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1.
Sato Y Ohe K Murakami M Fukuyama M Furuhata K Kishikawa S Suzuki Y Kiuchi A Hara M Ishikawa Y Taneno A 《Veterinary research communications》2002,26(3):205-219
The molecular epidemiology of the infectious disease caused by feline calcivirus (FCV) in Japan was investigated by analysing the phylogenetic relationship among 21 Japanese field isolates, including the F4 strain, and 30 global isolates. Parts of the capsid gene (B–F) of the isolates were amplified by RT-PCR, and the amino acid sequences were compared with those from the global isolates. Thirty-seven and 14 out of a total of 51 isolates were clustered into two distinct genogroups, I and II respectively, by UPGMA and NJ analysis. Seven of the 21 Japanese isolates (33%) fell into group I together with 30 global isolates, while the other 14 Japanese isolates (67%) belonged to group II. The bootstrap repetition analysis of groups I and II formed by the NJ method gave a value of 99.0%. The 14 latter Japanese isolates were clearly separated from the isolates in group I, and they were different from any previously known FCV, forming a new genogroup, which implies that this lineage has been confined to Japan. Comparing the amino acid sequences shared by groups I and II, the amino acid at position 377 in B region was asparagine (Asn or Asp (NH2)) in group I, while it was lysine (Lys) in all the strains in group II. Similarly, the amino acid at position 539 in the F region was alanine (Ala) or proline (Pro) in group I, while it was valine (Val) in group II; glycine (Gly) at position 557 in group I was serine (Ser) in Group II; and phenylalanine (Phe) or leucine (Leu) at position 566 in genogroup I was tyrosine (Tyr) in group II. 相似文献
2.
Ohe K Sakai S Sunaga F Murakami M Kiuchi A Fukuyama M Furuhata K Hara M Soma T Ishikawa Y Taneno A 《Veterinary research communications》2006,30(3):293-305
We analysed genogroups of four feline calcivirus (FCV) isolates (FCV-S, H10, Ao198-1 and ML89) obtained from cats that experienced
FCV infection after having been vaccinated against FCV. New PCR primer sets (8F/8R, Ao-S/Ao-A, cp-S/cp-A) were also designed,
since the conventional Seal primer failed to amplify the target sequences in two samples. The genogroups of the four isolates
as well as eight global and 17 domestic strains were determined by phylogenetic analysis of their amino acid sequences. One
out of the four strains (25%) isolated in this study, H10, was grouped into genogroup I, along with the vaccine strains F9
and FCV-255. The other three isolates (75%) belonged to genogroup II. Thus, there were more isolates in genogroup II than
in genogroup I. However, the antibody values of the four isolates against cat anti-F9 antisera were significantly decreased.
There may be no relationship between the neutralizing antibody titre and genogroup. Amino acid sequence alignment of the four
isolates showed that only a single amino acid in region C, which is involved in neutralization epitopes, was different in
ML89 strain from that of F9. The other three strains, H10, Ao198-1 and FCV-B, shared the same amino acid sequence with F9.
Alignment of amino acids for linear epitopes in the F9 strain, which are located at regions D and E, showed variations in
5' hypervariable region (HVR) of E, whereas D and conE had only synonymous substitutions i.e. no change in the amino acid
sequence. This mutation in 5' HVR of region E suggested a vaccine breakdown, as the region is known to be essential for antigenicity.
The genogroup II FCV is likely to be the cause of the FCV infection in this study, while the vaccine strains belong to genogroup
I. Thus, the existing vaccine may need reevaluation for its effectiveness. 相似文献
3.
4.
Mohamed Abd-Eldaim Leon Potgieter Melissa Kennedy 《Journal of veterinary diagnostic investigation》2005,17(5):420-429
Feline calicivirus (FCV) is 1 of the most common causes of upper respiratory tract disease in cats. Other disease syndromes associated with FCV infection have been reported. Recently, calicivirus infection associated with a hemorrhagic-like disease leading to significant mortality in cats has been reported. The clinical signs are similar to those observed with the calicivirus of rabbit hemorrhagic disease. This study characterized 2 FCV isolates associated with hemorrhagic-like disease. Nucleotide sequencing of the complete genome has been done for these 2 isolates as well as for 4 additional isolates representing other disease syndromes. Previously reported sequence data for the entire genome of classical FCV (6 isolates) and a portion of the capsid gene for hemorrhagic-like FCV (3 isolates), isolated in different regions of United States were used in the genetic analysis. Sequence data were used to determine relationships among the isolates and any correlation with phenotype. Nucleotide sequence comparisons of the entire genome and individual open reading frames revealed high homology among all isolates. Data suggest that the virulence may have genetic determinants on the basis of phylogenetic clustering of the isolates associated with hemorrhagic-like disease. 相似文献
5.
