Peste des Petits Ruminants Virus in Heilongjiang Province,China, 2014

During March 25–May 5, 2014, we investigated 11 outbreaks of peste des petits ruminants in Heilongjiang Province, China. We found that the most likely source of the outbreaks was animals from livestock markets in Shandong. Peste des petits ruminants viruses belonging to lineages II and IV were detected in sick animals.     

Spillover of Peste des Petits Ruminants Virus from Domestic to Wild Ruminants in the Serengeti Ecosystem,Tanzania

We tested wildlife inhabiting areas near domestic livestock, pastures, and water sources in the Ngorongoro district in the Serengeti ecosystem of northern Tanzania and found 63% seropositivity for peste des petits ruminants virus. Sequencing of the viral genome from sick sheep in the area confirmed lineage II virus circulation.     

Molecular Evolution of Peste des Petits Ruminants Virus

Despite safe and efficacious vaccines against peste des petits ruminants virus (PPRV), this virus has emerged as the cause of a highly contagious disease with serious economic consequences for small ruminant agriculture across Asia, the Middle East, and Africa. We used complete and partial genome sequences of all 4 lineages of the virus to investigate evolutionary and epidemiologic dynamics of PPRV. A Bayesian phylogenetic analysis of all PPRV lineages mapped the time to most recent common ancestor and initial divergence of PPRV to a lineage III isolate at the beginning of 20th century. A phylogeographic approach estimated the probability for root location of an ancestral PPRV and individual lineages as being Nigeria for PPRV, Senegal for lineage I, Nigeria/Ghana for lineage II, Sudan for lineage III, and India for lineage IV. Substitution rates are critical parameters for understanding virus evolution because restrictions in genetic variation can lead to lower adaptability and pathogenicity.     

Peste des Petits Ruminants Infection among Cattle and Wildlife in Northern Tanzania

We investigated peste des petits ruminants (PPR) infection in cattle and wildlife in northern Tanzania. No wildlife from protected ecosystems were seropositive. However, cattle from villages where an outbreak had occurred among small ruminants showed high PPR seropositivity, indicating that spillover infection affects cattle. Thus, cattle could be of value for PPR serosurveillance.     

Prevalence,distribution, and host range of Peste des petits ruminants virus,Turkey

Peste des petits ruminants virus (PPRV, genus Morbillivirus), which causes a severe disease in sheep and goats, has only recently been officially declared to be present in Turkey. We carried out a study to determine the prevalence, distribution, and host range of PPRV in Turkey. A total of 1,607 animals, reared in 18 different locations, were monitored for the presence of antibodies to PPRV and the related virus of large ruminants, Rinderpest virus (RPV). Only two farms had animals that were free of antibody responses to either disease. Prevalence for PPRV infection varied (range 0.87%-82.6%) and was higher in sheep (29.2%) than in goats (20%). The overall antibody responses to PPRV and RPV were 22.4% and 6.28%, respectively. Two PPRVs of lineage 4, which comprises many other PPRVs whose origins are in the Middle East, the Arabian Peninsula, and southern Asia, were isolated from Turkish sheep.     

Strategies for improved stability of Peste des Petits Ruminants Vaccine

The main focus of this work was the improvement of the stability of the current PPRV vaccine. First, new formulations based on the Tris buffer were tested, with and without the addition of sucrose and trehalose and compared with the formulation normally used to stabilize the vaccine, the Weybridge medium. The results show a virus half-life of 21 h at 37 °C and 1 month at 4 °C for the Tris/trehalose liquid formulation and, in the lyophilized form, the formulation was able to maintain the viral titer above the 1 × 10⁴ TCID₅₀/mL (>10 doses/mL) for at least 21 months at 4 °C (0.6 log lost), 144 h at 37 °C (0.6 log lost) and 120 h at 45 °C (1 log lost).Secondly, a strategy based on culture medium composition manipulation aiming at improving the intrinsic PPRV vaccine stability was also evaluated. The addition of 25 mM fructose resulted in a higher virus production (1 log increase) with higher stability (2.6-fold increase compared to glucose 25 mM) at 37 °C. Increased concentrations of NaCl, improved virus release, reducing the cell-associated fraction of the virus produced. Moreover this harvesting strategy is scalable and more suitable for a larger scale production than the freeze/thaw cycles normally used.The information gathered in this work showed that it is possible for the PPRV vaccine to have adequate short-term stability at non-freezing temperatures to support manufacturing, short-term shipping and storage. The identification of a more stable formulation should significantly enhance the utility of the vaccine in the control of a PPRV outbreak.     

