The Importance of Quality Control of LSDV Live Attenuated Vaccines for Its Safe Application in the Field

Haegeman, Andy; Leeuw, Ilse De; Saduakassova, Meruyert A.; Campe, Willem Van; Aerts, Laetitia; Philips, Wannes; Sultanov, Akhmetzhan A.; Mostin, Laurent; Clercq, Kris De

doi:10.3390/vaccines9091019

Cited by 20 publications

(32 citation statements)

References 72 publications

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“…Comparisons between the partial sequences obtained from the Kenyan/2011 isolate with LSDV/Russia/Saratov/2017 indicated that they were not identical, but similar to the five recombinant virus sequences analysed here a novel recombinant strain [ 34 ]. The parental sequences predicted to be involved in the generation of the novel recombinants observed in Kenya, Kazakhstan, Russia and China and Vietnam, are mirrored in the mixed composition recently described in the Lumpivax vaccine batch from Kevevapi, that was extensively used in Kazakhstan since 2016 [ 10 , 35 ]. Although there is no evidence to identify the time when, and if, the recombinants emerged in the vaccine batch at the manufacturer’s site, evidence of a 2016 batch of Lumpivax vaccine from Kevevapi already displayed both vaccine and field signatures, i.e.…”

Section: Discussionmentioning

confidence: 99%

“…Incorporation of new data in future studies will greatly improve our understanding of the global LSD epidemiology and capture important details of LSDV molecular evolution. The identification and analysis of all the novel recombinant strains, again reiterate the limitations of the current DIVA assays, the importance of next generation sequencing of circulating isolates as well as the quality inspections during vaccine productions [ 35 ].…”

Section: Discussionmentioning

confidence: 99%

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An in-depth bioinformatic analysis of the novel recombinant lumpy skin disease virus strains: from unique patterns to established lineage

et al. 2022

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Background Since the first description of lumpy skin disease virus (LSDV) in Africa in the 1920’s, it has brazenly spread beyond Africa into the Middle East, Europe and most recently Asia. In 2017 the first atypical LSDV recombinant strain was reported in Russia, composed of both a live-attenuated Neethling vaccine strain and Kenyan vaccine strain. An increase in LSDV research enabled a public release of numerous full genome sequences of unique recombinant LSDV strains from Kazakhstan, Russia, China and Vietnam. Prior to the recombinant strain first described in China in 2019, every new recombinant strain was genetically unique and each of these recombinants clustered in a monophyletic lineage. In this work, we provide the complete genome sequences of two novel recombinant strains of LSDV from Russia and attempt to gain more insight into genomic composition of all the recombinant strains currently available. This analysis will provide new insight into the global molecular epidemiology of LSDV. Results By sequencing and analyzing two novel recombinant strains Khabarovsk/2020 and Tomsk/2020, this study investigates the differences and similarities of all five the available recombinant LSDV lineages from different countries based on the SNPs inherited from the aforementioned parental strains. A total of seven recombinant strains: LSDV/Russia/Saratov/2017, LSDV/Russia/Udmurtya/2019, LSDV/KZ-Kostanay/Kazakhstan/2018, LSDV/Russia/Tyumen/2019, LSDV/GD01/China/2020 Khabarovsk/2020 and Tomsk/2020 were examined. It was observed that strains isolated prior to 2020 were composed of unique combinations of open reading frames, whilst from 2020 onwards all circulating strains in Russia and South-Eastern Asia belonged to a single lineage radiating out in the region. The first representative of this lineage is LSDV/GD01/China/2020. Interestingly, the other four unique recombinant strains as well as the newly established lineage, exhibit consistent patterns of targeted selection pointing to regions constantly selected for during the recombination-driven processes. Conclusion This study highlights the inexplicable emergence of novel recombinant strains to be unique introductions of sibling viruses, with the most recent recombinant lineage establishing as the dominant strain across the south eastern Asian countries as evidenced by full genome sequence data. Overall, these findings indicate that LSDVs are subjected to accelerated evolutionary changes due to recombination in the face of homologous live attenuated vaccines as well as the slow genetic drift commonly observed in capripoxviruses curculatign in the field with hardly any genetic changes over decades.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

