Complete Genome Sequence of an Infectious Bronchitis Virus Chimera between Cocirculating Heterotypic Strains

To date, multiple serotypes and genotypes of infectious bronchitis virus (IBV) have been isolated and identified. In order to provide more information on the viral evolution of IBVs, a new virulent strain named GX-NN09032, isolated from Guangxi, China, in 2009, was sequenced, and phylogenetic and recombination analyses were conducted. Furthermore, potential recombination events associated with GX-NN09032 were found in four IBV strains, including GX-YL5, DY07, CK/CH/SD09/005, TC07-2. The present study suggested that GX-NN09032 might contribute to the emergence of modern IBV variants through recombination.     

Pathobiology of cryptosporidiosis (C. baileyi) in broiler chickens.

Pathologic and clinicopathologic changes were examined in broiler chickens inoculated with Cryptosporidium baileyi (Cb) alone or in combination with infectious bronchitis virus (IBV), infectious bursal disease virus (IBDV) or Escherichia coli (Ec). Concurrent infections with Cb and either IBV or Ec resulted in a greater respiratory inflammatory response than either agent given alone. Concurrent Cb, IBV or Ec infections resulted in a decreased density of respiratory cryptosporidial stages. No interactions between Cb and IBDV were observed. Clinicopathologic results in broiler chicks exhibiting signs of respiratory cryptosporidiosis indicated that pO2 decreased, pCO2 increased, HCO3 increased and CO2 increased. Changes in blood gases and serum electrolyte values correlated with signs of acute respiratory disease. Blood gases and serum electrolyte values were unchanged in birds with bursal and cloacal infections only. Results of these studies clarified pathogenetic events associated with avian respiratory cryptosporidiosis, and demonstrated that cryptosporidiosis may enhance the severity of respiratory disease caused by other avian pathogens.     

Development and characterization of a recombinant infectious bronchitis virus expressing the ectodomain region of S1 gene of H120 strain

Infectious bronchitis (IB), caused by infectious bronchitis virus (IBV), is a highly contagious chicken disease, and can lead to serious economic losses in poultry enterprises. The continual introduction of new IBV serotypes requires alternative strategies for the production of timely and safe vaccines against the emergence of variants. Modification of the IBV genome using reverse genetics is one way to generate recombinant IBVs as the candidates of new IBV vaccines. In this study, the recombinant IBV is developed by replacing the ectodomain region of the S1 gene of the IBV Beaudette strain with the corresponding fragment from H120 strain, designated as rBeau-H120(S1e). In Vero cells, the virus proliferates as its parental virus and can cause syncytium formation. The peak titer would reach 10^5.9 50 % (median) tissue culture infective dose/mL at 24 h post-infection. After inoculation of chickens with the recombinant virus, it demonstrated that rBeau-H120(S1e) remained nonpathogenic and was restricted in its replication in vivo. Protection studies showed that vaccination with rBeau-H120 (S1e) at 7-day after hatch provided 80 % rate of immune protection against challenge with 10³ 50 % embryos infection dose of the virulent IBV M41 strain. These results indicate that rBeau-H120 (S1e) has the potential to be an alternative vaccine against IBV based on excellent propagation property and immunogenicity. This finding might help in providing further information that replacement of the ectodomain fragment of the IBV Beaudette S1 gene with that from a present field strain is promising for IBV vaccine development.     

Binding of avian coronavirus spike proteins to host factors reflects virus tropism and pathogenicity

The binding of viruses to host cells is the first step in determining tropism and pathogenicity. While avian infectious bronchitis coronavirus (IBV) infection and avian influenza A virus (IAV) infection both depend on α2,3-linked sialic acids, the host tropism of IBV is restricted compared to that of IAV. Here we investigated whether the interaction between the viral attachment proteins and the host could explain these differences by using recombinant spike domains (S1) of IBV strains with different pathogenicities, as well as the hemagglutinin (HA) protein of IAV H5N1. Protein histochemistry showed that S1 of IBV strain M41 and HA of IAV subtype H5N1 displayed sialic acid-dependent binding to chicken respiratory tract tissue. However, while HA bound with high avidity to a broad range of α2,3-linked sialylated glycans, M41 S1 recognized only one particular α2,3-linked disialoside in a glycan array. When comparing the binding of recombinant IBV S1 proteins derived from IBV strains with known differences in tissue tropism and pathogenicity, we observed that while M41 S1 displayed binding to cilia and goblet cells of the chicken respiratory tract, S1 derived from the vaccine strain H120 or the nonvirulent Beaudette strain had reduced or no binding to chicken tissues, respectively, in agreement with the reduced abilities of these viruses to replicate in vivo. While the S1 protein derived from the nephropathogenic IBV strain B1648 also hardly displayed binding to respiratory tract cells, distinct binding to kidney cells was observed, but only after the removal of sialic acid from S1. In conclusion, our data demonstrate that the attachment patterns of the IBV S proteins correlate with the tropisms and pathogenicities of the corresponding viruses.     

