Demonstration of a polariton step potential by local variation of light-matter coupling in a van-der-Waals heterostructure.

The large oscillator strength of excitons in transition metal dichalcogenide layers facilitates the formation of exciton-polariton resonances for monolayers and van-der-Waals heterostructures embedded in optical microcavities. Here, we show, that locally changing the number of layers in a WSe2/hBN/WSe2 van-der-Waals heterostructure embedded in a monolithic, high-quality-factor cavity gives rise to a local variation of the coupling strength. This effect yields a polaritonic stair case potential, which we demonstrate at room temperature. Our result paves the way towards engineering local polaritonic potentials at length scales down to atomically sharp interfaces, based on purely modifying its real part contribution via the coherent light-matter coupling strength g.

Historical, current and expected future occurrence of rabies in enzootic regions.

Rabies is one of the oldest recorded pathogens, with the broadest distribution of any known viral zoonosis. Antarctica is believed to be free of all lyssaviruses, but no laboratory-based surveillance has taken place to support this supposition. Re-introduction of the disease is possible in Pacific Oceania, as evidenced by a historical outbreak in Guam and the translocation of rabid bats to Hawaii. Australia is the only inhabited continent with enzootic rabies, without the presence of rabies virus. Europe and North America have broken the cycle of dog-mediated rabies, with a few remaining focal points in Latin America and the Caribbean, but wildlife rabies predominates. The greatest burden resides in the 'Old World'. The elimination of human rabies mediated via dogs by 2030 in Africa, Asia and the Middle East will not be simple, rapid or inexpensive, but it may be achievable through the use of widely available tools and the application of lessons learned during the course of the 20th century.

La rage est l'une des plus anciennes maladies infectieuses enregistrées et la zoonose virale la plus largement représentée dans le monde. On présume que l'Antarctique est indemne de tout lyssavirus mais cette hypothèse n'est étayée par aucune surveillance basée sur des analyses de laboratoire. Il existe une menace de réintroduction de la maladie en Océanie, comme l'ont révélé le foyer historique survenu à Guam ainsi que l'arrivée de chauves-souris enragées à Hawaï. L'Australie est le seul continent habité où la rage ne sévit pas à l'état enzootique, le virus de la rage y étant absent. L'Europe et l'Amérique du Nord ont mis fin au cycle de la rage transmise par les chiens, dont il ne subsiste que quelques rares foyers de propagation en Amérique latine ; en revanche, la rage sylvatique reste prépondérante dans ces régions. Le fardeau le plus lourd est supporté par l'Ancien Monde. L'élimination de la rage humaine transmise par les chiens à l'horizon 2030 en Afrique, en Asie et au Moyen-Orient ne sera pas une tâche facile, rapide ni exempte de coûts mais elle peut réussir grâce aux outils disponibles partout dans le monde et aux enseignements tirés de l'expérience acquise tout au long du xxe siècle.

La rabia, causada por uno de los patógenos más antiguos de los que hay constancia, presenta la distribución más amplia de cuantas zoonosis víricas se conocen. Se piensa que la Antártida está libre de todo tipo de lisavirus, pero no ha habido labores de vigilancia en laboratorio que prueben tal suposición. Oceanía está bajo la amenaza de reintroducción de la enfermedad, como demuestran el histórico brote registrado en Guam o el desplazamiento de murciélagos rabiosos a Hawái. Australia es el único continente habitado en el que no hay rabia enzoótica, esto es, en que el virus rábico no está presente. Europa y América del Norte han interrumpido el ciclo de la rabia transmitida por perros, de la que aún quedan contados focos en América Latina y el Caribe, aunque sigue prevaleciendo la rabia de la fauna silvestre. La carga más importante recae en el «Viejo Mundo¼. La eliminación de la rabia humana transmitida por perros para 2030 en África, Asia y el Oriente Medio no será sencilla, rápida ni barata, pero es factible si se emplean herramientas que ya están extendidas y se aplican las lecciones que hemos aprendido a lo largo del siglo XX.

Global rabies management: perspectives on regional strategies for prevention and control.

Rabies is a major neglected zoonotic disease, despite the availability of highly sensitive diagnostic tests and efficacious human and animal vaccines. Perpetuation of rabies among multiple species of bats and wild carnivores, together with the presence of diverse lyssaviruses, remains a challenge for the prevention and control of this disease. However, most of the global burden may be reduced by mass vaccination of dogs, the major reservoir. Elimination of human rabies mediated by dogs may be feasible, based upon the elicitation of herd immunity, the application of sound health economic principles for appropriate disease management and technology transfer to those developing countries where rabies is hyper-endemic. Global canine rabies elimination has clear benefits for public health, veterinary medicine and conservation biology, so these sectors must collaborate using a transdisciplinary 'One Health' approach that allows the creation of long-term regional strategies for enhanced surveillance and practical intervention.

