Epidemiological and molecular characteristics of porcine reproductive and respiratory syndrome virus in China from 2015 to 2024

Liuqing Wei , Linxing Tian , Zhengdan Lin , Shudan Liu , Chao Zhang , Xiangmin Li , Ping Qian

Animal Diseases ›› 2026, Vol. 6 ›› Issue (1) : 28

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Animal Diseases ›› 2026, Vol. 6 ›› Issue (1) :28 DOI: 10.1186/s44149-026-00243-9
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Epidemiological and molecular characteristics of porcine reproductive and respiratory syndrome virus in China from 2015 to 2024
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Abstract

The Chinese swine sector continue to face great challenges from porcine reproductive and respiratory syndrome virus (PRRSV). Analysisof 411,392 samples collected from 2015 to 2024 revealed a clear V-shaped trend in PRRSV positivity. The rate bottomed out at 3.63% in 2021 and then increased back to 7.85% by 2024. Phylogenetic analysis of 2,294 ORF5 sequences revealed a conspicuous lineage replacement event, in which sublineage 8.7 was gradually supplanted by sublineages 1.8 (NADC30-like) and 1.5 (NADC34-like). Notably, sublineage 1.5 became the predominant strain by 2024, accounting for 55.31% of the sequences. Whole genome sequencing of 48 isolates revealed incongruent phylogenetic relationships between the non-structural protein 2 (NSP2) and ORF5/whole-genome markers. We identified sublineage-specific deletions within NSP2, point mutations in GP5, and multiple recombination events. These recombination events occurred between the NADC30-like strains and either the VR-2332 or the JXA1 strains. Consequently, sublineages 1.8 and 1.5 have replaced sublineage 8.7 to be the dominant PRRSV strains in China, with intersublineage recombination driving the genetic complexity of PRRSV evolution.

Keywords

PRRSV / Sublineage 1.8 / Sublineage 1.5 / GP5 mutations / NSP2 deletions / Recombination events

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Liuqing Wei, Linxing Tian, Zhengdan Lin, Shudan Liu, Chao Zhang, Xiangmin Li, Ping Qian. Epidemiological and molecular characteristics of porcine reproductive and respiratory syndrome virus in China from 2015 to 2024. Animal Diseases, 2026, 6 (1) : 28 DOI:10.1186/s44149-026-00243-9

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References

[1]

An TQ, Zhou YJ, Liu GQ, Tian ZJ, Li J, Qiu HJ, Tong GZ. Genetic diversity and phylogenetic analysis of glycoprotein 5 of PRRSV isolates in mainland China from 1996 to 2006: Coexistence of two NA-subgenotypes with great diversity. Veterinary Microbiology, 2007, 123(1–3): 43-52.

[2]

Andreyev VG, Wesley RD, Mengeling WL, Vorwald AC, Lager KM. Genetic variation and phylogenetic relationships of 22 porcine reproductive and respiratory syndrome virus (PRRSV) field strains based on sequence analysis of open reading frame 5. Archives of Virology, 1997, 142(5): 993-1001.

[3]

Beerens N, Selisko B, Ricagno S, Imbert I, van der Zanden L, Snijder EJ, Canard B. De novo initiation of RNA synthesis by the arterivirus RNA-dependent RNA polymerase. Journal of Virology, 2007, 81(16): 8384-8395.

[4]

Benfield DA, Nelson E, Collins JE, Harris L, Goyal SM, Robison D, Christianson WT, Morrison RB, Gorcyca D, Chladek D. Characterization of swine infertility and respiratory syndrome (SIRS) virus (isolate ATCC VR-2332). Journal of Veterinary Diagnostic Investigation: Official Publication of the American Association of Veterinary Laboratory Diagnosticians, Inc., 1992, 4(2): 127-133.

