. Rabies virus isolates detected in the Northern region of Israel between 1998 and 2007

n.a., Not available.

* Submission of suspected animals from the Northern region of Israel.

† 100×no. rabies-positive cases/total cases submitted for diagnosis from Northern Israel.

‡ Rabies post-exposure prophylaxis.

During 2005, from a total of 357 submitted samples we diagnosed 34 rabies cases (20 dogs, eight cows, two wolves and one badger). A total of 32 isolates originated in the Northern regions, of which 31 isolates belonged to the same new clade VIIA, while one cow (Ah8437), was found to belong to clade II.

From the 293 samples submitted during 2006 from Northern Israel, nine rabies isolates were attained (six dogs, one horse, one cow and one fox). The phylogenetic analysis of the rabies isolates showed two new variants diverged from variant VII, variant VIIB comprising of one isolate (dog Af1086) and variant VIIC composed of two isolates (dog My9069 and cow Yr5355). Four rabies virus isolates belonged to clade VIIA. Three isolates (fox Bu9934, dog Yo9445, horse Ks8381) belonged to clade IB.

From the 306 samples submitted throughout 2007, 15 cases from the Golan Heights and Galilee and were diagnosed positive for rabies (eight dogs, four foxes, one jackal, one badger and one cow). Phylogenetic analysis revealed the identification of a third isolate, jackal St8059, belonging to variant VIIC in Galilee. Two dogs (Zo7828, Sn8653) belonged to variant VIIB, while six rabies isolates on the Golan Heights belonged to variant VIIA. Four fox isolates on the Golan Heights belonged to clade IB. This clade composed of seven isolates (five foxes, one dog, one horse), showed different sequences from the IA variant that circulated on the Golan Heights prior to 1998 and was found to be closely related to fox Sm0034 which was isolated in 2002 near the border with Jordan.

Analysis of the G–L intergenic region sequences of Turkish rabies isolates indicated that clade VII of dog-mediated rabies showed close relationship to the Turkish dog rabies isolates T4, T6 and T7 (Fig. 1), which suggested an association between rabies viruses in Turkey and the newly emerged virus in Israel.

Several hypotheses can serve to explain the rabies outbreak emergence in Northern Israel and are listed as follows: