Immunoelectron microscopic comparisons of caliciviruses

Using immunoelectron microscopy, 9 serotypes of vesicular exanthema of swine virus (VESV) were compared with 5 serotypes of San Miguel sea lion virus and 7 additional calicivirus isolates from marine animals. In addition, swine caliciviruses and marine caliciviruses were compared with the vaccinal strain of feline calicivirus (FCV) F-9. Of 9 VESV types, 8 showed common antigenicity with San Miguel sea lion virus. Of 9 VESV types, 2 showed common antigenicity with FCV F-9. All 12 marine caliciviruses showed common antigenicity with VESV, but not with FCV F-9.     

猎豹与虎猫杯状病毒的分离及其超变区基因比较研究

用F81细胞从上海某动物园患口腔溃疡的猎豹和虎的唾液病料中分离获得两株杯状病毒，经形态学、理化学、生物学鉴定和病毒核酸超变区基因RT-PCR扩增与序列测定证明两株病毒均为猫杯状病毒(FCV)，分别命名为FCV/cheetah/Shanghai/02/2002与FCV／tiger/Shanghai／03/2002。人工感染猫可引起体温升高，口腔溃疡，食欲下降等症状。两株病毒的超变区序列520bp长片段问的同源性为99.2％，与国内桂林虎分离株(TFCV9710)的同源性为74．0％，与国外分离株的总体同源性为58．1％，说明不同宿主或同种不同个体间杯状病毒分离株超变区核酸差异十分显著，符合猫杯状病毒的分子生物学特征。     

Antigenic change in feline calicivirus during persistent infection.

To determine if antigenic variation occurred during persistent infection of cats with feline caliciviruses (FCV), nine persistent (progeny) isolates from nine different carrier cats were compared antigenically to the original infecting parent strain, FCV 255, by two-way cross-neutralization tests with rabbit antisera. Five of the nine progeny viruses isolated 35 to 169 days after initial infection were antigenically different from the parent strain. These five isolates represented four distinct antigenic phenotypes. The emergence of four distinctly different antigenic variants from a single parent strain indicates that FCV, like many other RNA viruses, exhibits considerable antigenic heterogeneity during replication in its natural host, and supports the hypothesis that antigenic variation contributes to chronic FCV infection.     

Feline calicivirus VP2 is involved in the self-assembly of the capsid protein into virus-like particles

Feline calicivirus (FCV) is considered the most common upper respiratory tract disease (URTD) associated pathogen in cats. We previously expressed FCV VP1 capsid protein in insect cells by baculovirus system and we observed that this protein self-assemble into virus-like particles (VLPs) different in size and lacking the typical cup-like depressions of caliciviruses. In the present study, VP1 and the small basic structural protein VP2 of FCV were individually expressed by baculovirus system. Coinfection of insect cells with both recombinant viruses resulted in VP1 and VP2 self-assembly to form depressions similar to native capsids in size and appearance, demonstrating that VP2 interacts with the VP1 protein in the formation of VLPs.     

Genetic analysis of the RNA polymerase gene of caliciviruses from dogs and cats.

Caliciviruses that infect animals including humans cause a specific disease syndrome in their respective hosts. Feline calicivirus (FCV) is a major pathogen of respiratory disease of cats, and human caliciviru is a causative agent of diarrhea. It has been suggested, furthermore, that FCV and newly recognized canine calicivirus (CaCV) may also be possible causes of diarrhea in these animal species. In this study nucleotide sequence of the RNA polymerase gene of two caliciviruses of canine origin, namely CaCV strain No. 48 and FCV-like strain Sapporo/283, and a number of FCV strains of respiratory and enteric origins was examined. The length of sequenced region, from the 5'LKDEL motif through the 3'YGDD motif of the gene, was 555 bp for CaCV No. 48 strain and 552 bp for the other FCV strains including Sapporo/283 strain. In phylogenetic analysis, CaCV No. 48 strain grouped as a distinct branch sharing ancestral roots with San Miguel sea lion virus, and FCVs formed one compact group in which Sapporo/283 strain was included.     