[5]

Brinton, M. A., A. A. Gulyaeva, U. B. R. Balasuriya, M. Dunowska, K. S. Faaberg, T. Goldberg, F. C. C. Leung, H. J. Nauwynck, E. J. Snijder, T. Stadejek et al. 2021. ICTV virus taxonomy profile: Arteriviridae 2021, J Gen Virol, 102 (8). https://doi.org/10.1099/jgv.0.001632

[6]

Cha SH, Choi EJ, Park JH, Yoon SR, Song JY, Kwon JH, Song HJ, Yoon KJ. Molecular characterization of recent Korean porcine reproductive and respiratory syndrome (PRRS) viruses and comparison to other Asian PRRS viruses. Veterinary Microbiology, 2006, 117(2-4): 248-257.

[7]

Du Y, Chen J, Ren T, Xie C, Zhang Y, Fang L, Zhou Y. Etiological detection, isolation, and pathogenicity of Porcine Reproductive and Respiratory Syndrome Virus in China. Veterinary Sciences, 2025.

[8]

Fang Y, Kim DY, Ropp S, Steen P, Christopher-Hennings J, Nelson EA, Rowland RR. Heterogeneity in Nsp2 of European-like porcine reproductive and respiratory syndrome viruses isolated in the United States. Virus Research, 2004, 100(2): 229-235.

[9]

Firth AE, Zevenhoven-Dobbe JC, Wills NM, Go YY, Balasuriya UBR, Atkins JF, Snijder EJ, Posthuma CC. Discovery of a small arterivirus gene that overlaps the GP5 coding sequence and is important for virus production. Journal of General Virology, 2011, 92(Pt 5): 1097-1106.

[10]

Gao JC, Xiong JY, Ye C, Chang XB, Guo JC, Jiang CG, Zhang GH, Tian ZJ, Cai XH, Tong GZ, An TQ. Genotypic and geographical distribution of porcine reproductive and respiratory syndrome viruses in mainland China in 1996-2016. Veterinary Microbiology, 2017, 208: 164-172.

[11]

Goldberg TL, Hahn EC, Weigel RM, Scherba G. Genetic, geographical and temporal variation of porcine reproductive and respiratory syndrome virus in Illinois. Journal of General Virology, 2000, 81(Pt 1): 171-179.

[12]

Gonin P, Pirzadeh B, Gagnon CA, Dea S. Seroneutralization of porcine reproductive and respiratory syndrome virus correlates with antibody response to the GP5 major envelope glycoprotein. Journal of Veterinary Diagnostic Investigation: Official Publication of the American Association of Veterinary Laboratory Diagnosticians, Inc., 1999, 11(1): 20-26.

[13]

Guo Z, Chen XX, Li R, Qiao S, Zhang G. The prevalent status and genetic diversity of porcine reproductive and respiratory syndrome virus in China: A molecular epidemiological perspective. Virology Journal, 2018, 15(1): 2.

[14]

Han J, Rutherford MS, Faaberg KS. Proteolytic products of the porcine reproductive and respiratory syndrome virus nsp2 replicase protein. Journal of Virology, 2010, 84(19): 10102-10112.

[15]

Johnson CR, Griggs TF, Gnanandarajah J, Murtaugh MP. Novel structural protein in porcine reproductive and respiratory syndrome virus encoded by an alternative ORF5 present in all arteriviruses. Journal of General Virology, 2011, 92(Pt 5): 1107-1116.

[16]

Kappes MA, Faaberg KS. PRRSV structure, replication and recombination: Origin of phenotype and genotype diversity. Virology, 2015, 479-480: 475-486.

[17]

Kapur V, Elam MR, Pawlovich TM, Murtaugh MP. Genetic variation in porcine reproductive and respiratory syndrome virus isolates in the midwestern United States. Journal of General Virology, 1996, 77(Pt 6): 1271-1276.

[18]

Key KF, Haqshenas G, Guenette DK, Swenson SL, Toth TE, Meng XJ. Genetic variation and phylogenetic analyses of the ORF5 gene of acute porcine reproductive and respiratory syndrome virus isolates. Veterinary Microbiology, 2001, 83(3): 249-263.

