Shoufeng Zhang

Isolation of Irkut Virus from a Murina leucogaster Bat in China

Background and objectives Bats are recognized as a major reservoir of lyssaviruses; however, no bat lyssavirus has been isolated in Asia except for Aravan and Khujand virus in Central Asia. All Chinese lyssavirus isolates in previous reports have been of species rabies virus, mainly from dogs. Following at least two recent bat-associated human rabies-like cases in northeast China, we have initiated a study of the prevalence of lyssaviruses in bats in Jilin province and their public health implications. A bat lyssavirus has been isolated and its pathogenicity in mice and genomic alignment have been determined. Results We report the first isolation of a bat lyssavirus in China, from the brain of a northeastern bat, Murina leucogaster. Its nucleoprotein gene shared 92.4%/98.9% (nucleotide) and 92.2%/98.8% (amino acid) identity with the two known Irkut virus isolates from Russia, and was designated IRKV-THChina12. Following intracranial and intramuscular injection, IRKV-THChina12 produced rabies-like symptoms in adult mice with a short inoculation period and high mortality. Nucleotide sequence analysis showed that IRKV-THChina12 has the same genomic organization as other lyssaviruses and its isolation provides an independent origin for the species IRKV. Conclusions We have identified the existence of a bat lyssavirus in a common Chinese bat species. Its high pathogenicity in adult mice suggests that public warnings and medical education regarding bat bites in China should be increased, and that surveillance be extended to provide a better understanding of Irkut virus ecology and its significance for public health.

Rabies in Ferret Badgers, Southeastern China

Ferret badger–associated human rabies cases emerged in China in 1994. We used a retrospective epidemiologic survey, virus isolation, laboratory diagnosis, and nucleotide sequencing to document its reemergence in 2002–2008. Whether the cause is spillover from infected dogs or recent host shift and new reservoir establishment requires further investigation.

Evolutionary History of Rabies in Ghana

Rabies virus (RABV) is enzootic throughout Africa, with the domestic dog (Canis familiaris) being the principal vector. Dog rabies is estimated to cause 24,000 human deaths per year in Africa, however, this estimate is still considered to be conservative. Two sub-Saharan African RABV lineages have been detected in West Africa. Lineage 2 is present throughout West Africa, whereas Africa 1a dominates in northern and eastern Africa, but has been detected in Nigeria and Gabon, and Africa 1b was previously absent from West Africa. We confirmed the presence of RABV in a cohort of 76 brain samples obtained from rabid animals in Ghana collected over an eighteen-month period (2007–2009). Phylogenetic analysis of the sequences obtained confirmed all viruses to be RABV, belonging to lineages previously detected in sub-Saharan Africa. However, unlike earlier reported studies that suggested a single lineage (Africa 2) circulates in West Africa, we identified viruses belonging to the Africa 2 lineage and both Africa 1 (a and b) sub-lineages. Phylogeographic Bayesian Markov chain Monte Carlo analysis of a 405 bp fragment of the RABV nucleoprotein gene from the 76 new sequences derived from Ghanaian animals suggest that within the Africa 2 lineage three clades co-circulate with their origins in other West African countries. Africa 1a is probably a western extension of a clade circulating in central Africa and the Africa 1b virus a probable recent introduction from eastern Africa. We also developed and tested a novel reverse-transcription loop-mediated isothermal amplification (RT-LAMP) assay for the detection of RABV in African laboratories. This RT-LAMP was shown to detect both Africa 1 and 2 viruses, including its adaptation to a lateral flow device format for product visualization. These data suggest that RABV epidemiology is more complex than previously thought in West Africa and that there have been repeated introductions of RABV into Ghana. This analysis highlights the potential problems of individual developing nations implementing rabies control programmes in the absence of a regional programme.

Ferret badger rabies origin and its revisited importance as potential source of rabies transmission in Southeast China

BackgroundThe frequent occurrence of ferret badger-associated human rabies cases in southeast China highlights the lack of laboratory-based surveillance and urges revisiting the potential importance of this animal in rabies transmission. To determine if the ferret badgers actually contribute to human and dog rabies cases, and the possible origin of the ferret badger-associated rabies in the region, an active rabies survey was conducted to determine the frequency of rabies infection and seroprevalence in dogs and ferret badgers.MethodsA retrospective survey on rabies epidemics was performed in Zhejiang, Jiangxi and Anhui provinces in southeast China. The brain tissues from ferret badgers and dogs were assayed by fluorescent antibody test. Rabies virus was isolated and sequenced for phylogenetic analysis. The sera from ferret badgers and dogs were titrated using rabies virus neutralizing antibodies (VNA) test.ResultsThe ferret badgers presented a higher percentage of rabies seroconversion than dogs did in the endemic region, reaching a maximum of 95% in the collected samples. Nine ferret badger-associated rabies viruses were isolated, sequenced, and were phylogenetically clustered as a separate group. Nucleotide sequence revealed 99.4-99.8% homology within the ferret badger isolates, and 83-89% homology to the dog isolates in the nucleoprotein and glycoprotein genes in the same rabies endemic regions.ConclusionsOur data suggest ferret badger-associated rabies has likely formed as an independent enzootic originating from dogs during the long-term rabies infestation in southeast China. The eventual role of FB rabies in public health remains unclear. However, management of ferret badger bites, rabies awareness and control in the related regions should be an immediate need.

