Evaluation of the protection conferred by commercial vaccines and attenuated heterologous isolates in China against the CK/CH/LDL/97I strain of infectious bronchitis coronavirus

Avian infectious bronchitis virus (IBV) causes tremendous economic losses to the poultry industry worldwide. Different serotypes of this virus show little cross-protection. The present study investigated the genotypic relationship between CK/CH/LDL/97I-type strains and reference IBVs based on S1 gene comparisons and the protection provided by vaccination with commercial vaccines and attenuated homologous and heterologous strains. Phylogenetic analysis and the comparison of S1 showed that CK/CH/LDL/97I-type virus might be a new serotype compared to vaccine strains and other types of IBV isolates in China. Protection efficacy was evaluated by morbidity, mortality, and virus re-isolation from the challenged chicks. Complete protection by IBV vaccination was provided by the homologous strain but sufficient respiratory protection was not provided by the commercial vaccines. Heterologous strains against CK/CH/LDL/97I challenge and the development of a vaccine against CK/CH/LDL/97I-type IBV will be necessary to control infectious bronchitis disease in poultry. Further development of the attenuated CK/CH/LDL/97I strain may provide a valuable contribution towards this goal.     

鸡传染性支气管炎病毒CK/CH/LHLJ/04V的分离鉴定及致弱的初步研究

从黑龙江省某鸡场发病鸡群的肾脏中分离到一株病毒,通过病毒致SPF鸡胚病变特征、对鸡外周血红细胞凝集特性、病毒粒子形态学特征以及RT-PCR鉴定等方面的研究,表明该病毒为鸡传染性支气管炎病毒,并命名为CK/CH/LHLJ/04V。通过对该病毒基因型分析以及对SPF鸡致病性试验发现该病毒为我国近年来流行的一类重要IBV的代表。将该毒株在SPF鸡胚连续传代110代(P110),取不同代次毒进行动物实验。结果显示,该毒株对SPF雏鸡的致病力随鸡胚传代次数的增加而逐渐降低。P110代毒以105.0 EID50/0.1 mL的剂量通过点眼滴鼻接种15日龄SPF雏鸡,鸡群发病率和死亡率均为0。不同代次毒接种SPF鸡对同源毒株P3代强毒的攻击均具有100%保护性。实验表明,IBV毒株CK/CH/LHLJ/04V P110对SPF雏鸡已无致病性,但仍具有良好的免疫原性,可作为研制IB弱毒疫苗的候选毒株。     

Genetic diversity of avian infectious bronchitis coronavirus in recent years in China

Fifty-six isolates of avian infectious bronchitis virus (IBV) were obtained from different field outbreaks in China in 2010, and they were genotyped by comparison with 19 reference strains in the present study. The results showed that LX4-type isolates are still the predominant IBVs circulating in chicken flocks in China, and these isolates could be grouped further into two clusters. Viruses in each cluster had favored amino acid residues at different positions in the S1 subunit of the spike protein. In addition, a recombination event was observed to have occurred between LX4- and tl/CH/LDT3/03I-type strains, which contributed to the emergence of a new strain. The most important finding of the study is the isolation and identification of Taiwan II-type (TW II-type) strains of IBV in mainland China in recent years. The genome of TW II-type IBV strains isolated in mainland China has experienced mutations and deletions, as demonstrated by comparison of the entire genome sequence with those of IBV strains isolated in Taiwan. Pathogenicity testing and sequence analysis of the 3' terminal untranslated region revealed that TW II-type IBV strains isolated in mainland China have a close relationship with the embryo-passaged, attenuated TW2296/95.     

鸡传染性支气管炎强毒分离株遗传进化分析和免疫保护试验

从山东省发病鸡群中分离鉴定了一株鸡传染性支气管炎病毒（Infectious bronchitis virus,IBV）强毒株SDIB821/2012,对其进行S1基因序列测定分析和免疫保护试验。S1基因遗传进化分析结果显示,SDIB821/2012属于以QXIBV为代表的基因型,与同属一个基因型的IBV参考株氨基酸同源性为91.6%～98.5%,与疫苗株491同源性为77.6%,与H120和MA5同源性均为74.8%。免疫保护试验结果显示,根据试验鸡临床症状和发病死亡情况,弱毒活疫苗491对SDIB821/2012的保护率为90%,而H120和MA5对SDIB821/2012的保护率分别仅为40%和33%。攻毒后各免疫组喉头、泄殖腔棉拭样品以及气管、肺脏和肾脏组织均可检测到病毒,表明3种IB疫苗均不能对SDIB821/2012提供完全的免疫保护。     

