Phylogeographical and cross‐species transmission dynamics of SAT1 and SAT2 foot‐and‐mouth disease virus in Eastern Africa

Paul, George; Alkhamis, Moh A.; Obanda, Vincent; Gakuya, Francis; Sangula, Abraham; Pauszek, Steven J.; Pérez, Andrés; Ngulu, Stephen; Aardt, Richard van; Arzt, Jonathan; VanderWaal, Kimberly

doi:10.1111/mec.15125

Cited by 20 publications

(24 citation statements)

References 78 publications

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“…However, in the presence of a large number of sequences, these strategies are ill timed and require massive computational resources, making them inefficient for targeted and near-realtime surveillance systems. It is worth noting that substitution rate and divergence time inferred by Alkhamis et al (43) using the FMD SAT1 VP1 segment were similar to the evolutionary estimates inferred by Lasecka-Dykes et al (125) using wholegenome sequences, confirming the robustness of phylodynamic methods. Nevertheless, the presence of recombination events can severely impact the robustness of phylodynamic methods leading to inferring biased evolutionary histories (126).…”

Section: Robustness and Limitations Of Phylodynamic Methodssupporting

confidence: 79%

“…Retrieving and combining relatives of novel viral isolates in a single dataset will warrant a proper inference of representative phylogenetic relationships of a tree topology based on all available related sequences. As on many occasions, novel sequences might belong to different distinct viral lineages published elsewhere (39,43). The basic local alignment search tool (BLAST; https://blast.ncbi.nlm.nih.gov/Blast.cgi) is the most popular tool for retrieving relatives of novel sequences (Figure 1).…”

Section: Sequence Collection and Retrievalmentioning

confidence: 99%

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Animal Disease Surveillance in the 21st Century: Applications and Robustness of Phylodynamic Methods in Recent U.S. Human-Like H3 Swine Influenza Outbreaks

Alkhamis

Torremorell

2020

Front. Vet. Sci.

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Emerging and endemic animal viral diseases continue to impose substantial impacts on animal and human health. Most current and past molecular surveillance studies of animal diseases investigated spatio-temporal and evolutionary dynamics of the viruses in a disjointed analytical framework, ignoring many uncertainties and made joint conclusions from both analytical approaches. Phylodynamic methods offer a uniquely integrated platform capable of inferring complex epidemiological and evolutionary processes from the phylogeny of viruses in populations using a single Bayesian statistical framework. In this study, we reviewed and outlined basic concepts and aspects of phylodynamic methods and attempted to summarize essential components of the methodology in one analytical pipeline to facilitate the proper use of the methods by animal health researchers. Also, we challenged the robustness of the posterior evolutionary parameters, inferred by the commonly used phylodynamic models, using hemagglutinin (HA) and polymerase basic 2 (PB2) segments of the currently circulating human-like H3 swine influenza (SI) viruses isolated in the United States and multiple priors. Subsequently, we compared similarities and differences between the posterior parameters inferred from sequence data using multiple phylodynamic models. Our suggested phylodynamic approach attempts to reduce the impact of its inherent limitations to offer less biased and biologically plausible inferences about the pathogen evolutionary characteristics to properly guide intervention activities. We also pinpointed requirements and challenges for integrating phylodynamic methods in routine animal disease surveillance activities.

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Section: Robustness and Limitations Of Phylodynamic Methodssupporting

confidence: 79%

Section: Sequence Collection and Retrievalmentioning

confidence: 99%

Animal Disease Surveillance in the 21st Century: Applications and Robustness of Phylodynamic Methods in Recent U.S. Human-Like H3 Swine Influenza Outbreaks

Alkhamis

Torremorell

2020

Front. Vet. Sci.

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“…From this analysis, we cannot determine whether buffalo were the source of these outbreaks in cattle or whether the buffalo acquire SAT1 and SAT2 virus already circulating in livestock. However, additional analysis by Omondi et al have revealed that currently circulating clades of SAT1 and SAT2 in East Africa likely have a cattle origin, though buffalo may have an ancestral role deeper in the past (Omondi et al., 2019). In addition, further sampling of wildlife populations across Kenya is needed to gain a more representative view of the diversity of FMDV found in buffalo in relation to outbreaks in livestock.…”

Section: Discussionmentioning

confidence: 99%

“…Speculatively, this could reflect different patterns of host–pathogen co‐evolution in southern versus eastern Africa. Alternatively, given that SAT2 appears better able to cause outbreaks in cattle than SAT1 (Bastos et al., 2001, 2003), the dominance of SAT2 in this East African buffalo population could reflect a higher FMDV burden in cattle populations and subsequent spillover from cattle into buffalo (Omondi et al., 2019).…”