Immune responses in goats to recombinant hemagglutinin-neuraminidase glycoprotein of Peste des petits ruminants virus: identification of a T cell determinant

Peste des petits ruminants virus (PPRV), a member of the genus Morbillivirus within the family Paramyxoviridae, causes a fatal disease ‘peste des petits ruminants’ in goats and sheep. This enveloped virus is antigenically closely related to rinderpest virus (RPV), which causes a similar but distinct disease in large ruminants. PPRV harbors two major surface glycoproteins, the hemagglutinin-neuraminidase (HN) and the fusion (F) proteins. The surface glycoproteins of morbilliviruses are highly immunogenic and confer protective immunity. In this study, we investigated the immune responses generated in goats immunized with low doses of purified recombinant extracellular baculovirus carrying a membrane bound form of the HN protein of PPRV without any adjuvant. We report that the immunized goats develop both humoral and cell-mediated immune responses. Antibodies generated in the immunized animals could neutralize both PPRV and RPV in vitro. Further, using a combination of Escherichia coli expressed deletion mutants of PPRV-HN and RPV-H proteins, and synthetic peptides corresponding to the highly conserved N-terminal sequences of MV-H protein, we have mapped an N-terminal T cell determinant (amino acids 123–137) and a C-terminal domain (amino acids 242–609) harboring potential T cell determinant(s) in goats.     

Testing a new formulation for Peste des Petits Ruminants vaccine in Ethiopia

In this paper extended tests on a new candidate formulation for Peste des Petits Ruminants (PPR) vaccine carried out at National Veterinary Institute (NVI) in Ethiopia are presented. This work was performed in the frame of the VACNADA project from GALVmed which aimed at procuring vaccines against neglected veterinary diseases to African vaccine producing laboratories, in particular PPR.     

A thermostable presentation of the live,attenuated peste des petits ruminants vaccine in use in Africa and Asia

The research objective was to develop a thermostable vaccine against peste des petits ruminants (PPR), a morbilliviral disease of small ruminants targeted for eradication that is a major constraint on the livelihoods of the rural poor throughout much of Africa and Asia. Although existing PPR vaccines provide life-long immunity, they require continuous refrigeration. This limits their utility in developing countries. Methods for the lyophilization of a related morbillivirus, rinderpest (RP), resulted in vaccine that could be used in the field for up to 30 days without refrigeration which was a major contribution to the global eradication of RP completed in 2011. The present research applied the rinderpest lyophilization method to the attenuated Nigeria 75/1 PPR vaccine strain, and measured thermostability in accelerated stability tests (AST) at 37 °C. The shelf-life of the vaccine was determined as the time a vial retained the minimum dose required as a 25-dose presentation at the specified temperature. A lactalbumin hydrolysate and sucrose (LS) stabilizer was compared to stabilizers based on trehalose. PPR vaccine produced using the Xerovac drying method was compared to vaccine produced using the rinderpest lyophilization method in AST. LS vaccine was evaluated in AST at 37, 45 and 56 °C and an Arrhenius plot was constructed for estimation of stability at temperatures not tested. Vaccines produced using LS and the rinderpest method of lyophilization were the most stable. The shelf-life of the Xerovac preparation was 22.2 days at 37 °C. The three LS vaccine batches had shelf-lives at 37 °C of 177.6, 105.0 and 148.9 days, respectively, at 37 °C. At 56 °C, the shelf-life was 13.7 days. The projected half-life at 25 °C was 1.3 years. This is sufficient thermostability for use without a cold chain for up to 30 days which will greatly facilitate the delivery of vaccination in the global eradication of PPR.     

