Non-vector-borne transmission of lumpy skin disease virus.

The transmission of "lumpy skin disease virus" (LSDV) has prompted intensive research efforts due to the rapid spread and high impact of the disease in recent years, especially in Eastern Europe and Balkan countries. In this study, we experimentally evaluate the vaccine-derived virulent recombinant LSDV strain (Saratov/2017) and provide solid evidence on the capacity of the virus for transmission in a vector-proof environment. In the 60-day long experiment, we used inoculated bulls (IN group) and two groups of in-contact animals (C1 and C2), with the former (C1) being in contact with the inoculated animals at the onset of the trial and the latter (C2) being introduced at day 33 of the experiment. The infection in both groups of contact animals was confirmed clinically, serologically and virologically, and viremia was demonstrated in blood, nasal and ocular excretions, using molecular tools. Further studies into LSDV biology are a priority to gain insights into whether the hypothesized indirect contact mode evidenced in this study is a de novo-created feature, absent from both parental stains of the novel (recombinant) LSDV isolate used, or whether it was dormant, but then unlocked by the process of genetic recombination. Author summary: In global terms, LSD has been termed a "neglected disease" due to its historic natural occurrence of being restricted to Africa and, occasionally, Israel. However, after its slow spread throughout the Middle East, the disease is now experiencing a resurgence of research interest following a recent and rapid spread into more northern latitudes. Given the dearth of solid findings on potential transmission mechanisms, no efficient or reliable control program currently exists, which does not involve the use of live attenuated vaccines or stamping out policies - both of which are controversial for implementation in non-endemic regions or countries. The vector-borne mode is the only working concept currently available, but with scarce evidence to support the aggressive spread northwards - except for human-assisted spread, including legal or illegal animal transportation. The emergence of outbreaks is not consistently linked to weather conditions, with the potential for new outbreaks to occur and spread rapidly. Here, for the first time, we provide evidence for indirect contact-mode transmission for a naturally-occurring recombinant LSDV isolated from the field. In an insect-proof facility, we obtained solid evidence that the novel LSDV strain can pass to in-contact animals. Given the recombinant nature of the virus utilised, its genetic background relating to the observed transmission pattern within the study needs to be delineated.

Emergence of a new lumpy skin disease virus variant in Kurgan Oblast, Russia, in 2018.

In this paper, we report the resurgence of lumpy skin disease (LSD) in Kurgan Oblast, Russia, in 2018. The majority of the outbreaks were silent with no mortality and congregated within an area with a radius of about 30 km located 1-50 km away from the national border with Kazakhstan. Following primary molecular diagnosis, LSD virus (LSDV) isolates were analyzed using a panel of PCR assays targeting different genetic loci, namely, LSD008 (vaccine), LSDV126 (field), and GPCR (vaccine and field), for differentiation and genotype assignment. All isolates were positive for the vaccine genotype of GPCR and negative for the other field targets tested. A PCR assay with melt curve analysis utilizing LSD008, developed in this work, indicated that the strains melted with a profile similar to those of field strains. Surprisingly, sequence analysis of the RPO30 and GPCR genes aligned the Kurgan/2018 isolate with KSGP O-240 at the GPCR locus, but with Saratov/2017 at the RPO30 locus. The latter cluster forms an association with a sub-cluster of the field strains comprising the South African KSGP O-240 strain and NI-2490 strain. Due to these incongruent phylogenetic patterns, the sequences of three additional loci ORF19 (Kelch-like protein), ORF52 (putative transcriptional elongation factor), and ORF87 (mutT motif protein) were investigated. Phylogenetic analysis of these additional loci placed the strain Kurgan/2018 in either vaccine or field groups, strongly suggesting a novel recombinant profile. This is another piece of evidence exposing the potential for recombination in capripoxviruses and the ignored danger of using live homologous vaccines against LSD. The necessity to revise the PCR-based strategy differentiating infected from vaccinated animals is discussed. The potential scenarios of incursion and the contribution of the KSGP/NI-2490-like strain to the emergence of the recently identified vaccine-like recombinant are discussed.

A real-time PCR screening assay for the universal detection of lumpy skin disease virus DNA.

OBJECTIVE: The resurgence of lumpy skin disease virus isolates of different genotypic natures abolishes the accuracy of assays that target either vaccine or field strain genome. The aim of the present study was to develop a universal real-time PCR assay using TaqMan chemistry to cover field, vaccine, and recombinant strains of lumpy skin disease virus isolates. RESULTS: The PCR assay was designed based on a LSDV044 target region that offers a unique identification locus to facilitate the sensitive and specific detection of all isolates known to date. The efficiency of amplification, determined over five orders of magnitude, was 93%, with the standard deviation remaining in the range of 0.11-0.23. Evaluation of the assay repeatability on three different days revealed that the inter-run variability ranged from 0.83 to 1.22 over five repetitions across three runs. This new screening assay is proposed as a fast, efficient, and sensitive tool that can be employed in the basic or applied surveillance studies regardless of the genotype. Moreover, the assay can be used for the routine laboratory testing of animal samples during eradication programs for lumpy skin disease.