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Louge Uriarte EL, Badaracco A, Spetter MJ, Miño S, Armendano JI, Zeller M, Heylen E, Späth E, Leunda MR, Moreira AR, Matthijnssens J, Parreño V, Odeón AC. Molecular Epidemiology of Rotavirus A in Calves: Evolutionary Analysis of a Bovine G8P[11] Strain and Spatio-Temporal Dynamics of G6 Lineages in the Americas. Viruses 2023; 15:2115. [PMID: 37896894 PMCID: PMC10611311 DOI: 10.3390/v15102115] [Citation(s) in RCA: 1] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/22/2023] [Revised: 09/22/2023] [Accepted: 09/25/2023] [Indexed: 10/29/2023] Open
Abstract
Rotavirus A (RVA) causes diarrhea in calves and frequently possesses the G6 and P[5]/P[11] genotypes, whereas G8 is less common. We aimed to compare RVA infections and G/P genotypes in beef and dairy calves from major livestock regions of Argentina, elucidate the evolutionary origin of a G8 strain and analyze the G8 lineages, infer the phylogenetic relationship of RVA field strains, and investigate the evolution and spatio-temporal dynamics of the main G6 lineages in American countries. Fecal samples (n = 422) from diarrheic (beef, 104; dairy, 137) and non-diarrheic (beef, 78; dairy, 103) calves were analyzed by ELISA and semi-nested multiplex RT-PCR. Sequencing, phylogenetic, phylodynamic, and phylogeographic analyses were performed. RVA infections were more frequent in beef (22.0%) than in dairy (14.2%) calves. Prevalent genotypes and G6 lineages were G6(IV)P[5] in beef (90.9%) and G6(III)P[11] (41.2%) or mixed genotypes (23.5%) in dairy calves. The only G8 strain was phylogenetically related to bovine and artiodactyl bovine-like strains. Re-analyses inside the G8 genotype identified G8(I) to G8(VIII) lineages. Of all G6 strains characterized, the G6(IV)P[5](I) strains from "Cuenca del Salado" (Argentina) and Uruguay clustered together. According to farm location, a clustering pattern for G6(IV)P[5] strains of beef farms was observed. Both G6 lineage strains together revealed an evolutionary rate of 1.24 × 10-3 substitutions/site/year, and the time to the most recent common ancestor was dated in 1853. The most probable ancestral locations were Argentina in 1981 for G6(III) strains and the USA in 1940 for G6(IV) strains. The highest migration rates for both G6 lineages together were from Argentina to Brazil and Uruguay. Altogether, the epidemiology, genetic diversity, and phylogeny of RVA in calves can differ according to the production system and farm location. We provide novel knowledge about the evolutionary origin of a bovine G8P[11] strain. Finally, bovine G6 strains from American countries would have originated in the USA nearly a century before its first description.
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Affiliation(s)
- Enrique L. Louge Uriarte
- Instituto Nacional de Tecnología Agropecuaria, Instituto de Innovación para la Producción Agropecuaria y el Desarrollo Sostenible, Ruta 226, km 73.5, Balcarce B7620, Buenos Aires, Argentina; (M.R.L.); (A.R.M.)
| | - Alejandra Badaracco
- Instituto Nacional de Tecnología Agropecuaria, EEA Montecarlo, Av. El Libertador Nº 2472, Montecarlo CP3384, Misiones, Argentina;
| | - Maximiliano J. Spetter
- Facultad de Ciencias Veterinarias, Departamento de Fisiopatología, Centro de Investigación Veterinaria de Tandil (CIVETAN), Universidad Nacional del Centro de la Provincia de Buenos Aires, Paraje Arroyo Seco s/n, Tandil CP7000, Buenos Aires, Argentina; (M.J.S.); (J.I.A.)
| | - Samuel Miño
- Instituto Nacional de Tecnología Agropecuaria, EEA Cerro Azul, Ruta 14, km 836, Cerro Azul CP3313, Misiones, Argentina;
| | - Joaquín I. Armendano
- Facultad de Ciencias Veterinarias, Departamento de Fisiopatología, Centro de Investigación Veterinaria de Tandil (CIVETAN), Universidad Nacional del Centro de la Provincia de Buenos Aires, Paraje Arroyo Seco s/n, Tandil CP7000, Buenos Aires, Argentina; (M.J.S.); (J.I.A.)
| | - Mark Zeller
- Laboratory of Viral Metagenomics, Department of Microbiology, Immunology and Transplantation, Rega Institute, University of Leuven, Herestraat 49, 3000 Leuven, Belgium; (M.Z.); (E.H.)