Emergence of peste des petits ruminants virus lineage IV in Ismailia Province,Egypt

Peste des petits ruminants (PPR) is an acute, highly contagious fatal disease of small ruminants characterized by high fever, ocular and nasal discharge, pneumonia, erosive stomatitis and severe enteritis that ultimately results in high mortalities. Peste des petits ruminants virus (PPRV) is widely distributed and endemic in several African, middle eastern and south Asian countries and it poses a threat to European countries. Egyptian veterinary medical authorities stated that Egypt is free from PPRV and the only measures for disease control are test and slaughter of infected population to maintain the free status. The aim of our investigation was to detect PPRV in Ismailia province as an indicator of the infection status in Egypt and perform molecular characterization of the emerging virus to gain insight into the origin of circulating virus. A total of 40 representative clinical samples, from a single goat case and goat flock in 2010 and sheep flock in 2012, were tested for PPRV by RT-PCR. About 21 (52.5%) samples were positive. The phylogenetic analysis of the detected viruses revealed circulation of PPRV lineage IV. The circulating viruses are closely related to Sudanese and Saudia Arabian strains with nucleotide identity ranged from 99.2% to 99.6%, respectively. Also, it is closely related to Moroccan 2008 viruses with identities ranged from 97.6% to 98%. Epidemiological investigation at the national level is recommended for monitoring PPRV spread and implementing an appropriate control program.     

Usutu Virus Africa 3 Lineage,Luxembourg, 2020

We detected Usutu virus in a dead Eurasian blackbird (Turdus merula) in Luxembourg in September 2020. The strain clustered within the Africa 3.1 lineage identified in Western Europe since 2016. Our results suggest maintenance of the virus in Europe despite little reporting during 2019–2020, rather than a new introduction.     

Immune responses in goats to recombinant hemagglutinin-neuraminidase glycoprotein of Peste des petits ruminants virus: identification of a T cell determinant

Peste des petits ruminants virus (PPRV), a member of the genus Morbillivirus within the family Paramyxoviridae, causes a fatal disease ‘peste des petits ruminants’ in goats and sheep. This enveloped virus is antigenically closely related to rinderpest virus (RPV), which causes a similar but distinct disease in large ruminants. PPRV harbors two major surface glycoproteins, the hemagglutinin-neuraminidase (HN) and the fusion (F) proteins. The surface glycoproteins of morbilliviruses are highly immunogenic and confer protective immunity. In this study, we investigated the immune responses generated in goats immunized with low doses of purified recombinant extracellular baculovirus carrying a membrane bound form of the HN protein of PPRV without any adjuvant. We report that the immunized goats develop both humoral and cell-mediated immune responses. Antibodies generated in the immunized animals could neutralize both PPRV and RPV in vitro. Further, using a combination of Escherichia coli expressed deletion mutants of PPRV-HN and RPV-H proteins, and synthetic peptides corresponding to the highly conserved N-terminal sequences of MV-H protein, we have mapped an N-terminal T cell determinant (amino acids 123–137) and a C-terminal domain (amino acids 242–609) harboring potential T cell determinant(s) in goats.     

Comparative efficacy of various chemical stabilizers on the thermostability of a live-attenuated peste des petits ruminants (PPR) vaccine

Thermostability of a live-attenuated peste des petits ruminants (PPR) vaccine recently developed at Indian Veterinary Research Institute was studied using conventional lyophilization conditions. A total of four stabilizers viz., lactalbumin hydrolysate–sucrose (LS), Weybridge medium (WBM), buffered gelatin-sorbitol (BUGS) and trehalose dihydrate (TD) were used to prepare the lyophilized vaccine. The study revealed that the PPR vaccine lyophilized with either LS or TD is more stable than rest of the stabilizers having an expiry period of at least 45 days (so far studied) at 4 °C, 15–19 days at 25 °C and 1–2 days at 37 °C. However, at a temperature of 45 °C, BUGS had a marginal superiority, although lasted for few hours, followed by TD and LS with respect to shelf-life, LS and TD with respect to half-life. On the basis of half-life also LS followed by TD appeared superior at a temperature of 4, 25 and 37 °C. Reconstitution of vaccine with distilled water or 1 M MgSO₄ or 0.85% NaCl maintained the required virus titre (2.5 log₁₀ TCID₅₀ per dose) up to 8 h at 37 °C and 7 h at 45 °C. Among the three diluents, 1 M MgSO₄ appeared to be the better diluent for reconstitution of lyophilized PPR vaccine, as the loss on dilution was lowest and maintain the required virus titre for a longer period. Investigation suggests for using LS as stabilizer for lyophilization and 1 M MgSO₄ as vaccine diluent for the newly developed PPR vaccine.