La rage est une maladie zoonotique majeure, qui demeure négligée malgré l'existence de tests de diagnostic hautement sensibles et de vaccins efficaces chez l'homme comme chez l'animal. La persistance de la rage chez de nombreuses espèces de carnivores sauvages et de chauves-souris et la diversité des espèces de Lyssavirus continuent de poser des difficultés en termes de prévention et de lutte contre la maladie. Néanmoins, le fardeau mondial de la rage peut être considérablement réduit en pratiquant la vaccination massive des chiens, ces derniers constituant le principal réservoir. L'élimination de la rage transmise par les chiens est un objectif atteignable si l'on s'appuie sur des concepts solides en matière d'immunité à l'échelle des troupeaux, d'économie de la santé et de transfert technologique, tout en apportant des bénéfices mutuels accrus pour la santé publique, la médecine vétérinaire et la biologie de la conservation grâce à la mise en oeuvre d'une approche régionale pour la surveillance, les interventions, la certification et la collaboration pluridisciplinaire dans un contexte Une seule santé.

La rabia es una importante enfermedad zoonótica desatendida, y ello pese a que existen pruebas de diagnóstico de gran sensibilidad y vacunas de contrastada eficacia en personas y animales. La perpetuación de la rabia en múltiples especies de carnívoros silvestres y murciélagos y la presencia de diversos lisavirus siguen dificultando el trabajo de prevención y control de la enfermedad. Con todo, cabe reducir buena parte de la carga mundial que impone la rabia mediante la vacunación masiva de perros, que son su principal reservorio. Si se aplican conceptos sólidos en materia de inmunidad de rebaño, economía de la salud y transferencia de tecnología, abordando las labores de vigilancia, intervención, certificación y colaboración multidisciplinar desde una lógica regional y desde los postulados de «Una sola salud¼, la eliminación de la rabia humana transmitida por perros puede ser un objetivo factible y muy beneficioso para la salud pública, la medicina veterinaria y la biología de la conservación.

Case definitions, diagnostic algorithms, and priorities in encephalitis: consensus statement of the international encephalitis consortium.

BACKGROUND: Encephalitis continues to result in substantial morbidity and mortality worldwide. Advances in diagnosis and management have been limited, in part, by a lack of consensus on case definitions, standardized diagnostic approaches, and priorities for research. METHODS: In March 2012, the International Encephalitis Consortium, a committee begun in 2010 with members worldwide, held a meeting in Atlanta to discuss recent advances in encephalitis and to set priorities for future study. RESULTS: We present a consensus document that proposes a standardized case definition and diagnostic guidelines for evaluation of adults and children with suspected encephalitis. In addition, areas of research priority, including host genetics and selected emerging infections, are discussed. CONCLUSIONS: We anticipate that this document, representing a synthesis of our discussions and supported by literature, will serve as a practical aid to clinicians evaluating patients with suspected encephalitis and will identify key areas and approaches to advance our knowledge of encephalitis.

Elimination of human rabies in Goa, India through an integrated One Health approach.

Dog-mediated rabies kills tens of thousands of people each year in India, representing one third of the estimated global rabies burden. Whilst the World Health Organization (WHO), World Organization for Animal Health (OIE) and the Food and Agriculture Organization of the United Nations (FAO) have set a target for global dog-mediated human rabies elimination by 2030, examples of large-scale dog vaccination programs demonstrating elimination remain limited in Africa and Asia. We describe the development of a data-driven rabies elimination program from 2013 to 2019 in Goa State, India, culminating in human rabies elimination and a 92% reduction in monthly canine rabies cases. Smartphone technology enabled systematic spatial direction of remote teams to vaccinate over 95,000 dogs at 70% vaccination coverage, and rabies education teams to reach 150,000 children annually. An estimated 2249 disability-adjusted life years (DALYs) were averted over the program period at 526 USD per DALY, making the intervention 'very cost-effective' by WHO definitions. This One Health program demonstrates that human rabies elimination is achievable at the state level in India.

Immune response after rabies vaccine in a kidney transplant recipient.