Immunogenicity and efficacy of a bivalent vaccine against infectious bronchitis virus

Infectious bronchitis (IB) is a highly contagious viral disease and is responsible for considerable economic losses in the poultry industry, worldwide. To mitigate the IB-associated losses, multiple vaccines are being applied in the sector with variable successes and thus necessitating the development of a potent vaccine to protect against the IB in the poultry. In the present study, we investigated a bivalent live attenuated vaccine consisting of IB virus (IBV) strain H120 (GI-1 lineage) and D274 (GI-12 lineage) to evaluate its protection against heterologous variant of IBV (GI-23 lineage) in chicken. Protection efficacy was evaluated based on the serology, clinical signs, survival rates, tracheal and kidney histopathology and the viral shedding. Results demonstrated that administering live H120 and D274 (named here Classivar®) vaccine in one day-old and 14 days-old provided 100 % protection. We observed a significant increase in the mean antibody titers, reduced virus shedding, and ameliorated histopathology lesions compared to routinely used vaccination regimes. These results revealed that usage of different IBV vaccines combination can successfully ameliorate the clinical outcome and pathology in vaccinated chicks especially after booster vaccination regime using Classivar®. In conclusions, our data indicate that Classivar® vaccine is safe in chicks and may serve as an effective vaccine against the threat posed by commonly circulating IBV strains in the poultry industry.     

Phylogenetic analysis of S1 gene of infectious bronchitis virus isolates from China

Between 2006 and 2009, seven strains of infectious bronchitis (IB) virus (IBV) were isolated from vaccinated chicken flocks on different chicken farms in China. The pathogenic characters of seven IBV strains were assessed. Each of the seven strains was infective to the test chickens and could induce an immune response. The results from chicken embryo cross-neutralization assays showed that these strains were antigenically distinct from classic IBV strains of H120, M41, Conn, and Gray. Compared to H120 vaccine strain, point mutation, short insertion, and deletion occurred at many positions in the S1 protein of the seven strains. Five of the seven strains had the motif (HRRRR), which was identical to that of the epidemic IBV strains in China. Two new motifs (HRLRR and RRIRR) emerged in the isolated strains. The homology of the nucleotide and amino acid sequences of the S1 gene among the seven isolates was 81.7%-99.7% and 79.0%-99.4%, respectively. These seven strains were also genetically different from the vaccine strains and non-China IBV strains but closely related to large numbers of Chinese strains. The seven isolates and 36 reference IBV strains were clustered into six distinct groups (I-VI). The seven strains were categorized into groups I, II, and III, forming a big phylogenetic branch, which is closely related to Chinese IBVs, whereas the vaccine strains belonging to group VI are genetically distant from groups I, II, and III. The results from this study indicate that different IBV strains cocirculate in the chicken population in China.     

两株鸡传染性支气管炎病毒的分离鉴定及S1基因序列分析

为调查广东地区鸡传染性支气管炎病毒(IBV)的流行及其遗传变异情况,本研究通过病料SPF鸡胚接种和鸡胚尿囊液的RT-PCR鉴定,于2013年从广东湛江地区不同发病鸡场分离到两株IBV,分别命名为CK/CH/GD/ZJ10/2013和CK/CH/GD/ZJ11/2013,并对这两株IBV的S1基因进行序列分析。结果显示,CK/CH/GD/ZJ10/2013株S1基因全长1 626 bp,编码542个氨基酸,其裂解位点为NRFRR,属于基因型Ⅲ,并推测其为基因型Ⅲ毒株(CK/CH/GX/NN11-3)与基因型Ⅰ毒株(GX-NN-6)在S1基因处发生重组而产生的新毒株;CK/CH/GD/ZJ11/2013株S1基因全长1620 bp,编码540个氨基酸,其裂解位点为HRRRR,属于基因型Ⅰ(类QX型);两株IBV的S1基因间核苷酸序列及其推导的氨基酸序列同源性较低,与位于同一基因型的参考毒株间同源性较高,而与中国使用的Mass型常规疫苗H120和H52之间的同源性最低,仅为75.7%~76.3%和77.1%~77.9%。本研究可为广东省IBV的流行病学调查和分子生物学研究提供参考。     

Isolation,Identification and Sequence Analysis of S1 Gene of Two Strains of Avian Infectious Bronchitis Viruses

In order to investigate the epidemiology and genetic variation of avian infectious bronchitis virus (IBV) in Guangdong province, two strains of IBV were isolated by inoculation of embryo and RT-PCR detection from diseased chickens at different farms in Zhanjiang, Guangdong province in 2013.We denoted these two strains of IBV as CK/CH/GD/ZJ10/2013 and CK/CH/GD/ZJ11/2013, respectively.Analysis of the S1 gene sequences from these two isolated strains showed that the S1 gene of CK/CH/GD/ZJ10/2013 was 1 626 bp, which encoded 542 amino acids with a cleavage site sequence of NRFRR, while the S1 gene of CK/CH/GD/ZJ11/2013 was 1620 bp, encoded 540 amino acids with a cleavage site sequence of HRRRR.Phylogenetic analysis revealed that these two isolated strains were clustered into genetic groups Ⅲ and Ⅰ(QX-like type), respectively.Homology analysis demonstrated that nucleotide and deduced amino acid sequence homologies between these two isolated strains were lower, while the homologies were higher among the same genotypes, however, the homologies were lower comparing with current vaccine strains such as H120 and H52, with which the nucleotide homologies ranged from 75.7% to 76.3% and the amino acid homologies ranged from 77.1% to 77.9%.Further analysis showed that the CK/CH/GD/ZJ10/2013 strain was formed from a recombination event between CK/CH/GX/NN11-3 and GX-NN-6.Taken together, this study provided valuable insight into prevention and control of IBV infection in Guangdong province.     

Genetic diversity of avian infectious bronchitis virus isolates in Korea between 2003 and 2006

Thirty-three field isolates of avian infectious bronchitis virus (IBV) were recovered from commercial chicken flocks in Korea between 2003 and 2006 and were characterized phylogenetically by nucleotide sequence analysis of the IBV S1 gene hyper-variable region. Our phylogenetic analysis revealed that recent field isolates of IBV formed at least three distinct phylogenetic types, including K-I, K-II, and K-III. K-I type IBV consisted of indigenous, 13 IBV isolates which evolved from the Kr-EJ/95 strain and then separated into the lineages of type K-Ia and type K-Ib. K-II type IBV isolates (n = 19) were closely related to nephropathogenic IBV variants from China and Japan. The K-III type isolate (Kr/D064/05), first identified by this study, was closely related to enteric IBV variants from the Chinese strains that cause proventriculitis. Sequence comparisons showed amino acid differences of >27.5% between IBV types. The molecular epidemiologic characteristics of IBV field isolates are briefly discussed.     

Vaccine efficacy against Ontario isolates of infectious bronchitis virus

Infectious bronchitis (IB) is an economically important viral disease with worldwide distribution. Every country with an intensive poultry industry has infectious bronchitis virus (IBV). The virus rapidly spreads from bird to bird through horizontal transmission by aerosol or ingestion. Sentinel bird studies were carried out in southern Ontario and IBV has been isolated from layer flocks. Genetic analysis of the S1 region of the strains showed that they were not vaccine related. The pathogenicity of selected Ontario variants of IBV isolates was studied and the subsequent work was to determine the degree of protection against field isolates provided by a commonly used vaccine MILDVAC-Ma5 in Ontario. The protection was evaluated by challenging immunized chickens with the respiratory (IBV-ON1) and nephropathogenic (IBV-ON4) viruses. The mean vaccine efficacy for IBV-ON1 was 66.7% indicating that a Massachusetts serotype vaccine would provide some protection against IBV field isolates.     

Characterization of infectious bronchitis virus using monoclonal antibodies

Three monoclonal antibodies (MABs) reactive against two structural proteins--the nucleoprotein (NP) or the surface (S) protein--of avian infectious bronchitis virus (IBV) were produced and characterized. The MABs did not neutralize virus infectivity or inhibit hemagglutination. Their reactivity patterns with the homologous strain and eight heterologous strains of IBV were determined using the indirect immunoperoxidase test, the indirect immunofluorescent test, transfer-immunoblotting of separated proteins, and a dot-immunoblotting assay (DIA). Two MABs, NP- or S-protein-specific, reacted with all nine strains; one (NP-specific) reacted with only two strains. The two MABs reacting with all nine strains of IBV also detected 18 IBV field isolates of unknown serotype in the DIA. The MAB detecting only two strains did not react in the DIA. The diagnostic application of these MABs appears promising.     