Long-term analysis of feline calicivirus prevalence and viral shedding patterns in naturally infected colonies of domestic cats

Feline calicivirus (FCV) is a highly infectious respiratory pathogen of domestic cats. The prevalence of FCV in the general cat population is high, particularly in multi-cat households, largely because many clinically recovered cats remain persistently infected carriers. In order to assess how FCV circulates in such groups and to assess the contribution that each individual animal makes to the epidemiology of the disease, we have carried out the first detailed analysis of long-term shedding patterns of FCV in individual cats within naturally infected colonies. The prevalence of FCV in each of the groups on individual sampling occasions ranged from 0% to 91%, with averages for the individual colonies ranging from 6% to 75%. Within each of the colonies, one to three distinct strains of FCV were identified. Individual cats showed a spectrum of FCV shedding patterns over the sampling period which broadly grouped into three categories: those that shed virus relatively consistently, those that shed virus intermittently, and those that appeared never to shed virus. This is the first report identifying non-shedder cats that appear resistant to FCV infection over long periods of time, despite being continually exposed to virus. Such resistance appeared to be age related, which may have been immune-mediated, although by analogy with other caliciviruses, factors such as host genetic resistance may play a role. Given that a proportion of the population appears to be resistant to infection, clearly the cohort of cats that consistently shed virus are likely to provide an important mechanism whereby infection can be maintained in small populations.     

Nucleotide sequence of UK and Australian isolates of feline calicivirus (FCV) and phylogenetic analysis of FCVs.

We have determined the first complete genome sequence and capsid gene sequences of feline calicivirus (FCV) isolates from the UK and Australia. These were compared with other previously published sequences. The viruses used in the comparisons were isolated between 1957 and 1995 from various geographical locations and obtained from cats showing a range of clinical signs. Despite these diverse origins, comparisons between all strains showed a similar degree of sequence variation within both ORF1 (non-structural polyprotein) and ORF2 (major capsid protein) (amino acid distances of 7.7-13.0% and 8.8-18.6%, respectively). In contrast, ORF3 (putative minor structural protein) sequences indicated a more heterogenous distribution of FCV relatedness (amino acid distances of 1.9-17.9%). Phylogenetic analysis suggested that, unlike some other caliciviruses, FCV isolates within the current data set fall into one diverse genogroup. Within this group, there was an overall lack of geographic or temporal clustering which may be related to the epidemiology of FCV infection in cats. Analysis of regions of variability in the genome has shown that, as well as the previously identified variable regions in ORF2, similar domains exist within ORFs 1 and 3 also, although to a lesser extent. In ORF1, these variable domains largely fall between the putative non-structural protein functional domains.     

猫杯状病毒分子生物学特征及研究进展

猫杯状病毒（Feline calicivirus,FCV）是在猫科动物中高度流行的重要病原体,能够引起猫科动物急性口腔溃疡、上呼吸道传染病和慢性胃肠炎等疾病。目前研究证明疫苗免疫可有效减少该病的发生。此外,已开展FCV反向遗传操作系统的研究,并成功表达外源基因,为进一步研究特定蛋白的结构和功能、病毒致病机理、构建杯状病毒嵌合载体疫苗打下了基础。本文从FCV的病原及生物学特性、基因组结构及其编码产物、致病机理、流行病学及疫病的防治等方面进行综合阐述。     

Analysis of the capsid protein gene of a feline-like calicivirus isolated from a dog

The authors report the sequence analysis of the capsid protein-encoding gene (ORF2) of a calicivirus strain recently isolated in Italy from a pup with enteritis. Sequence comparison and phylogenetic analysis revealed that the isolate is highly similar to field and reference feline caliciviruses (FCVs). The isolation of a feline-like calicivirus and the results of recent serological investigations suggest that FCV infection frequently occurs in dogs, but the consequences of this interspecies infection in the canine host are still unknown.     

Assembly of feline calicivirus-like particle and its immunogenicity

Virus-like particles (VLPs) were produced in insect cells infected with a recombinant baculovirus containing the capsid gene of feline calicivirus strain F9 (FCV-F9). The FCV VLPs were morphologically and antigenically similar to the native virus and contained a single capsid protein with a molecular weight of approximately 60 kDa that reacted with FCV antiserum. Moreover, following immunization of rabbits, VLPs were able to elicit neutralizing antibodies against several FCV strains isolated from clinical samples. Our preliminary results showed that FCV-VLP could be considered a candidate vaccine against FCV infections.     

Genetic characterization of 2 novel feline caliciviruses isolated from cats with idiopathic lower urinary tract disease