A 48-year-old male kidney-transplant recipient was bitten by a rabid dog. His immunosuppressive treatment consisted of cyclosporine 60 mg b.i.d., mycophenolate mofetil (MMF) 250 mg t.i.d., and prednisone 5 mg. After wound care, he received 5 doses of purified vero cell rabies vaccine on days 0, 3, 7, 14, and 28, and human rabies immunoglobulin, according to international guidelines. Adequate levels of rabies virus neutralizing antibodies were observed after the administration of the third vaccine dose. However, a decrease of antibody titer was detected by day 28. Immunosuppressive medication was minimized, withdrawing MMF and reducing the dose of cyclosporine. Booster doses of the same vaccine were administered on days 38, 41, 45, 52, and 66. Adequate neutralizing antibody response was recovered during the ensuing 12 months, under reduced immunosuppression. Nineteen months after the incident, the patient remains with good graft function and is asymptomatic for rabies. It remains to be determined whether the attained immune response was either the result of the booster vaccinations or the reduction of immunosuppression alone. Nevertheless, such an outcome would have been possible only with the combined management strategy implemented.

DNA immunization protects nonhuman primates against rabies virus.

More than 40,000 people die annually from rabies worldwide. Most of these fatalities occur in developing countries, where rabies is endemic, public health resources are inadequate and there is limited access to preventive treatment. Because of the high cost of vaccines derived from cell culture, many countries still use vaccines produced in sheep, goat or suckling mouse brain. The stability and low cost for mass production of DNA vaccines would make them ideal for use in developing countries. To investigate the potential of DNA vaccines for rabies immunization in humans, we vaccinated Macaca fascicularis (Cynomolgus) monkeys with DNA encoding the glycoprotein of the challenge virus standard rabies virus, or with a human diploid cell vaccine (HDCV). The monkeys then were challenged with a non-passaged rabies virus. DNA or HDCV vaccination elicited comparable primary and anamnestic neutralizing antibody responses. All ten vaccinated monkeys (DNA or HDCV) survived a rabies virus challenge, whereas monkeys vaccinated with only the DNA vector developed rabies. Furthermore, serum samples from DNA- or HDCV-vaccinated monkeys neutralized a global spectrum of rabies virus variants in vitro. This study shows that DNA immunization elicits protective immunity in nonhuman primates against lethal challenge with a human viral pathogen of the central nervous system. Our findings indicate that DNA vaccines may have a promising future in human rabies immunization.

Management and outcomes after multiple corneal and solid organ transplantations from a donor infected with rabies virus.

BACKGROUND: This article describes multiple transmissions of rabies via transplanted solid organ from a single infected donor. The empirical Milwaukee treatment regimen was used in the recipients. METHODS: Symptomatic patients were treated by deep sedation (ketamine, midazolam, and phenobarbital), ribavirin, interferon, and active and passive vaccination. Viral loads and antibodies were continuously monitored. RESULTS: Recipients of both cornea and liver transplants developed no symptoms. The recipient of the liver transplant had been vaccinated approximately 20 years before transplantation. Two recipients of kidney and lung transplants developed rabies and died within days of symptomatic disease. Another kidney recipient was treated 7 weeks before he died. The cerebrospinal fluid viral load remained at constant low levels (<10,000 copies/mL) for approximately 5 weeks; it increased suddenly by almost 5 orders of magnitude thereafter. After death, no virus was found in peripheral compartments (nerve tissue, heart, liver, or the small intestine) in this patient, in contrast to in patients in the same cohort who died early. CONCLUSIONS: Our report includes, to our knowledge, the longest documented treatment course of symptomatic rabies and the first time that the virus concentration was measured over time and in different body compartments. The postmortem virus concentration in the periphery was low, but there was no evidence of a reduction of virus in the brain.

Host immunity to repeated rabies virus infection in big brown bats.

Bats are natural reservoirs for the majority of lyssaviruses globally, and are unique among mammals in having exceptional sociality and longevity. Given these facets, and the recognized status of bats as reservoirs for rabies viruses (RABVs) in the Americas, individual bats may experience repeated exposure to RABV during their lifetime. Nevertheless, little information exists with regard to within-host infection dynamics and the role of immunological memory that may result from abortive RABV infection in bats. In this study, a cohort of big brown bats (Eptesicus fuscus) was infected intramuscularly in the left and right masseter muscles with varying doses [10(-0.1)-10(4.9) median mouse intracerebral lethal doses (MICLD(50))] of an E. fuscus RABV variant isolated from a naturally infected big brown bat. Surviving bats were infected a second time at 175 days post-(primary) infection with a dose (10(3.9)-10(4.9) MICLD(50)) of the same RABV variant. Surviving bats were infected a third time at either 175 or 305 days post-(secondary) infection with a dose (10(4.9) MICLD(50)) of the same RABV variant. When correcting for dose, similar mortality was observed following primary and secondary infection, but reduced mortality was observed following the third and last RABV challenge, despite infection with a high viral dose. Inducible RABV-neutralizing antibody titres post-infection were ephemeral among infected individuals, and dropped below levels of detection in several bats between subsequent infections. These results suggest that long-term repeated infection of bats may confer significant immunological memory and reduced susceptibility to RABV infection.