Molecular and serologic characterization, pathogenicity, and protection studies with infectious bronchitis virus field isolates from California

In this study, we characterized three variant infectious bronchitis virus (IBV) strains isolated in 2003 and 2004 from broiler chickens in California and compared them to previously isolated California variant viruses and to common vaccine serotypes used in the United States. We conducted genetic, serologic, and pathogenicity studies on all three isolates, then tested different vaccines against one of the viruses. Genetically the three variant IBV strains, designated CA557/03, CA706/03, and CA1737/04, were not related to each other. GenBank BLAST database search and phylogenetic analysis of the hypervariable region of the S1 subunit of the spike gene to determine the most closely related viruses to the three variants showed the CA557/03 variant to be 81.8% similar to the CAV/CA56b/91 whereas the CA706/03 and CA1737/04 variant viruses were only distantly related to Dutch/D1466/81 (72.2%), a vaccine strain used in Europe, and Korea/K142/02 (72.7%), a Korean field isolate, respectively. Cross virus-neutralization testing showed that none of the 2003-04 California IBV variant viruses were serologically related to each other or to Ark, Conn, or Mass vaccine strains. In addition the CA1737/04 isolate was also tested against DE072 and found not to be serologically related. All three variant viruses were pathogenic in 1-wk-old broilers and vaccination with Mass/Conn followed by Holland/Conn provided 80% protection against the CA1737/04 virus. The 2003-04 California variant viruses were not compared with variants isolated in California during 1970s and 1980s because, to our knowledge, no genetic information is available and those viruses are no longer obtainable. This study shows that the CA557/03 virus was distantly related to the CAV-type viruses isolated in California in the early 1990s, but that none of the 2003-04 viruses were similar genetically or serologically to the CAL99-type viruses, indicating that new IBV variants continue to emerge and cause disease in commercial chickens in California.     

Isolation and identification of four infectious bronchitis virus strains in China and analyses of their S1 glycoprotein gene

Between 2003 and 2005, four strains of infectious bronchitis virus (IBV) were isolated from the vaccinated chicken flocks in China. The results from chicken embryo cross-neutralization assays showed that all the four isolates were relative to strain A2 of IBV, which was isolated in 1996 in Beijing and related to strain 4/91. The S1 gene of the spike protein was amplified and sequenced. The nucleotide and amino acid sequence of the S1 gene had a similar degree of identity (88.98-99.28%) among the four Chinese IBV isolates. The identity of the S1 protein gene between the four Chinese IBV isolates and 14 strains of other IBVs varied from 70.06 to 81.59%. Phylogenetic analysis suggested that there are at least four groups of IBVs circulating in China and the disease outbreaks might have been caused by infection of multiple strains of IBV.     

Strain specific antibodies revealed by immunoabsorption studies with avian infectious bronchitis virus

Rabbit antisera prepared against the Massachusetts 41 (M41) strain of avian infectious bronchitis virus (IBV) and absorbed with chick embryo immunoabsorbent produced multiple precipitin lines in immunodouble-diffusion (IDD) tests with homologous or heterologous strains of virus. These precipitin lines were all removed by absorption with concentrated M41 virus preparations, but repeated absorption with concentrated, purified preparations of IBV strains: T, Holte, Connecticut, Beaudette or H120 failed to remove all precipitin lines produced to M41 virus, although all those to the heterologous viruses were removed. The remaining line(s) produced with M41 virus by sera absorbed with different heterologous viruses showed identity in IDD tests and was associated with the surface projections of the virus.     