Feline caliciviruses (FCVs) are potential etiologic agents in feline idiopathic lower urinary tract disease (I-LUTD). By means of a modified virus isolation method, we examined urine obtained from 28 male and female cats with nonobstructive I-LUTD, 12 male cats with obstructive I-LUTD, and 18 clinically healthy male and female cats. All cats had been routinely vaccinated for FCV. Two FCVs were isolated; I (FCV-U1) from a female cat with nonobstructive I-LUTD, and another (FCV-U2) from a male cat with obstructive I-LUTD. To determine the genetic relationship of FCV-U1 and FCV-U2 to other FCVs. capsid protein gene RNA was reverse transcribed into cDNA, amplified, and sequenced. Multiple amino acid sequence alignments and phylogenetic trees were constructed for the entire capsid protein, hypervariable region E, and the more conserved (nonhypervariable) regions A, B, D, and F. When compared to 23 other FCV isolates with known biotypes, the overall amino acid sequence identity of the capsid protein of FCV-U1 and FCV-U2 ranged from 83 to 96%; identity of hypervariable regions C and E ranged from 58 to 85%. Phylogenetically, FCV-U1 clearly separated from other FCV strains in phenograms based on nonhypervariable regions. In contrast, FCV-U2 consistently segregated with the Urbana strain in all phenograms. Clustering of isolates by geographic origin was most apparent in phenograms based on nonhypervariable regions. No clustering of isolates by biotype was apparent in any phenograms. Our results indicate that FCV-UI and FCV-U2 are genetically distinct from other known vaccine and field strains of FCV.     

Immunisation with a combination of two complementary feline calicivirus strains induces a broad cross-protection against heterologous challenges

Feline calicivirus (FCV) is characterised by a high degree of antigenic variation potentially compromising vaccine efficacy. Inclusion of several FCV strains or antigens in current vaccines could be a means to improve protection against antigenically distinct isolates. This study evaluated the synergy between two FCV strains (FCVG1 and FCV431) by comparing immunity induced by either strain with that provided by a combination of the two strains against an heterologous challenge with antigenically distant FCV strains (FCV393 and FCV220). Thirty-two SPF kittens were randomly allocated to four groups of eight cats in each group. Groups B, C and D cats were vaccinated once subcutaneously with strains FCVG1, FCV431, and FCVG1 + FCV431, respectively. Each kitten received a total dose of 10(3.4) CCID50 of FCV. Control group A was not immunised. On day 31, four cats from each group were challenged oronasally with FCV220 and four cats with FCV393. Following challenge, the cats were monitored for clinical signs, viral shedding and antibody responses. FCV220 and FCV393 induced severe clinical signs in control cats typical of FCV infection. Immunisation with both strains mixed together induced higher neutralizing antibody titres against FCV220 and FCV393 strains on average. Protection was observed in all groups, however combination of the two strains resulted in a better clinical protection and reduction of virus shedding after heterologous challenge. A moderate correlation was observed between neutralizing antibody titres at the time of challenge and protection against clinical signs. These results indicated that vaccines combining antigens from different FCV strains may induce a broader heterologous protection.     

猫杯状病毒分离株VP1基因序列与致病性分析

旨在了解上海地区猫杯状病毒(feline calicivirus, FCV)VP1基因与致病性,采用常规方法分离鉴定出13株FCV,经RT-PCR和测序获得分离株VP1的基因序列,与参考株VP1基因进行同源性和遗传演化分析,对2株分离株进行动物致病性试验。结果显示,13株上海地区分离株VP1基因核苷酸序列相互间相似性为74.3%～99.8%,与参考株核苷酸序列和氨基酸序列相似性也较低,符合FCV易突变的特征;进化树分析表明,上海地区FCV流行株主要来自国内北方地区,少数毒株来自国外地区;通过对宿主临床症状、VP1进化树和VS-FCV特征性氨基酸位点进行分析,筛选出7株FCV强毒株;动物致病性试结果验表明,FCV-SH202101株和FCV-SH202113株可导致感染猫发病和死亡,潜伏期为1～2 d,接种后第3天即可检测到排毒,不同年龄段猫的病程不一致,可导致幼猫5 d后死亡,成年猫病程可持续11～18 d, 2株分离株在致病性方面均符合VS-FCV特征。本研究丰富了中国FCV的分子流行病学资料,为VS-FCV毒株的筛选提供了有力的证据,也为FCV疫苗的研究提供了技术支持。     

Caliciviruses: an overview.

Several caliciviruses are known to cause diseases in animal and man. Amongst them are vesicular exanthema virus of swine (VESV), feline calicivirus, rabbit hemorrhagic disease virus (RHDV), and Norwalk and Sapporo-like viruses; the latter viruses cause gastroenteritis in man. In this paper, an overview of caliciviruses is presented, with particular emphasis on the molecular aspects. The unique properties as compared to other related families of positive-stranded RNA viruses will be discussed. Many findings about the molecular biology of caliciviruses came from systems that are difficult to work with, such as RHDV, which can thus far only be propagated either in animals or in primary rabbit hepatocyte cultures. Therefore, the review will concentrate on RHDV.     