Experimental infection of serotine bats (Eptesicus serotinus) with European bat lyssavirus type 1a.

The serotine bat (Eptesicus serotinus) accounts for the vast majority of bat rabies cases in Europe and is considered the main reservoir for European bat lyssavirus type 1 (EBLV-1, genotype 5). However, so far the disease has not been investigated in its native host under experimental conditions. To assess viral virulence, dissemination and probable means of transmission, captive bats were infected experimentally with an EBLV-1a virus isolated from a naturally infected conspecific from Germany. Twenty-nine wild caught bats were divided into five groups and inoculated by intracranial (i.c.), intramuscular (i.m.) or subcutaneous (s.c.) injection or by intranasal (i.n.) inoculation to mimic the various potential routes of infection. One group of bats was maintained as uninfected controls. Mortality was highest in the i.c.-infected animals, followed by the s.c. and i.m. groups. Incubation periods varied from 7 to 26 days depending on the route of infection. Rabies did not develop in the i.n. group or in the negative-control group. None of the infected bats seroconverted. Viral antigen was detected in more than 50% of the taste buds of an i.c.-infected animal. Shedding of viable virus was measured by virus isolation in cell culture for one bat from the s.c. group at 13 and 14 days post-inoculation, i.e. 7 days before death. In conclusion, it is postulated that s.c. inoculation, in nature caused by bites, may be an efficient way of transmitting EBLV-1 among free-living serotine bats.

Tetrahydrobiopterin deficiency in human rabies.

Rabies is a fatal viral encephalitis characterized by a clinically acute and progressive course. With rare exceptions, there is a discrepancy between clinical outcome and frank histological alterations in rabies. Investigators have postulated that rabies virus may modify neurotransmission through occupancy of cellular receptors or alteration of ion channels. We took advantage of these observations to improvise a successful therapy for rabies. The Milwaukee protocol ( www.mcw.edu/rabies ) was further modified to treat two German patients. We measured pterins and monoamine neurotransmitter metabolites in the CSF of patients with rabies by HPLC with electrochemical or fluorescent detection. We report loss of tetrahydrobiopterin (BH(4)) and associated pathological decrease of dopaminergic and serotoninergic neurotransmission in three successive patients with rabies. CSF levels of BH(4) and neurotransmitter metabolites increased in two patients who were supplemented. Our findings support the long-standing speculation of modified neurotransmission in the pathogenesis of rabies, but by another mechanism. Brain turnover of dopamine and serotonin is reduced following rabies-acquired BH(4) deficiency. Neuronal nitric oxide synthase is BH(4)-dependent and may also be involved, possibly causing cerebrovascular insufficiency in one patient. This work must be carefully replicated in animal models and future patients. We are cautiously optimistic at the prospect of readily available, metabolically specific, enteral therapy for rabies.

PATRIC: the VBI PathoSystems Resource Integration Center.

The PathoSystems Resource Integration Center (PATRIC) is one of eight Bioinformatics Resource Centers (BRCs) funded by the National Institute of Allergy and Infection Diseases (NIAID) to create a data and analysis resource for selected NIAID priority pathogens, specifically proteobacteria of the genera Brucella, Rickettsia and Coxiella, and corona-, calici- and lyssaviruses and viruses associated with hepatitis A and E. The goal of the project is to provide a comprehensive bioinformatics resource for these pathogens, including consistently annotated genome, proteome and metabolic pathway data to facilitate research into counter-measures, including drugs, vaccines and diagnostics. The project's curation strategy has three prongs: 'breadth first' beginning with whole-genome and proteome curation using standardized protocols, a 'targeted' approach addressing the specific needs of researchers and an integrative strategy to leverage high-throughput experimental data (e.g. microarrays, proteomics) and literature. The PATRIC infrastructure consists of a relational database, analytical pipelines and a website which supports browsing, querying, data visualization and the ability to download raw and curated data in standard formats. At present, the site warehouses complete sequences for 17 bacterial and 332 viral genomes. The PATRIC website (https://patric.vbi.vt.edu) will continually grow with the addition of data, analysis and functionality over the course of the project.