Development of a reverse genetics system for a human rabies virus vaccine strain employed in China

The CTN rabies virus was isolated from a human in China in 1953 and subsequently attenuated by multiple passaging to a vaccine strain now approved by the WHO. In this study, we describe the development of a reverse genetics system for the CTN rabies virus strain. The recombinant full-length genomic cDNA was flanked by a hammerhead ribozyme (HamRz) and the hepatitis delta virus ribozyme (HdvRz) while the non-coding G-L region was replaced with a green fluorescent protein (GFP) gene. A set of helper plasmids encoding nucleoprotein (N), phosphoprotein (P), and large protein (L) were constructed and co-transfected with recombinant full-length genome plasmid into BHK-21 cells. Recombinant virus was successfully recovered from cloned cDNA under control of the CMV promoter driven by RNA polymerase II. The recombinant virus, CTN-GFP, stably expressed GFP as detected by fluorescence microscopy. A group of 1-day-old suckling mice was challenged with the CTN-GFP strain by intracerebral inoculation, resulting in 100% morbidity and GFP expression was detected in brain tissues. The recombinant virus CTN-GFP strain recovered from cloned cDNA will be useful as a viral vector to express other foreign genes.

Novel Circovirus from Mink, China

A long-established epidemic of enteritis, caused by an unidentified pathogen distinct from parvovirus, has now been recognized in mink. In 2013, we identified a novel circovirus by degenerate PCR and fully sequenced its genome. This virus differs substantially from currently known members of the genus Circovirus and represents a new species.

Adjuvant activity of Chinese herbal polysaccharides in inactivated veterinary rabies vaccines.

Four botanical polysaccharide preparations (from Astragalus, Echinacea, wolfberry, and kelp) were evaluated as immunopotentiators/adjuvants of a veterinary rabies vaccine. Results showed that lymphocyte proliferation and some cytokines were significantly elevated, with cellular immune responses skewed towards Th1 and Tc1. All four polysaccharides produced accelerated and enhanced effects on rabies-neutralizing antibody responses in mice and dogs. The results also indicated that certain botanical polysaccharides could be used in rabies vaccine formulations for early and persistent prophylaxis.

Characterization of a rabies virus isolate from a ferret badger (Melogale moschata) with unique molecular differences in glycoprotein antigenic site III

Rabies virus was isolated from the brain of a Chinese ferret badger (Melogale moschata) and identified as having an R333Q substitution within its glycoprotein antigenic site III. Additionally, compared with vaccine strains and other rabies virus isolates from dogs and ferret badgers in China, the isolate had five other amino acid substitutions in its glycoprotein: P(-17)L in the signal peptide, R88H, L225M, and D422E in the ectoplasmic region, and G478E in the cytoplasmic region. This isolate possessed high virulence in suckling, weanling and adult mice. These data indicate that this is a unique rabies virus with a molecular signature that differentiates it from other strains circulating in terrestrial mammals in China. We propose that rabies virus circulates in some ferret badgers in an independent epidemiological cycle unique to China following spillover from domestic dogs or other hosts infected with rabies.

Rabies Outbreaks and Vaccination in Domestic Camels and Cattle in Northwest China

In contrast to many countries where rabies has been well controlled in humans and livestock, even in wildlife, rabies is still endemic in almost regions of China. In Northwest China, rabies transmitted by stray dogs and wild foxes has caused heavy economic losses to local herdsmen, as well as causing numbers of human cases. In this study, as part of an investigation of ways to prevent rabies epidemics in livestock, we report an analysis of domestic cattle and camel rabies cases in Ningxia Hui (NHAR) and Inner Mongolia Autonomous Region (IMAR) and the immune efficacy of canine inactivated rabies vaccines in these animals. We found that rabies viruses from these animals are closely related to dog-hosted China I and fox-associated China III lineages, respectively, indicating that the infections originated from two different sources (dogs and wild foxes). As well as the previously reported Arctic and Arctic-related China IV lineage in IMAR, at least three separate phylogenetic groups of rabies virus consistently exist and spread throughout Northwest China. Since there is no licensed oral vaccine for wild foxes and no inactivated vaccine for large livestock, local canine inactivated vaccine products were used for emergency immunization of beef and milk cattle and bactrian (two-humped) camels in local farms. Compared with a single injection with one (low-efficacy) or three doses (high-cost), a single injection of a double dose of canine vaccine provided low-price and convenience for local veterinarians while inducing levels of virus neutralizing antibodies indicative of protection against rabies for at least 1 year in the cattle and camels. However, licensed vaccines for wildlife and large domestic animals are still needed in China.

Evaluation of rabies biologics against Irkut virus isolated in China

ABSTRACT An Irkut virus (IRKV) was recently isolated from a bat in China. The protective ability of rabies biologics available in the Chinese market and experimental biologics against the rabies virus (RABV) and IRKV were assessed in a hamster model via preexposure prophylaxis (PrEP) and postexposure prophylaxis (PEP) experiments. The results demonstrated that a single dose of rabies vaccine did not induce adequate protection against IRKV infection. However, routine PrEP with three doses of vaccine induced complete protection against IRKV infection. Higher doses of RABV immunoglobulins and alpha interferon were required during PEP to protect hamsters against IRKV versus RABV infection. Experimental recombinant vaccines containing IRKV glycoproteins induced more-reliable protection against IRKV than against RABV infection. Those findings may be explained by limited cross-neutralization of these viruses (confirmed via in vitro tests) in conjunction with antigenic distances between RABV and IRKV. These results indicate that the development and evaluation of new biologics for PrEP and PEP are required to ensure sufficient protection against IRKV infection in China and other territories where this virus is present.