Molecular epidemiology of infectious bronchitis virus isolates from China and Southeast Asia

In order to trace the origin and evolution of avian infectious bronchitis virus (IBV) isolates in China and Southeast Asia, genomic sequencing was used for molecular characterization of 24 IBV isolates and two reference strains in comparison with the published sequences. The 5' region of the S1 genes, containing hypervariable regions I and II, and 3' region of the nucleocapsid genes, containing cytotoxic T lymphocyte epitopes, were used to construct phylogenetic trees for analysis. The results showed that the 24 isolates could be divided into three distinct groups, that is, American, Asian, and European. Some isolates formed a distinct Asian phylogenetic group, suggesting that IBV has existed for some time in Asia. Our results also showed that in vivo recombination of IBV may have occurred at a rather high frequency, contributing to the diversity of these IBV isolates. Importantly, recombination events have probably occurred between vaccine strains and field strains in the natural condition.     

Production and immunogenicity of chimeric virus-like particles containing the spike glycoprotein of infectious bronchitis virus

Infectious bronchitis virus (IBV) poses a severe threat to the poultry industry and causes heavy economic losses worldwide. Vaccination is the most effective method of preventing infection and controlling the spread of IBV, but currently available inactivated and attenuated virus vaccines have some disadvantages. We developed a chimeric virus-like particle (VLP)-based candidate vaccine for IBV protection. The chimeric VLP was composed of matrix 1 protein from avian influenza H5N1 virus and a fusion protein neuraminidase (NA)/spike 1 (S1) that was generated by fusing IBV S1 protein to the cytoplasmic and transmembrane domains of NA protein of avian influenza H5N1 virus. The chimeric VLPs elicited significantly higher S1-specific antibody responses in intramuscularly immunized mice and chickens than inactivated IBV viruses. Furthermore, the chimeric VLPs induced significantly higher neutralization antibody levels than inactivated H120 virus in SPF chickens. Finally, the chimeric VLPs induced significantly higher IL-4 production in mice. These results demonstrate that chimeric VLPs have the potential for use in vaccines against IBV infection.     

2株鸡传染性支气管炎病毒的分离鉴定及S1基因的序列分析

采用RT-PCR方法对2株传染性支气管炎病毒分离株的S1基因进行序列扩增、测定及分析,应用DNAStar软件将这些分离毒株与中国常用疫苗毒株、其他血清型的代表参考毒株分别进行核苷酸和氨基酸系统发生进化关系分析。核苷酸与氨基酸序列分析结果均表明：2株分离毒株与J2、Q1、T3毒株的亲缘关系较近,与疫苗株H120和4/91的亲缘关系较远。     

S1 and N gene analysis of avian infectious bronchitis viruses in Taiwan

The disease caused by infectious bronchitis virus (IBV) produces great economic for the poultry industry. The purpose of this study is to investigate the molecular epidemiology of IBV in Taiwan. An old IBV strain isolated in 1964 and another 31 strains isolated from 1991 to 2003 were selected for N-terminal S1 gene analysis. Based on their phylogenetic tree, 13 strains were selected for sequencing the entire S1 and partial nucleocapsid (N) genes. The results indicated that Taiwanese IBV strains could be divided into two distinct lineages, Taiwan Group I and Taiwan Group II, with one Massachusetts strain and one Chinese strain. No recombination was found between H120 and the Taiwanese strains in the S1 gene. However, the S1 gene showed a noticeably higher divergence than the N gene. The phylogenetic trees constructed from the S1 and N genes indicate that intergenic recombination has occurred. Since most local strains are in Taiwanese clusters, developing vaccines from local strains is necessary for IBV control in Taiwan.     

Production and characterization of monoclonal antibodies to three infectious bronchitis virus serotypes.

Three panels of monoclonal antibodies (MAbs) were prepared against the spike (S) proteins of infectious bronchitis virus (IBV) strains Arkansas 99, Connecticut 46, and Massachusetts 41. Based on enzyme-linked immunosorbent assay (ELISA), the MAbs were grouped into three categories: 1) group-specific, which reacted with a broad spectrum of homologous and heterologous IBV serotypes; 2) serotype-specific, which reacted only with strains of the homologous serotype; and 3) strain-specific, which reacted "selectively" with only certain strains of homologous and heterologous serotypes. MAbs that displayed serotype specificity were all specific to S1 fractions of the homologous serotype, confirming that epitopes that determine virus serotype are associated with the S1 protein. An excellent correlation was found when the results of IBV serotyping by MAb-based indirect ELISA were compared with those from the conventional virus-neutralization test. This confirms that the MAbs described here will serve as valuable tools in epizootiological studies and serotype-specific diagnosis of IBV infection.