Phylogeny of Lagos bat virus: challenges for lyssavirus taxonomy.

Lagos bat virus (LBV) belongs to genotype 2 of the Lyssavirus genus. The complete nucleoprotein (N), phosphoprotein (P), matrixprotein (M) and glycoprotein (G) genes of 13 LBV isolates were sequenced and phylogenetically compared with other lyssavirus representatives. The results identified three different lineages of LBV. One of these lineages demonstrated sufficient sequence diversity to be considered a new lyssavirus genotype (Dakar bat lyssavirus). The suggested quantitative separation of lyssavirus genotypes using the N, P, M and G genes was also investigated using P-distances matrixes. Results indicated that the current criteria should be revised since overlaps between intergenotypic and intragenotypic variation occur.

Emergence of lyssaviruses in the Old World: the case of Africa.

Rabies has a long history of occurrence throughout Africa, spanning hundreds of years. At least four distinct Lyssavirus species persist throughout the continent, among carnivores, bats and other mammals. Rabies virus is the most cosmopolitan member, with primary reservoirs within dogs and mongoose, but other wildlife vectors are important in viral maintenance, such as jackals. Besides a prominent toll on humans and domestic animals, the disease has an underappreciated role in conservation biology, especially for such highly endangered fauna as African wild dogs and Ethiopian wolves. Both Duvenhage and Lagos bat viruses are adapted to bats, but their epidemiology, together with Mokola virus, is poorly understood. Significantly, less than ideal cross-reactivity with modern biologicals used for veterinary and public health interventions is a major cause for concern among these emerging viral agents.

Downside risk of wildlife translocation.

Translocation has been used successfully by wildlife professionals to enhance or reintroduce populations of rare or extirpated wildlife, provide hunting or wildlife viewing opportunities, farm wild game, and reduce local human-wildlife conflicts. However, accidental and intentional translocations may have multiple unintended negative consequences, including increased stress and mortality of relocated animals, negative impacts on resident animals at release sites, increased conflicts with human interests, and the spread of diseases. Many wildlife professionals now question the practice of translocation, particularly in light of the need to contain or eliminate high profile, economically important wildlife diseases and because using this technique may jeopardize international wildlife disease management initiatives to control rabies in raccoons, coyotes, and foxes in North America. Incidents have been documented where specific rabies variants (Texas gray fox, canine variant in coyotes, and raccoon) have been moved well beyond their current range as a result of translocation, including the emergence of raccoon rabies in the eastern United States. Here, we review and discuss the substantial challenges of curtailing translocation in the USA, focusing on movement of animals by the public, nuisance wildlife control operators, and wildlife rehabilitators.

Experimental infection of big brown bats (Eptesicus fuscus) with West Caucasian bat virus (WCBV).

Big brown bats (Eptesicus fuscus), either recently captured individuals or survivors from previous experimental infection with Irkut virus (IRKV), were inoculated with West Caucasian bat virus (WCBV), intramuscularly into the masseter (n=7) or neck (n=8) muscles, or orally (n=6). Three bats inoculated into the neck muscles developed rabies and died between days 10 and 18. Viral RNA was detected in a number of tissues but isolation was successful only from the brain. An oral swab of one of these bats was also PCR-positive, but the isolation attempt failed. Brains, salivary glands and swabs from the survivors (six months observation) were negative, as well as all blood pellets collected. Therefore, no suggestions for a carrier state or viremia were obtained. In four surviving bats inoculated in the masseter muscles, WCBV-neutralizing antibodies were detected up to the end of experiment. The absence of antibodies in the three rabid bats may be the result of shorter incubation periods. Bats infected orally neither died nor responded serologically. In the bats previously infected with IRKV, IRKV-neutralizing antibodies were detected as well, up to the end of observation (12 months after IRKV challenge), even if they were not boosted by WCBV inoculation.

Bait acceptability for delivery of oral rabies vaccine to free-ranging dogs on the Navajo and Hopi Nations.

