Co-circulation and Evolution of Genogroups I and II of Respiratory and Enteric Feline Calicivirus Isolates in Cats

Overview

Journal Transbound Emerg Dis

Specialty Veterinary Medicine

Date 2022 Jan 4

PMID 34982847

Citations 7

Authors

Jinfan Guo

Yangbao Ding

Fanyuan Sun

Huabo Zhou

Ping He

Jiancai Chen

Jianing Guo

Hao Zeng

Jianming Long

Zuzhang Wei

Kang Ouyang

Weijian Huang

Ying Chen

Affiliations

Soon will be listed here.

Abstract

Feline calicivirus (FCV) is a highly infectious pathogen that causes upper respiratory tract disease (URTD), but the enteric FCVs raise concerns regarding their role of an enteric pathogen. In this study, between 2019 and 2020, 101 clinical samples from domestic cats with symptoms of URTD, with or without enteritis, were collected for FCV-specific detection. The FCV-positive rate reached to 42.4% (28/66) in cats with respiratory symptoms. The rates were 11.1% (3/27) and 12.5% (1/8) when faeces and serum samples were measured using reverse transcription polymerase chain reaction (RT-PCR), respectively. Ten FCV strains were successfully isolated from respiratory and enteric sources in domestic cats from Guangxi. Phylogenetic analysis based on the genome sequences of 11 isolates (including GX01-13 isolated in 2013) indicated that the newly characterized FCV strains had two recombinant events in comparison with other FCVs and were of respiratory and enteric origins. These strains displayed high genetic diversity, and they were divided into two genogroups (I and II). Of these, the GXNN02-19 isolate was grouped with previously published Chinese isolates that were identified as genogroup II, which contained three specific amino acid residues (377K, 539V and 557S) in the VP1 protein. In addition, the three enteric viruses appeared genetically heterogeneous to each other. All isolates were found to be more sensitive when exposed to low pH conditions, but they were resistant to treatment with trypsin and bile salts. Furthermore, there were no significant differences between the respiratory and enteric FCVs. Our results showed that the genetically distinct FCV strains with genogroups I and II from respiratory and enteric origins were co-circulating in this geographical area. Also, it was revealed that the potential recombinant events between the enteric and respiratory FCVs suggested an important role of enteric FCV during the evolution.

Citing Articles

Identification and genomic characterization of feline calicivirus from a leopard cat (Prionailurus bengalensis) in Taiwan.

Chen L, Chen Y, Lee F, Hsu W, Ou S J Vet Med Sci. 2024; 86(6):660-664.

PMID: 38644183 PMC: 11187598. DOI: 10.1292/jvms.23-0522.

Molecular epidemiology and phylogenetic analysis of feline calicivirus in Kunshan, China.

Kim S, Cheng Y, Fang Z, Liu X, Zhongqi Q, Weidong Y Virol J. 2024; 21(1):50.

PMID: 38414028 PMC: 10900597. DOI: 10.1186/s12985-024-02319-9.

Biological Characteristics of Feline Calicivirus Epidemic Strains in China and Screening of Broad-Spectrum Protective Vaccine Strains.

Cao L, Liu J, Li Y, Xie D, Yan Q, Li Q Vaccines (Basel). 2023; 11(12).

PMID: 38140261 PMC: 10747013. DOI: 10.3390/vaccines11121858.

Classification of genotypes based on the VP1 gene of feline calicivirus and study of cross-protection between different genotypes.

Yang Y, Liu Z, Chen M, Feng K, Qi R, Zheng Y Front Microbiol. 2023; 14:1226877.

PMID: 37614595 PMC: 10442547. DOI: 10.3389/fmicb.2023.1226877.

Molecular Characterization and Phylogenetic Analysis of Feline Calicivirus Isolated in Guangdong Province, China from 2018 to 2022.

Mao J, Ye S, Li Q, Bai Y, Wu J, Xu L Viruses. 2022; 14(11).

PMID: 36366519 PMC: 9696216. DOI: 10.3390/v14112421.

References

Radford A, Turner P, Bennett M, McArdle F, Dawson S, Glenn M . Quasispecies evolution of a hypervariable region of the feline calicivirus capsid gene in cell culture and in persistently infected cats. J Gen Virol. 1998; 79 ( Pt 1):1-10. DOI: 10.1099/0022-1317-79-1-1. View

Takehisa H, Sato Y, Antonio B, Nagamura Y . Coexpression Network Analysis of Macronutrient Deficiency Response Genes in Rice. Rice (N Y). 2015; 8(1):59. PMC: 4513034. DOI: 10.1186/s12284-015-0059-0. View

Bhella D, Goodfellow I . The cryo-electron microscopy structure of feline calicivirus bound to junctional adhesion molecule A at 9-angstrom resolution reveals receptor-induced flexibility and two distinct conformational changes in the capsid protein VP1. J Virol. 2011; 85(21):11381-90. PMC: 3194967. DOI: 10.1128/JVI.05621-11. View