[19]

Kikuti M, Paploski IAD, Pamornchainavakul N, Picasso-Risso C, Schwartz M, Yeske P, Leuwerke B, Bruner L, Murray D, Roggow BD, Thomas P, Feldmann L, Allerson M, Hensch M, Bauman T, Sexton B, Rovira A, VanderWaal K, Corzo CA. Emergence of a new Lineage 1C variant of Porcine Reproductive and Respiratory Syndrome Virus 2 in the United States. Frontiers in Veterinary Science, 2021, 8. ArticleID: 752938

[20]

Kim DY, Kaiser TJ, Horlen K, Keith ML, Taylor LP, Jolie R, Calvert JG, Rowland RR. Insertion and deletion in a nonessential region of the nonstructural protein 2 (nsp2) of porcine reproductive and respiratory syndrome (PRRS) virus: Effects on virulence and immunogenicity. Virus Genes, 2009, 38(1): 118-128.

[21]

Kwon B, Ansari IH, Pattnaik AK, Osorio FA. Identification of virulence determinants of porcine reproductive and respiratory syndrome virus through construction of chimeric clones. Virology, 2008, 380(2): 371-378.

[22]

Lee MA, Jayaramaiah U, You SH, Shin EG, Song SM, Ju L, Kang SJ, Hyun BH, Lee HS. Molecular characterization of Porcine Reproductive and Respiratory Syndrome Virus in Korea from 2018 to 2022. Pathogens, 2023.

[23]

Leng CL, Tian ZJ, Zhang WC, Zhang HL, Zhai HY, An TQ, Peng JM, Ye C, Sun L, Wang Q, Sun Y, Li L, Zhao HY, Chang D, Cai XH, Zhang GH, Tong GZ. Characterization of two newly emerged isolates of porcine reproductive and respiratory syndrome virus from Northeast China in 2013. Veterinary Microbiology, 2014, 171(1–2): 41-52.

[24]

Leng X, Li Z, Xia M, Li X, Wang F, Wang W, Zhang X, Wu H. Mutations in the genome of the highly pathogenic porcine reproductive and respiratory syndrome virus potentially related to attenuation. Veterinary Microbiology, 2012, 157(1–2): 50-60.

[25]

Liu J, Liu C, Xu Y, Yang Y, Li J, Dai A, Huang C, Luo M, Wei C. Molecular characteristics and pathogenicity of a novel recombinant porcine reproductive and respiratory syndrome virus strain from NADC30-, NADC34-, and JXA1-like strains that emerged in China. Microbiology Spectrum, 2022, 10(6. ArticleID: e0266722

[26]

Lu WH, Tun HM, Sun BL, Mo J, Zhou QF, Deng YX, Xie QM, Bi YZ, Leung FC, Ma JY. Re-emerging of porcine respiratory and reproductive syndrome virus (lineage 3) and increased pathogenicity after genomic recombination with vaccine variant. Veterinary Microbiology, 2015, 175(2-4): 332-340.

[27]

Lunney JK, Fang Y, Ladinig A, Chen N, Li Y, Rowland B, Renukaradhya GJ. Porcine reproductive and respiratory syndrome virus (PRRSV): Pathogenesis and interaction with the immune system. Annual Review of Animal Biosciences, 2016, 4: 129-154.

[28]

Mardassi H, Mounir S, Dea S. Molecular analysis of the ORFs 3 to 7 of porcine reproductive and respiratory syndrome virus, Québec reference strain. Archives of Virology, 1995, 140(8): 1405-1418.

[29]

Meng XJ, Paul PS, Halbur PG, Morozov I. Sequence comparison of open reading frames 2 to 5 of low and high virulence United States isolates of porcine reproductive and respiratory syndrome virus. Journal of General Virology, 1995, 76(Pt 12): 3181-3188.

[30]

Meulenberg JJ. PRRSV, the virus. Veterinary Research, 2000, 31(1): 11-21.