In many areas of the world, only 30 to 50% of dogs are vaccinated against rabies. On some US Indian Reservations, vaccination rates may be as low as 5 to 20%. In 2003 and 2004, we evaluated the effectiveness of commercially available baits to deliver oral rabies vaccine to feral and free-ranging dogs on the Navajo and Hopi Nations. Dogs were offered one of the following baits containing a plastic packet filled with placebo vaccine: vegetable shortening-based Ontario slim baits (Artemis Technologies, Inc.), fish-meal-crumble coated sachets (Merial, Ltd.), dog food polymer baits (Bait-Tek, Inc.), or fish meal polymer baits (Bait-Tek, Inc.). One bait was offered to each animal and its behaviour toward the bait was recorded. Behaviours included: bait ignored, bait swallowed whole, bait chewed and discarded (sachet intact), bait chewed and discarded (sachet punctured), or bait chewed and consumed (sachet punctured). Bait acceptance ranged from 30.7% to 77.8% with the fish-meal-crumble coated sachets having the highest acceptance rate of the tested baits.

Attaining raccoon rabies management goals: history and challenges.

Prior to 1977, raccoon (Procyon lotor) rabies was confined to the southeastern US. Translocations led to emergence of this rabies variant in the mid-Atlantic states, followed by spread northerly to northeast Ohio and Ontario, Quebec, and New Brunswick, Canada. Raccoon rabies is currently contiguous from southwest Alabama to southeastern Canada. Since 1998, state, federal, county and municipal as well as Canadian and Mexican experts have collaborated on goals and strategies to prevent raccoon rabies spread in North America. Coordinated programmes have been established from Maine to Alabama. Successes have been realized through strategies that rely heavily on oral vaccination. International coordination targeting raccoon rabies continues in eastern Canada, where contingency actions have led to elimination or near elimination in Ontario and New Brunswick. However, increasingly, focus in the US has been directed toward contingency actions to "hold-the-line" where raccoon rabies threatens to spread to new areas, rather than on raccoon rabies elimination. We report on the challenges of achieving enhanced rabies surveillance, containment of raccoon rabies, and local elimination of raccoon rabies, as well as the need for international coordination in meeting these challenges.

Can rabies be eradicated?

Rabies, an acute progressive encephalitis, is an ancient zoonosis. Its distribution encompasses all continents, except Antarctica. Agents consist of at least 11 species orgenotypes of rhabdoviruses, in the Genus Lyssavirus. Susceptible natural hosts include all mammals. Primary reservoirs reside in the Orders Carnivora and Chiroptera. A plethora of variants, maintained by a diversity of abundant hosts, presents a challenge to a strict concept of true eradication. Globally, the domestic dog remains the most significant species for viral transmission, responsible for millions of suspect human exposures and tens of thousands of fatalities. As such, this single major target provides an ideal opportunity for focused intervention programmes in humane disease prevention and control, driven by laboratory-based surveillance and guided via modern epidemiological insights. Historically, substantial technical progress throughout the 20th century led to the development of safe, affordable and efficacious animal and human vaccines, resulting in declining disease burdens in selected developed and developing countries. Regional and local disease resurgence occurs, due in part to a combination of political and economic instability, environmental perturbations, and shifting government priorities. Society must recall that despite the recent recognition of other important emerging infectious diseases, none exceed the case fatality rate of rabies. Given the clear relevance of rabies in public health, agriculture, and conservation biology, substantive international progress must continue towards enhanced public awareness, human rabies prevention, wildlife rabies control, and canine rabies elimination, with renewed collaborative vigour.

Epidemiology and pathogenicity of African bat lyssaviruses.

Lyssaviruses belonging to all four known African Lyssavirus genotypes (gts) have been reported and isolated from SouthAfrica over the past few decades. These are: (1) Duvenhage virus (gt4), isolated again in 2006 from a human fatality; (2) Mokola virus (gt3), isolated irregularly, mostly from cats; (3) Lagos bat virus (gt2) continually isolated over the past four years from Epomophorus fruit bats and from incidental terrestrial animals and (4) Rabies virus (gt1) - with two virus biotypes endemic in mongoose and in canid species (mostly domestic dogs, jackals and bat-eared foxes), respectively. Only two of these are associated with bats in Southern Africa, viz. Duvenhage virus and Lagos bat virus (gts 4 and 2). For both these genotypes the authors have embarked on a programme of comparative study of molecular epidemiology. Duvenhage virus nucleoprotein nucleotide sequence analysis indicated a very low nucleotide diversity even though isolates were isolated decades apart. In contrast, individual isolates of Lagos bat virus were found to differ significantly with respectto nucleoprotein gene nucleotide sequence diversity as well as in pathogenicity profiles.