An in-depth bioinformatic analysis of the novel recombinant lumpy skin disease virus strains: from unique patterns to established lineage

et al. 2022

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“…As none of the other countries in the affected region used a homologous LSDV vaccine during the same period, it was suggested that the vaccine might have been responsible for the emergence of the recombinant strains [ 26 , 33 , 36 ]. In a previous study, Haegeman et al indeed obtained conflicting results when they analysed the Lumpivax vaccine with a series of PCR assays that allowed differentiation between infected and vaccinated animals (DIVA) [ 40 ]. Genetic characterisation using Sanger sequencing revealed the presence of Neethling-like, KSGP-like and GTPV-like sequences in the vaccine itself, as well as in samples taken from vaccinated animals.…”

Section: Discussionmentioning

confidence: 99%

“…Unfortunately, unlike other commercially available Neethling-based vaccines, not much is known about the Lumpivax vaccine. Although the vaccine is certified by the manufacturers KEVEVAPI (Nairobi, Kenya) and AU-PANVAC (Debre Zeit, Ethiopia) as containing the LSDV Neethling strain, a preliminary genetic characterisation by Haegeman et al [ 40 ] revealed the presence of both Neethling- and KSGP-like LSDV sequences. In addition, the authors also discovered typical GTPV sequences [ 40 ].…”

Section: Introductionmentioning

confidence: 99%

“…Although the vaccine is certified by the manufacturers KEVEVAPI (Nairobi, Kenya) and AU-PANVAC (Debre Zeit, Ethiopia) as containing the LSDV Neethling strain, a preliminary genetic characterisation by Haegeman et al [ 40 ] revealed the presence of both Neethling- and KSGP-like LSDV sequences. In addition, the authors also discovered typical GTPV sequences [ 40 ]. Even though these results raise serious concerns about the exact contents of the vaccine, it remains unclear whether the vaccine-like recombinant strains were already present in the vaccine or only emerged in the field.…”

Section: Introductionmentioning

confidence: 99%

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Recombinant LSDV Strains in Asia: Vaccine Spillover or Natural Emergence?

Vandenbussche

Mathijs

Philips

et al. 2022

Viruses

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From 2017 to 2019, several vaccine-like recombinant strains of lumpy skin disease virus (LSDV) were discovered in Kazakhstan and neighbouring regions of Russia and China. Shortly before their emergence, the authorities in Kazakhstan launched a mass vaccination campaign with the Neethling-based Lumpivax vaccine. Since none of the other countries in the affected region had used a homologous LSDV vaccine, it was soon suspected that the Lumpivax vaccine was the cause of these unusual LSDV strains. In this study, we performed a genome-wide molecular analysis to investigate the composition of two Lumpivax vaccine batches and to establish a possible link between the vaccine and the recent outbreaks. Although labelled as a pure Neethling-based LSDV vaccine, the Lumpivax vaccine appears to be a complex mixture of multiple CaPVs. Using an iterative enrichment/assembly strategy, we obtained the complete genomes of a Neethling-like LSDV vaccine strain, a KSGP-like LSDV vaccine strain and a Sudan-like GTPV strain. The same analysis also revealed the presence of several recombinant LSDV strains that were (almost) identical to the recently described vaccine-like LSDV strains. Based on their InDel/SNP signatures, the vaccine-like recombinant strains can be divided into four groups. Each group has a distinct breakpoint pattern resulting from multiple recombination events, with the number of genetic exchanges ranging from 126 to 146. The enormous divergence of the recombinant strains suggests that they arose during seed production. The recent emergence of vaccine-like LSDV strains in large parts of Asia is, therefore, most likely the result of a spillover from animals vaccinated with the Lumpivax vaccine.

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Phylogenetic analysis of lumpy skin disease virus isolates in Russia in 2019-2021

et al. 2022

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The Importance of Quality Control of LSDV Live Attenuated Vaccines for Its Safe Application in the Field

Cited by 20 publications

References 72 publications

An in-depth bioinformatic analysis of the novel recombinant lumpy skin disease virus strains: from unique patterns to established lineage

An in-depth bioinformatic analysis of the novel recombinant lumpy skin disease virus strains: from unique patterns to established lineage

Recombinant LSDV Strains in Asia: Vaccine Spillover or Natural Emergence?

Phylogenetic analysis of lumpy skin disease virus isolates in Russia in 2019-2021

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