[31]

Mokhtar H, Pedrera M, Frossard JP, Biffar L, Hammer SE, Kvisgaard LK, Larsen LE, Stewart GR, Somavarapu S, Steinbach F, Graham SP. The nonstructural protein 5 and matrix protein are antigenic targets of T-cell immunity to genotype 1 porcine reproductive and respiratory syndrome viruses. Frontiers in Immunology, 2016, 7. ArticleID: 40

[32]

Pirzadeh B, Dea S. Immune response in pigs vaccinated with plasmid DNA encoding ORF5 of porcine reproductive and respiratory syndrome virus. Journal of General Virology, 1998, 79(Pt 5): 989-999.

[33]

Sun YF, Zhou L, Bian T, Tian XX, Ren WK, Lu C, Zhang L, Li XL, Cui MS, Yang HC, Yu H. Efficacy evaluation of two commercial modified-live virus vaccines against a novel recombinant type 2 porcine reproductive and respiratory syndrome virus. Veterinary Microbiology, 2018, 216: 176-182.

[34]

Thaa B, Sinhadri BC, Tielesch C, Krause E, Veit M. Signal peptide cleavage from GP5 of PRRSV: A minor fraction of molecules retains the decoy epitope, a presumed molecular cause for viral persistence. PLoS ONE, 2013, 8(6. ArticleID: e65548

[35]

Tian K, Yu X, Zhao T, Feng Y, Cao Z, Wang C, Hu Y, Chen X, Hu D, Tian X, Liu D, Zhang S, Deng X, Ding Y, Yang L, Zhang Y, Xiao H, Qiao M, Wang B, Hou L, Wang X, Yang X, Kang L, Sun M, Jin P, Wang S, Kitamura Y, Yan J, Gao GF. Emergence of fatal PRRSV variants: Unparalleled outbreaks of atypical PRRS in China and molecular dissection of the unique hallmark. PLoS ONE, 2007, 2(6. ArticleID: e526

[36]

van Geelen AGM, Anderson TK, Lager KM, Das PB, Otis NJ, Montiel NA, Miller LC, Kulshreshtha V, Buckley AC, Brockmeier SL, Zhang J, Gauger PC, Harmon KM, Faaberg KS. Porcine reproductive and respiratory disease virus: Evolution and recombination yields distinct ORF5 RFLP 1-7-4 viruses with individual pathogenicity. Virology, 2018, 513: 168-179.

[37]

L. Wenhui, Zhongyan W, Guanqun Z, Zhili L, JingYun M, Qingmei X, Baoli S, Yingzuo B. Complete genome sequence of a novel variant porcine reproductive and respiratory syndrome virus (PRRSV) strain: Evidence for recombination between vaccine and wild-type PRRSV strains. Journal of Virology, 2012, 86(17. ArticleID: 9543

[38]

Wensvoort G, Terpstra C, Pol JM, ter Laak EA, Bloemraad M, de Kluyver EP, Kragten C, van Buiten L, den Besten A, Wagenaar F, et al.. Mystery swine disease in The Netherlands: The isolation of Lelystad virus. Veterinary Quarterly, 1991, 13(3): 121-130.

[39]

Wu Q, Li Z, Zhang G, Niu J, Zeng X, Sun B, Ma J. Genetic diversity and phylogenetic analysis of porcine reproductive and respiratory syndrome virus in southern China from 2007 to 2014. Journal of Veterinary Science, 2017, 18(3): 317-326.

[40]

Wu Y, Peng O, Xu Q, Li Q, Li W, Lin L, Zhou Q, Cai X, Hu G, He Z, Chen Y, Zhang H. Characterization and pathogenicity of two novel PRRSVs recombined by NADC30-like and NADC34-like strains in China. Viruses, 2022.

[41]

Xie S, Liang W, Wang X, Chen H, Fan J, Song W, Hua L, Tang X, Chen H, Peng Z, Wu B. Epidemiological and genetic characteristics of porcine reproduction and respiratory syndrome virus 2 in mainland China, 2017-2018. Archives of Virology, 2020, 165(7): 1621-1632.