| | - Elisabeth Heylen
- Laboratory of Viral Metagenomics, Department of Microbiology, Immunology and Transplantation, Rega Institute, University of Leuven, Herestraat 49, 3000 Leuven, Belgium; (M.Z.); (E.H.)
| | - Ernesto Späth
- Facultad de Ciencias Agrarias, Universidad Nacional de Mar del Plata, Ruta 226, km 73.5, Balcarce B7620, Buenos Aires, Argentina; (E.S.); (A.C.O.)
| | - María Rosa Leunda
- Instituto Nacional de Tecnología Agropecuaria, Instituto de Innovación para la Producción Agropecuaria y el Desarrollo Sostenible, Ruta 226, km 73.5, Balcarce B7620, Buenos Aires, Argentina; (M.R.L.); (A.R.M.)
| | - Ana Rita Moreira
- Instituto Nacional de Tecnología Agropecuaria, Instituto de Innovación para la Producción Agropecuaria y el Desarrollo Sostenible, Ruta 226, km 73.5, Balcarce B7620, Buenos Aires, Argentina; (M.R.L.); (A.R.M.)
| | - Jelle Matthijnssens
- Laboratory of Viral Metagenomics, Department of Microbiology, Immunology and Transplantation, Rega Institute, University of Leuven, Herestraat 49, 3000 Leuven, Belgium; (M.Z.); (E.H.)
| | - Viviana Parreño
- Instituto Nacional de Tecnología Agropecuaria, Instituto de Virología e Innovaciones Tecnológicas, Nicolas Repetto y de los Reseros s/n, Hurlingham CP1686, Buenos Aires, Argentina
| | - Anselmo C. Odeón
- Facultad de Ciencias Agrarias, Universidad Nacional de Mar del Plata, Ruta 226, km 73.5, Balcarce B7620, Buenos Aires, Argentina; (E.S.); (A.C.O.)
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Abstract
Rotaviruses are the most common viral agents associated with foal diarrhea. Between 2014 and 2017, the annual prevalence of rotavirus in diarrheic foals ranged between 18 and 28% in Haryana (India). Whole-genome sequencing of two equine rotavirus A (ERVA) isolates (RVA/Horse-wt/IND/ERV4/2017 and RVA/Horse-wt/IND/ERV6/2017) was carried out to determine the genotypic constellations (GCs) of ERVAs. The GCs of both the isolates were G3-P[3]-I8-R3-C3-M3-A9-N3-T3-E3-H6, a unique combination reported for ERVAs so far. Both the isolates carried VP6 of genotype I8, previously unreported from equines. Upon comparison with RVAs of other species, the GC of both isolates was identical to that of a bat rotavirus strain, MSLH14, isolated from China in 2012. The nucleotide sequences of the genes encoding VP3, NSP2, and NSP3 shared >95.81% identity with bat RVA strains isolated from Africa (Gabon). The genes encoding VP1, VP2, VP7, NSP1, and NSP4 shared 94.82% to 97.12% nucleotide identities with the human strains which have zoonotic links to bats (RCH272 and MS2015-1-0001). The VP6 genes of both strains were distinct and had the highest similarity of only 87.08% with that of CMH222, a human strain of bat origin. The phylogenetic analysis and lineage studies revealed that VP7 of both isolates clustered in a new lineage (lineage X) of the G3 genotype with bat, human, and alpaca strains. Similarly, VP4 clustered in a distinct P[3] lineage. These unusual findings highlight the terra incognita of the genomic diversity of equine rotaviruses and support the need for the surveillance of RVAs in animals and humans with a "one health" approach. IMPORTANCE Rotaviruses are globally prevalent diarrheal pathogens in young animals including foals, piglets, calves, goats, sheep, cats, and dogs along with humans. The genome of rotaviruses consists of 11 segments, which enables them to undergo reshuffling by reassortment of segments from multiple species during mixed infections. In this study, the prevalence of equine rotaviruses was 32.11% in organized equine farms of North India. The complete genome analysis of two ERVA isolates revealed an unusual genomic constellation, which was previously reported only in a bat RVA strain. A segment-wise phylogenetic analysis revealed that most segments of both isolates were highly similar either to bat or to bat-like human rotaviruses. The occurrence of unusual bat-like rotaviruses in equines emphasizes the need of extensive surveillance of complete genomes of both animal and human rotaviruses with a "one health" approach.
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