Ohe K Sakai S Takahasi T Sunaga F Murakami M Kiuchi A Fukuyama M Furuhata K Hara M Ishikawa Y Taneno A 《Veterinary research communications》2007,31(4):497-507
Although prevention of feline calcivirus (FCV) infection by vaccination has been attempted, and isolation of FCV, development
of the disease, and a few fatal cases in vaccinated cats have been reported. Fifteen FCV strains isolated from cats that had
been vaccinated with commercially available FCV vaccines (F9, FCV-255, and FC-7) were genogrouped. Molecular analysis of viral
genomes involved the construction of a phylogenetic tree of capsid genes using the NJ method. Cat anti-F9 serum and rabbit
anti-FCV-255 serum were used for virus neutralization tests. Molecular phylogenetic analysis of the amino acid sequences of
15 virus isolates and those of the previously published and GenBank-deposited 9 global and 14 Japanese strains showed that
8 (53%) of the 15 virus isolates as well as the vaccine strains F9 and FCV-255 belonged to genogroup I (GAI), and 7 (47%) belonged to genogroup II (GAII). Of the 8 GAI strains, 2 were isolated from cats that had been vaccinated with an F9 strain live vaccine, 5 from cats vaccinated with
an FCV-255-derived vaccine, and 1 from a cat vaccinated with an FC-7-derived vaccine. Of the 7 GAII strains, 5 were isolated from cats that had been vaccinated with the F9 strain live vaccine, 1 from a cat vaccinated with
the FCV-255-derived vaccine, and 1 from a cat vaccinated with the FC-7-derived vaccine. These results indicate that more vaccine
breakdown strains isolated from the cats vaccinated with the F9 strain-derived vaccine belong to GAII than to GAI, whereas more vaccine breakdown strains isolated from the cats vaccinated with the FCV-255 strain-derived vaccine belong
to GAI than to GAII, and that when the FC-7 strain-derived vaccine is used, the vaccine breakdown strains belong almost equally to GAI and GAII. Thus, the genogroups of virus isolates varied with the vaccine strain used (p < 0.05). On the other hand, the neutralizing titres of feline anti-F9 serum and rabbit anti-FCV-255 serum against the 15
isolates were very low, showing no relationships between neutralizing antibody titres and genogroups. The DNA sequence identities
between the virus isolates and the vaccine strains were low, at 70.6–82.9%, and no strains were found to have sequences derived
from the vaccine strains. Alignment of amino acid sequences showed that the GAI or GAII virus isolates from the F9-vaccinated cats differed at position 428 of the 5’ hypervariable region (HVR) of capsid region
of the F9 strain, whereas those from the FCV-255-vaccinated cats differed at positions 438, 453, and 460 of the 5’HVR of capsid
region E of the F9 strain. We speculate that these differences influence genogrouping. The amino acid changes within the F9
linear epitopes common to G
A
I and G
A
II were noted at positions 450, 451, 457 of 5’HVR of the capsid region E in the isolates from F9-derived vaccine-treated cats,
and 449, 450, and 451 of 5’HVR of capsid region E in the isolates from FCV-255-derived vaccine-treated cats, suggesting that
these amino acid changes are involved in escapes. These results suggest that alternate vaccination with the F9 and FCV-255
strains or the use of a polyvalent vaccine containing GAII strains serves to inhibit development. 相似文献
6.
Preparation and characterization of neutralizing monoclonal antibodies to feline calicivirus. 总被引:2,自引:0,他引:2
Y Tohya Y Taniguchi M Tsubakimoto E Takahashi T Mikami 《Nippon juigaku zasshi. The Japanese journal of veterinary science》1990,52(2):251-256
Fourteen neutralizing monoclonal antibodies (N-MoAbs) were prepared against the F4 strain of feline calicivirus (FCV), the prototype strain of FCV in Japan, and examined for their ability to neutralize FCV isolates. Neutralization-resistant variants of the F4 strain were selected under the presence of 4 individual N-MoAbs in cell culture systems and used in cross-neutralization tests and enzyme-linked immunosorbent assay with all of the 14 N-MoAbs. The results revealed the identification of at least two antigenic determinants on FCV F4: one being more broadly conserved among FCV isolates than the other. Usefulness of antigenic variants resistant to N-MoAbs for analysis of neutralization determinants on FCV was also demonstrated. 相似文献
7.