[42]

Xu H, Li C, Li W, Zhao J, Gong B, Sun Q, Tang YD, Xiang L, Leng C, Peng J, Wang Q, Meng F, Yu Y, An T, Cai X, Tian ZJ, Zhang H. Novel characteristics of Chinese NADC34-like PRRSV during 2020–2021. Transboundary and Emerging Diseases, 2022, 69(5): e3215-e3224.

[43]

Yoshii M, Kaku Y, Murakami Y, Shimizu M, Kato K, Ikeda H. Genetic variation and geographic distribution of porcine reproductive and respiratory syndrome virus in Japan. Archives of Virology, 2005, 150(11): 2313-2324.

[44]

Yun SI, Lee YM. Overview: Replication of porcine reproductive and respiratory syndrome virus. Journal of Microbiology, 2013, 51(6): 711-723.

[45]

Zhang HL, Zhang WL, Xiang LR, Leng CL, Tian ZJ, Tang YD, Cai XH. Emergence of novel porcine reproductive and respiratory syndrome viruses (ORF5 RFLP 1-7-4 viruses) in China. Veterinary Microbiology, 2018, 222: 105-108.

[46]

Zhang W, Chen K, Guo Y, Chen Y, Liu X. Involvement of PRRSV NSP3 and NSP5 in the autophagy process. Virology Journal, 2019, 16(1): 13.

[47]

Zhao K, Gao JC, Xiong JY, Guo JC, Yang YB, Jiang CG, Tang YD, Tian ZJ, Cai XH, Tong GZ, An TQ. Two residues in NSP9 contribute to the enhanced replication and pathogenicity of highly pathogenic Porcine Reproductive and Respiratory Syndrome Virus. Journal of Virology, 2018.

[48]

Zhao K, Ye C, Chang XB, Jiang CG, Wang SJ, Cai XH, Tong GZ, Tian ZJ, Shi M, An TQ. Importation and recombination are responsible for the latest emergence of highly pathogenic porcine reproductive and respiratory syndrome virus in China. Journal of Virology, 2015, 89(20): 10712-10716.

[49]

Zhou L, Chen S, Zhang J, Zeng J, Guo X, Ge X, Zhang D, Yang H. Molecular variation analysis of porcine reproductive and respiratory syndrome virus in China. Virus Research, 2009, 145(1): 97-105.

[50]

Zhou L, Kang R, Zhang Y, Ding M, Xie B, Tian Y, Wu X, Zuo L, Yang X, Wang H. Whole genome analysis of two novel Type 2 Porcine Reproductive and Respiratory Syndrome Viruses with complex genome recombination between Lineage 8, 3, and 1 strains identified in Southwestern China. Viruses, 2018.

[51]

Zhou L, Wang Z, Ding Y, Ge X, Guo X, Yang H. NADC30-like strain of porcine reproductive and respiratory syndrome virus, China. Emerging Infectious Diseases, 2015, 21(12): 2256-2257.

[52]

Zhou L, Yang X, Tian Y, Yin S, Geng G, Ge X, Guo X, Yang H. Genetic diversity analysis of genotype 2 porcine reproductive and respiratory syndrome viruses emerging in recent years in China. BioMed Research International, 2014, 2014. ArticleID: 748068

[53]

Zhou L, Yu J, Zhou J, Long Y, Xiao L, Fan Y, Yang D, Zhang B, Zhang Z, Liu J. A novel NADC34-like porcine reproductive and respiratory syndrome virus 2 with complex genome recombination is highly pathogenic to piglets. Infection, Genetics and Evolution, 2023, 112. ArticleID: 105436

[54]

Zhu Z, Yuan L, Hu D, Lian Z, Yao X, Liu P, Li X. Isolation and genomic characterization of a Chinese NADC34-like PRRSV isolated from Jiangsu province. Transboundary and Emerging Diseases, 2022, 69(4): e1015-e1027.

Funding

National Key R&D of China(2024YFD1800505)

National Key Laboratory of Agricultural Microbiology(AML2023B11)

Hubei Province Jiangxia Laboratory Open Project(2025JXKF006)

Guangxi Yangxiang Co., LTD.(YXNM-R&D2023-08)

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