Section: Discussionmentioning

confidence: 99%

The role of African buffalo in the epidemiology of foot‐and‐mouth disease in sympatric cattle and buffalo populations in Kenya

Paul

Gakuya

Arzt

et al. 2020

Transbound Emerg Dis

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Quantitative knowledge on the contribution of African buffalo to the epidemiology of foot‐and‐mouth disease virus (FMDV) in East Africa is lacking, and this information is essential for the design of control programs in the region. The objective of this study was to investigate the epidemiology of FMDV in buffalo, including the role of buffalo in the circulation of FMDV in livestock populations. We collected blood and oropharyngeal fluids from 92 wild buffalo and 98 sympatric cattle in central Kenya and sequenced the virus’ VP1 coding region. We show that FMDV has a high seroprevalence in buffalo (~77%) and targeted cattle (~93%). In addition, we recovered 80 FMDV sequences from buffalo, all of which were serotype SAT1 and SAT2, and four serotype O and A sequences from sympatric cattle. Notably, six individual buffalo were co‐infected with both SAT1 and SAT2. Amongst sympatric buffalo and cattle, the fact that no SAT1 or 2 sequences were found in cattle suggests that transmission of FMDV from buffalo to sympatric cattle is rare. Similarly, there was no evidence that serotype O and A sequences found in cattle were transmitted to buffalo. However, viruses from FMDV outbreaks in cattle elsewhere in Kenya were closely related to SAT1 and SAT2 viruses found in buffalo in this study, suggesting that FMDV in cattle and buffalo do not constitute independently evolving populations. We also show that fine‐scale geographic features, such as rivers, influence the circulation of FMDV in buffalo and that social segregation amongst sympatric herds may limit between‐herd transmission. These results significantly advance our understanding of the ecology and molecular epidemiology of FMDV at wildlife–livestock interfaces in East Africa and will help to inform the design of control and surveillance strategies for this disease in the region.

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“…It is believed that FMDV infection in herds of African buffalo is maintained, in part, through transmission from subclinically infected dams to neonates; however, the specific mechanism of transmission and the herd-level persistence of infection have never been determined or tested. Investigations based on phylogenetic analysis of viruses obtained from cattle and buffalo in FMD endemic regions have shown that FMDV populations found in the different host species are generally distinct, although some overlap suggests that inter-species transmission events do occur [129]. However, as FMDV infection in African buffalo is usually subclinical (neoteric), confirmed transmission of FMDV from buffalo to cattle does not necessarily imply the involvement of FMDV carriers.…”

Section: Transmission From Fmdv Carriersmentioning

confidence: 99%

The Carrier Conundrum; A Review of Recent Advances and Persistent Gaps Regarding the Carrier State of Foot-and-Mouth Disease Virus

Stenfeldt

Arzt

2020

Pathogens

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The existence of a prolonged, subclinical phase of foot-and-mouth disease virus (FMDV) infection in cattle was first recognized in the 1950s. Since then, the FMDV carrier state has been a subject of controversy amongst scientists and policymakers. A fundamental conundrum remains in the discordance between the detection of infectious FMDV in carriers and the apparent lack of contagiousness to in-contact animals. Although substantial progress has been made in elucidating the causal mechanisms of persistent FMDV infection, there are still critical knowledge gaps that need to be addressed in order to elucidate, predict, prevent, and model the risks associated with the carrier state. This is further complicated by the occurrence of a distinct form of neoteric subclinical infection, which is indistinguishable from the carrier state in field scenarios, but may have substantially different epidemiological properties. This review summarizes the current state of knowledge of the FMDV carrier state and identifies specific areas of research in need of further attention. Findings from experimental investigations of FMDV pathogenesis are discussed in relation to experience gained from field studies of foot-and-mouth disease.

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Phylogeographical and cross‐species transmission dynamics of SAT1 and SAT2 foot‐and‐mouth disease virus in Eastern Africa

Cited by 20 publications

References 78 publications

Animal Disease Surveillance in the 21st Century: Applications and Robustness of Phylodynamic Methods in Recent U.S. Human-Like H3 Swine Influenza Outbreaks

Animal Disease Surveillance in the 21st Century: Applications and Robustness of Phylodynamic Methods in Recent U.S. Human-Like H3 Swine Influenza Outbreaks

The role of African buffalo in the epidemiology of foot‐and‐mouth disease in sympatric cattle and buffalo populations in Kenya

The Carrier Conundrum; A Review of Recent Advances and Persistent Gaps Regarding the Carrier State of Foot-and-Mouth Disease Virus

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