杯状病毒受体研究进展

杯状病毒科(Caliciviridae)的病毒是一类多样性的病毒,具有广泛的宿主和组织趋向性。对于其受体的研究,近年来取得了一定的进展。鉴定的受体分子主要集中于两类,一类是碳水化合物,包括组织血型抗原(HBGAs)、唾液酸和硫酸乙酰肝素;另一类是细胞蛋白,如连接黏附分子-A(JAM-A),一种分子质量为105 ku的膜蛋白等。此外,病毒与宿主受体相互识别的分子机制也取得了进展,这些研究对于深入了解病毒与宿主间的相互关系及有针对性地进行抗病毒药物、疫苗的研制具有重大意义。     

Carrier-state infection of feline T-lymphoblastoid cells with feline calicivirus

The susceptibility of feline T lymphocytes to feline calicivirus (FCV) in vitro was investigated using feline T-lymphoblastoid cell lines, namely MYA-1 and FL74 cells. The virus titers of supernatants in FCV-infected MYA-1 and FL74 cell cultures increased rapidly, and FCV antigens were also detected in the FCV-infected cells. There were slight differences in the molecular weights of capsid proteins expressed in FCV-infected MYA-1, FL74 and Crandell feline kidney cells. MYA-1 and FL74 cells were productively and persistently infected with FCV, and FCV antigens were observed in the FCV-infected cells for more than one month. At 3 months post infection, FCV-infected FL74 cells that stopped producing infectious FCV could be reinfected with FCV. However, no cytopathic effects were observed.     

猫杯状病毒基因组结构与结构蛋白功能研究进展

猫杯状病毒是一种引起猫的急性口腔溃疡、上呼吸道传染病和慢性胃肠炎等病的重要病原。近年来，随着对其研究的不断深入，在病毒分子生物学方面取得了很大的进展。本文主要从基因组结构、编码的结构蛋白功能、基因疫苗等方面系统阐述了猫杯状病毒的研究进展，同时提出了存在的问题和展望。为进一步研制猫杯状病毒基因工程疫苗及诊断试剂提供理论基础，以期能更有效地防治此病。     

The survival of some air-borne animal viruses in relation to relative humidity

The influence of relative humidity (R.H.) on the survival of the following viruses has been examined; feline herpesvirus (FHV); feline calicivirus (FCV); vesicular exanthema virus (VEV); infectious bovine rhinotracheitis virus (IBRV); parainfluenza 3 virus (PI-3 virus); vesicular stomatitis virus (VSV); equine herpesvirus type 1 (EHV-1), equine arteritis virus (EAV); equine rhinovirus (ERV-1), and African swine fever virus (ASFV). ASFV and PI-3 viruses survived well at all relative humidities when sampled 1 s after formation of an aerosol, but after storage of aerosols for 5 min both viruses were found to be sensitive to high R.H. The other lipid-containing viruses (EAV, VSV, FHV, EHV-1 and IBRV) were unstable when stored as aerosols in moist conditions. The picornavirus ERV-1 was the only virus which survived well at high R.H. but poorly on exposure to dry conditions. The caliciviruses VEV and FCV were sensitive to R.H. in the 30–70% range. When subjected to aeration, all of the lipid-containing viruses which were examined lost infectivity but non-lipid viruses, including bovine adenovirus type 1 (BAdV-1), were stable. The addition of 0.1% peptone reduced losses, probably by protecting against surface inactivation. The significance of these findings in relation to possible control measures for viral respiratory disease is discussed.     

Prevalence of feline calicivirus and the distribution of serum neutralizing antibody against isolate strains in cats of Hangzhou,China

BackgroundFeline calicivirus (FCV) is a common pathogen of felids, and FCV vaccination is regularly practiced. The genetic variability and antigenic diversity of FCV hinder the effective control and prevention of infection by vaccination. Improved knowledge of the epidemiological characteristics of FCV should assist in the development of more effective vaccines.ObjectivesThis study aims to determine the prevalence of FCV in a population of cats with FCV-suspected clinical signs in Hangzhou and to demonstrate the antigenic and genetic relationships between vaccine status and representative isolated FCV strains.MethodsCats (n = 516) from Hangzhou were investigated between 2018 and 2020. The association between risk factors and FCV infection was assessed. Phylogenetic analyses based on a capsid coding sequence were performed to identify the genetic relationships between strains. In vitro virus neutralization tests were used to assess antibody levels against isolated FCV strains in client-owned cats.ResultsThe FCV-positive rate of the examined cats was 43.0%. Risk factors significantly associated with FCV infection were vaccination status and oral symptoms. Phylogenetic analysis revealed a radial phylogeny with no evidence of temporal or countrywide clusters. There was a significant difference in the distribution of serum antibody titers between vaccinated and unvaccinated cats.ConclusionsThis study revealed a high prevalence and genetic diversity of FCV in Hangzhou. The results indicate that the efficacy of FCV vaccination is unsatisfactory. More comprehensive and refined vaccination protocols are an urgent and unmet need.