Porter CJ Radford AD Gaskell RM Ryvar R Coyne KP Pinchbeck GL Dawson S 《Journal of Feline Medicine and Surgery》2008,10(1):32-40
Feline calicivirus (FCV) comprises a large number of strains which are related antigenically to varying degrees. The antigenic variability creates problems for choosing antigens to include in vaccines. Historically, these have been selected for use based on their cross-reactivity with a high proportion of field strains. However, it is important to determine the current level of cross-reactivity of vaccines and whether or not this may be decreasing owing to widespread vaccine use. In this in vitro study, we have compared the ability of antisera to two vaccine viruses (FCV strain F9 and FCV strain 255) to neutralise a panel of 40 recent UK field isolates. These 40 isolates were obtained by randomised, cross-sectional sampling of veterinary practices in different geographical regions of the UK so as to ensure they were representative of viruses circulating in the veterinary-visiting population of cats in the UK. Virus neutralisation assays showed that both vaccine strains are still broadly cross-reactive, with F9 antiserum neutralising 87.5% and 255 antiserum 75% of isolates tested with antiserum dilutions of 1 in 2 or greater. However, when antibody units were used, in order to take account of differences in homologous titres between antisera, fewer isolates were neutralised, with F9 antiserum showing a slightly higher proportion of isolates neutralised than 255. Multivariable analysis of the sample population of 1206 cats from which the 40 isolates were derived found that vaccinated cats were at a decreased risk of being positive for FCV, whereas cats from households with more than one cat, and cats with mouth ulcers were at increased risk. In addition as cats became older their risk of shedding FCV decreased. 相似文献
8.
R P Johnson 《Canadian journal of veterinary research》1992,56(4):326-330
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. 相似文献
9.
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. 相似文献
10.
Feline calicivirus (FCV) can be typed by exploiting antigenic differences between isolates or, more recently, by the sequence analysis of a hypervariable region of the virus's capsid gene. These two methods were used to characterise FCV isolates from 20 vaccine failures which occurred after the use of a commercial, live-attenuated vaccine. Using virus neutralisation, the isolates showed a spectrum of relatedness to the vaccine; depending on the criterion adopted for identity, 10 to 40 per cent of them appeared to be similar to the vaccine virus. Using sequence analysis, the isolates fell into one of two categories; 20 per cent had a similar sequence to the vaccine (0-67 to 2-67 per cent distant), and the remainder had a dissimilar sequence (21-3 to 36-0 per cent distant). Sequence analysis identified one cat that appeared to be infected with two distinct FCVs. The serological and sequence-based typing methods gave the same result in 80 to 95 per cent of individual cases, depending on the criterion adopted for serological identity. It is suggested that molecular typing is a more definitive method for characterising the relatedness of FCV isolates. 相似文献
11.
Neutralizing feature of commercially available feline calicivirus (FCV) vaccine immune sera against FCV field isolates. 总被引:3,自引:0,他引:3
T Hohdatsu K Sato T Tajima H Koyama 《The Journal of veterinary medical science / the Japanese Society of Veterinary Science》1999,61(3):299-301
Four types of commercially available feline calicivirus (FCV) vaccine were compared in terms of their efficacy on the basis of the ability of the sera of specific-pathogen-free cats immunized by two injections of each type of vaccine to neutralize FCV field isolates. Each vaccine immune serum neutralized relatively well strains F4, F9, and 255, which were FCV laboratory strains. As to 36 strains of field isolates, however, vaccines A, B, C, and D immune sera did not neutralize 18-20 of the strains (50.0%-55.6%), 19-22 of the strains (52.8%-61.1%), 22-25 of the strains (61.1%-69.4%), and 8-16 of the strains (22.2%-44.4%), respectively. These results indicate that there is much difference in neutralizing antigenicity between the existing vaccine strains and the FCV strains that are prevalent in Japan, suggesting the need for improvement of FCV vaccines. 相似文献
12.