传染性支气管炎病毒江苏分离株核蛋白基因序列测定与同源性分析

将本室鸡传染性支气管炎病毒（IBV）江苏省地方分离肾型毒株JS／95／03接种鸡胚,分离、纯化病毒,提取单股RNA做为反转录－聚合酶链反应（RT－PCR）的扩增模板。用Genbank公开序列多重比较后设计一对引物,使用单管RT－PCR方法,物异扩增IBV核蛋白（N）基因5'端854bp的片段,扩增产物纯化后测,序列分析表明,IBV N基因也存在较大变异,此毒株与呼吸型疫苗株M41序列同源性最高。     

传染性支气管炎病毒江苏分离株 核蛋白基因序列测定与同源性分析

将本室鸡传染性支气管炎病毒（IBV）江苏省地方分离肾型毒株JS/95/03接种鸡胚,分离、纯化病毒,提取单股RNA做为反转录-聚合酶链反应（RT-PCR）的扩增模板。用Genbank公开序列多重比较后设计一对引物,使用单管RT-PCR方法,特异扩增IBV核蛋白（N）基因5'端854 bp的片段。扩增产物纯化后测序,序列分析表明,IBVN基因也存在较大变异,此毒株与呼吸型疫苗株M41序列同源性最高。     

Recent approaches for control of E. coli and respiratory complex in Middle East

This study was conducted on 100 one-day-old broiler chicks to evaluate the effect of Poulvac E. coli vaccine in reduction of clinical signs and complications after concurrent infectious bronchitis virus (variant 02) and virulent E. coli O78 challenges. The birds were evaluated for clinical signs, mortality for 7?days post-infection, PM lesion score, average body weight and serological evaluation. Re-isolation and RT-PCR for the challenging infectious bronchitis virus (IBV) variant 02 were conducted thereafter. The results showed that the Poulvac E. coli at one-day old chicks in the presence of co-infection with virulent E. coli and IBV variant 02 provides better body weight gain at 35?days than the other groups. The challenge with IBV variant 02 alone in non-vaccinated birds doesn’t give any mortality; this indicated that the severity of IBV variant 02 increased by the presence of co-infection with Avian Pathogenic E. coli (APEc). The mortality percentage associated with both E. coli and IBV variant 02 infections in the none vaccinated group by Poulvac E. coli was 25% while this percentage was 10% of the vaccinated group. The Poulvac E. coli is not negatively affecting the immune response against different concurrent viral vaccines like Infectious bursal disease (IBD), and moreover, it improves the immune response against some others like Newcastle disease virus (NDV), Avian Influenza (AI) H5 and IBV.     

The Replicase Gene of Avian Coronavirus Infectious Bronchitis Virus Is a Determinant of Pathogenicity

We have previously demonstrated that the replacement of the S gene from an avirulent strain (Beaudette) of infectious bronchitis virus (IBV) with an S gene from a virulent strain (M41) resulted in a recombinant virus (BeauR-M41(S)) with the in vitro cell tropism of the virulent virus but that was still avirulent. In order to investigate whether any of the other structural or accessory genes played a role in pathogenicity we have now replaced these from the Beaudette strain with those from M41. The recombinant IBV was in effect a chimaeric virus with the replicase gene derived from Beaudette and the rest of the genome from M41. This demonstrated that it is possible to exchange a large region of the IBV genome, approximately 8.4 kb, using our transient dominant selection method. Recovery of a viable recombinant IBV also demonstrated that it is possible to interchange a complete replicase gene as we had in effect replaced the M41 replicase gene with the Beaudette derived gene. Analysis of the chimaeric virus showed that it was avirulent indicating that none of the structural or accessory genes derived from a virulent isolate of IBV were able to restore virulence and that therefore, the loss of virulence associated with the Beaudette strain resides in the replicase gene.     