Bordicchia M, Fumian T, Van Brussel K, Russo A, Carrai M, Le S . Feline Calicivirus Virulent Systemic Disease: Clinical Epidemiology, Analysis of Viral Isolates and In Vitro Efficacy of Novel Antivirals in Australian Outbreaks. Viruses. 2021; 13(10). PMC: 8537534. DOI: 10.3390/v13102040. View

Sosnovtsev S, Belliot G, Chang K, Onwudiwe O, Green K . Feline calicivirus VP2 is essential for the production of infectious virions. J Virol. 2005; 79(7):4012-24. PMC: 1061574. DOI: 10.1128/JVI.79.7.4012-4024.2005. View

Seal B, Ridpath J, Mengeling W . Analysis of feline calicivirus capsid protein genes: identification of variable antigenic determinant regions of the protein. J Gen Virol. 1993; 74 ( Pt 11):2519-24. DOI: 10.1099/0022-1317-74-11-2519. View

FASTIER L . A new feline virus isolated in tissue culture. Am J Vet Res. 1957; 18(67):382-9. View

Geissler K, Schneider K, Truyen U . Mapping neutralizing and non-neutralizing epitopes on the capsid protein of feline calicivirus. J Vet Med B Infect Dis Vet Public Health. 2002; 49(1):55-60. DOI: 10.1046/j.1439-0450.2002.00529.x. View

Bhella D, Gatherer D, Chaudhry Y, Pink R, Goodfellow I . Structural insights into calicivirus attachment and uncoating. J Virol. 2008; 82(16):8051-8. PMC: 2519574. DOI: 10.1128/JVI.00550-08. View

10.

Radford A, Coyne K, Dawson S, Porter C, Gaskell R . Feline calicivirus. Vet Res. 2007; 38(2):319-35. DOI: 10.1051/vetres:2006056. View

11.

Di Martino B, Lanave G, Di Profio F, Melegari I, Marsilio F, Camero M . Identification of feline calicivirus in cats with enteritis. Transbound Emerg Dis. 2020; 67(6):2579-2588. DOI: 10.1111/tbed.13605. View

12.

Coyne K, Reed F, Porter C, Dawson S, Gaskell R, Radford A . Recombination of Feline calicivirus within an endemically infected cat colony. J Gen Virol. 2006; 87(Pt 4):921-926. DOI: 10.1099/vir.0.81537-0. View

13.

Tian J, Liu D, Liu Y, Wu H, Jiang Y, Zu S . Molecular characterization of a feline calicivirus isolated from tiger and its pathogenesis in cats. Vet Microbiol. 2016; 192:110-117. DOI: 10.1016/j.vetmic.2016.07.005. View

14.

Tohya Y, Shinchi H, Matsuura Y, Maeda K, Ishiguro S, Mochizuki M . Analysis of the N-terminal polypeptide of the capsid precursor protein and the ORF3 product of feline calicivirus. J Vet Med Sci. 1999; 61(9):1043-7. DOI: 10.1292/jvms.61.1043. View

15.

Radford A, Bennett M, McArdle F, Dawson S, Turner P, Glenn M . The use of sequence analysis of a feline calicivirus (FCV) hypervariable region in the epidemiological investigation of FCV related disease and vaccine failures. Vaccine. 1997; 15(12-13):1451-8. DOI: 10.1016/s0264-410x(97)00059-5. View

16.

Carter M . Feline calicivirus protein synthesis investigated by western blotting. Arch Virol. 1989; 108(1-2):69-79. PMC: 7087142. DOI: 10.1007/BF01313744. View

17.

Mochizuki M . Different stabilities to bile among feline calicivirus strains of respiratory and enteric origin. Vet Microbiol. 1992; 31(2-3):297-302. PMC: 7117280. DOI: 10.1016/0378-1135(92)90087-a. View

18.

Zhou L, Fu N, Ding L, Li Y, Huang J, Sha X . Molecular Characterization and Cross-Reactivity of Feline Calicivirus Circulating in Southwestern China. Viruses. 2021; 13(9). PMC: 8473038. DOI: 10.3390/v13091812. View

19.

Zhao Y, Chen X, Ying Y, Wang K, Dong H, Gao C . Isolation and phylogenetic analysis of three feline calicivirus strains from domestic cats in Jilin Province, China. Arch Virol. 2017; 162(9):2579-2589. DOI: 10.1007/s00705-017-3392-3. View

20.

Guo H, Miao Q, Zhu J, Yang Z, Liu G . Isolation and molecular characterization of a virulent systemic feline calicivirus isolated in China. Infect Genet Evol. 2018; 65:425-429. DOI: 10.1016/j.meegid.2018.08.029. View