Addie D Poulet H Golder MC McDonald M Brunet S Thibault JC Hosie MJ 《The Veterinary record》2008,163(12):355-357
This study examined a panel of 110 UK field isolates of feline calicivirus (FCV) for susceptibility to cross-neutralisation by a panel of eight antisera raised in cats infected with FCV strains F9, 255, FCVG1 and FCV431. The pairs of antisera raised against F9 or 255, neutralised 20 and 21 per cent or 37 and 56 per cent of field strains of virus respectively. In contrast, the pairs of antisera raised against the newer vaccine strains FCVG1 or FCV431 neutralised 29 and 70 per cent or 67 and 87 per cent of field strains respectively. Antisera raised against the two newer strains, namely FCVG1 and FCV431, neutralised a greater proportion of field strains of calicivirus than antisera raised against the older FCV vaccine strains F9 and 255. 相似文献
13.
M Glenn A D Radford P C Turner M Carter D Lowery D A DeSilver J Meanger C Baulch-Brown M Bennett R M Gaskell 《Veterinary microbiology》1999,67(3):175-193
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. 相似文献
14.
Immunoelectron microscopic comparisons of caliciviruses 总被引:4,自引:0,他引:4
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. 相似文献
15.
Geissler K Schneider K Truyen U 《Journal of veterinary medicine. B, Infectious diseases and veterinary public health》2002,49(1):55-60
Neutralizing epitopes on feline calicivirus (FCV) capsid protein were mapped using chimeric capsid proteins recombinant between two FCV isolates that do not show any cross-neutralization. The three chimeric proteins examined were expressed in murine L929 cells employing an MVA/T7 vaccinia virus expression system and inoculated into major histocompatibility complex haplotype-matched C3/HN mice. Based on the neutralizing antibody titre the neutralizing epitope(s) could be mapped to the 5' hypervariable region of the E region or potentially to the C region. The epitopes of some non-neutralizing antibodies were mapped with the same chimeric proteins to the regions B or D and F of the FCV capsid protein. 相似文献
16.
17.
Rice CC Kruger JM Venta PJ Vilnis A Maas KA Dulin JA Maes RK 《Journal of veterinary internal medicine / American College of Veterinary Internal Medicine》2002,16(3):293-302
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. 相似文献
18.
Neutralizing epitopes on feline calicivirus (FCV) capsid protein were mapped using chimeric capsid proteins recombinant between two FCV isolates that do not show any cross‐neutralization. The three chimeric proteins examined were expressed in murine L929 cells employing an MVA/T7 vaccinia virus expression system and inoculated into major histocompatibility complex haplotype‐matched C3/HN mice. Based on the neutralizing antibody titre the neutralizing epitope(s) could be mapped to the 5′ hypervariable region of the E region or potentially to the C region. The epitopes of some non‐neutralizing antibodies were mapped with the same chimeric proteins to the regions B or D and F of the FCV capsid protein. 相似文献
19.
The capsid protein of Australian feline calicivirus (FCV) isolates is demonstrably different from the prototype strain F9. Five Australian isolates of FCV, dating from 1970 to 1989, were analysed by western blotting and immunoprecipitation. Varying reactivity to a panel of F9 specific monoclonal antibodies (MAbs) was observed. DNA sequencing of RT-PCR generated clones supported the observation of variation between capsid proteins. Predicted amino acid sequences varied by 11 to 17.5% across the whole capsid when compared to the published F9 sequence. Differences in amino acid sequence were most apparent in previously described hypervariable regions (C and E). Within hypervariable region E differences of 22 to 34% were observed compared to F9. The observed lack of reactivity to F9 MAbs correlated with amino acid changes within previously characterized binding sites within region E. 相似文献
20.
Mochizuki M Kawakami K Hashimoto M Ishida T 《The Journal of veterinary medical science / the Japanese Society of Veterinary Science》2000,62(7):801-803
Epidemiology of upper respiratory infections of cats was studied. Nasal, ocular, and oral swabs collected from 111 cats presented at animal hospitals during the past 2.5 years were examined. Twenty-four (21.6%) and 4 (3.6%) cats were diagnosed as feline calicivirus (FCV) infection and feline viral rhinotracheitis, respectively, indicating FCV is more prevalent than feline herpesvirus-1, which revealed a considerable shift from data obtained in 1970s. Cat sera immunized by using vaccines containing either FCV F9 or 255 strains neutralized 42.9% and 66.7% of the FCV isolates, respectively. Chlamydia psittaci, examined by a PCR assay amplifying the ompA gene, was found in 26.9% of 26 diseased cats that typically showed conjunctivitis and rhinitis. 相似文献