肾型IBVS1基因重组BCG菌株的构建及其免疫原性研究

S1基因是传染性支气管炎病毒(IBV)的主要保护性抗原基因,应用RT-PCR技术特异地扩增嗜肾型传染性支气管炎病毒X株的S1基因,经序列分析证实为S1基因,将其连接到含有人结核分枝杆菌启动子hsp70基因和堪萨斯分枝杆菌α信号肽基因的表达载体pRR3上,从而构建了大肠杆菌-分枝杆菌穿梭表达质粒pR-α-S1,再电转化至BCG中,形成重组菌株rBCG-S1。热激后S1蛋白在耻垢分枝杆菌M.smegmatismc2155中高效表达,并且通过ELISA和Western blot检测能够被抗IBVS1蛋白的单克隆抗体识别。将106CFU的重组菌株rBCG-S1皮下注射免疫6周龄的SPF鸡,动物保护试验结果表明重组菌株rBCG-S1对鸡具有一定的免疫保护效果,能够保护SPF鸡抵抗IBVX毒株强毒攻击。血凝抑制试验表明血凝抑制抗体滴度能够显著增加。构建的重组菌株为今后开发新型鸡传染性支气管炎基因工程弱毒疫苗奠定了基础。     

Morphogenesis of Avian Infectious Bronchitis Virus and a Related Human Virus (Strain 229E)

Avian infectious bronchitis virus (IBV) and strain 229E, a virus recently recovered from patients with colds, have been shown to possess a similar distinctive morphology in negatively stained preparations. An electron microscopic study of the morphogenesis of IBV in the chorioallantoic membrane and of strain 229E in WI-38 cells was performed. In infected cells, round electron-dense particles 82 mmu in diameter were observed to form by a process of budding from membranes of the endoplasmic reticulum and cytoplasmic vesicles. The particles in IBV-infected cells were similar in size and shape to those in strain 229E-infected cells but showed certain differences in internal structure. The evidence that the particles represent virions and the implications of these findings in the classification of this virus group are discussed.     

鸡传染性支气管炎病毒纤突蛋白的目的基因点突变对其免疫原性的影响

反转录聚合酶链反应扩增鸡传染性支气管炎病毒中国流行株的主要免疫原纤突蛋白Ｓ１基因,将其插入载体ｐＵＣ１８的ＢａｍＨⅠ／ＨｉｎｄⅢ位点,在大肠杆菌中实现目的的基因的分子克隆。经克隆化Ｓ１基因的限制性酶切片多段多态性分析和Ｓｏｕｔｈｅｒｎ杂交之后,双脱氧链终止法测定其５‘端高变区核苷酸序列,并以此与ＧｅｎｅＢａｎｋ中的参考毒株Ｍａｓｓａｃｈｕｓｓｅｔｔｓ４１相应序列作比较,分析其同源性。     

表达绿色荧光蛋白的重组鸡传染性支气管炎病毒的构建

为探讨鸡传染性支气管炎病毒(IBV)作为载体表达外源基因的可行性,本研究根据IBV H120疫苗株的全基因组序列设计引物,采用RT-PCR方法分10个片段对其基因组进行扩增,并克隆至pMD19-T载体中;同时构建IBV基因组5a基因编码区被增强型绿色荧光蛋白(EGFP)基因替换的重组质粒。采用体外拼接策略,将BsaI酶切处理的10个基因片段顺序连接,构建5a基因编码区被EGFP基因替换的基因组全长cDNA,其5’端具有完整的T7 RNA聚合酶启动子核心序列,3’端具有polyA尾巴结构。然后通过T7 RNA聚合酶体外转录系统合成病毒基因组RNA,脂质体转染BHK-21细胞进行病毒拯救。结果表明成功的从基因组全长cDNA拯救出重组病毒H120-5a/EGFP株,其在鸡胚中能有效的复制和传代,并表达绿色荧光蛋白;5a基因的缺失并不影响病毒对鸡胚的致病性。本研究为进一步开展IBV的分子致病机理、载体疫苗等研究奠定了基础。     

Viral Susceptibility Range of the Fathead Minnow (Pimephales promelas) Poikilothermic Cell Line

The viral susceptibility range of a poikilothermic cell line derived from the fathead minnow (Pimephales promelas) (FHM) to infection by a number of homoiothermic viruses representing most of the presently recognized viral groups and a member of the psittacosis-lymphogranuloma-trachoma group of agents was studied. All infectious agents, except poliovirus types 1 and 3, infectious bursal agent, and an avian infectious bronchitis virus (IBV) strain, readily multiplied in the FHM cell culture system, producing a detectable cytopathic effect. Although inconclusive evidence was obtained with two other avian IBV strains, these results indicated the ability of the FHM cell culture system to readily support the propagation of a variety of cytopathogenic homoiothermic viral agents.     

Identification of one peptide which inhibited infectivity of avian infectious bronchitis virus in vitro

Purified avian infectious bronchitis virus (IBV) was used to screen a random phage display peptide library. After the fourth panning, 10 positive phages were sequenced and characterized. The phages specifically inhibited IBV infectivity in HeLa cells and blocked IBV haemagglutination. One linear peptide “GSH HRH VHS PFV” from the positive phages with the highest neutralization titer was synthesized and this peptide inhibited IBV infection in HeLa as well. The results may contribute to development of antiviral therapeutics for IBV and studying the determinants for viral and cell interaction.     

Identification of one peptide which inhibited infectivity of avian infectious bronchitis virus in vitro

Purified avian infectious bronchitis virus (IBV) was used to screen a random phage display peptide library. After the fourth panning, 10 positive phages were sequenced and characterized. The phages specifically inhibited IBV infectivity in HeLa cells and blocked IBV haemagglutination. One linear peptide “GSH HRH VHS PFV” from the positive phages with the highest neutralization titer was synthesized and this peptide inhibited IBV infection in HeLa as well. The results may contribute to development of antiviral therapeutics for IBV and studying the determinants for viral and cell interac-tion.     

IBV核蛋白的表达纯化及在监测中应用

鸡传染性支气管炎病毒（Infectious bronchitis virus,IBV）是禽类一种变异性很强的冠状病毒,为获得高度纯化的IBV核蛋白,建立监测IBV抗体的方法,通过RT-PCR从IBV中扩增IBV-N基因,定向连接到表达载体pGEX-KG中,转化E. coli BL21（DE3）菌株,诱导获得表达产物,SDS-PAGE分析产物大小、Western blot分析其免疫学活性,通过亲和层析法获得高度纯化的表达蛋白,建立一种检测IBV抗体的方法,并应用于临床监测。结果显示,IBV-N基因全长1230bp,GST融合蛋白表达产物大小约为80kDa,表达量约占菌体总蛋白的25%,具有良好的免疫学活性;通过GST亲和层析柱成功获得纯化蛋白,以该蛋白包被酶标板,成功地建立了一种检测血清中IBV抗体的间接ELISA方法。研究表明重组N蛋白作为IBV诊断抗原,具有制备简便、特异性强、敏感性高、重复性好的特点,可用于该病的临床监测,为该病疫情监测、发病机制研究奠定了基础。     

The Efficacy of a Live Attenuated TW I-Type Infectious Bronchitis Virus Vaccine Candidate

Virologica Sinica - Infectious bronchitis (IB) is a highly contagious avian disease caused by infection with infectious bronchitis virus (IBV), which seriously affects the development of the global...     

The carboxyl-terminal 120-residue polypeptide of infectious bronchitis virus nucleocapsid induces cytotoxic T lymphocytes and protects chickens from acute infection.

Specific cytotoxic T-lymphocyte (CTL) responses to nucleocapsid of infectious bronchitis virus (IBV) were identified by using target cells infected with a Semliki Forest virus (SFV) vector. Effector cells for CTL assays were collected from chickens infected with the Gray strain of IBV or inoculated with a DNA plasmid encoding nucleocapsid proteins. IBV-specific CTL epitopes were mapped within the carboxyl-terminal 120 amino acids of the nucleocapsid protein. CTL lysis of target cells infected with SFV encoding nucleocapsid was major histocompatibility complex restricted and mediated by CD8+ T cells. In addition, splenic T cells collected from chickens inoculated in the breast muscle with a DNA plasmid encoding this CTL epitope(s) recognized target cells infected with wild-type virus or an SFV vector encoding nucleocapsid proteins. CTL activity of splenic T cells collected from chicks immunized with a DNA plasmid encoding CTL epitopes was cross-reactive, in that lysis of target cells infected with serologically distinct strains of IBV was dose responsive in a manner similar to that for lysis of target cells infected with the homologous strain of IBV. Furthermore, chickens immunized with a DNA plasmid encoding a CTL epitope(s) were protected from acute viral infection.