Literature DB >> 20538851

Molecular basis of neurovirulence of flury rabies virus vaccine strains: importance of the polymerase and the glycoprotein R333Q mutation.

Lihong Tao1, Jinying Ge, Xijun Wang, Hongyue Zhai, Tao Hua, Bolin Zhao, Dongni Kong, Chinglai Yang, Hualan Chen, Zhigao Bu.   

Abstract

The molecular mechanisms associated with rabies virus (RV) virulence are not fully understood. In this study, the RV Flury low-egg-passage (LEP) and high-egg-passage (HEP) strains were used as models to explore the attenuation mechanism of RV. The results of our studies confirmed that the R333Q mutation in the glycoprotein (G(R333Q)) is crucial for the attenuation of Flury RV in mice. The R333Q mutation is stably maintained in the HEP genome background but not in the LEP genome background during replication in mouse brain tissue or cell culture. Further investigation using chimeric viruses revealed that the polymerase L gene determines the genetic stability of the G(R333Q) mutation during replication. Moreover, a recombinant RV containing the LEP G protein with the R333Q mutation and the HEP L gene showed significant attenuation, genetic stability, enhancement of apoptosis, and immunogenicity. These results indicate that attenuation of the RV Flury strain results from the coevolution of G and L elements and provide important information for the generation of safer and more effective modified live rabies vaccine.

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Year:  2010        PMID: 20538851      PMCID: PMC2919041          DOI: 10.1128/JVI.00787-10

Source DB:  PubMed          Journal:  J Virol        ISSN: 0022-538X            Impact factor:   5.103


  58 in total

1.  Reinvestigation of the role of the rabies virus glycoprotein in viral pathogenesis using a reverse genetics approach.

Authors:  K Morimoto; H D Foley; J P McGettigan; M J Schnell; B Dietzschold
Journal:  J Neurovirol       Date:  2000-10       Impact factor: 2.643

2.  Rescue of rabies virus from cloned cDNA and identification of the pathogenicity-related gene: glycoprotein gene is associated with virulence for adult mice.

Authors:  N Ito; M Takayama; K Yamada; M Sugiyama; N Minamoto
Journal:  J Virol       Date:  2001-10       Impact factor: 5.103

3.  Overexpression of the rabies virus glycoprotein results in enhancement of apoptosis and antiviral immune response.

Authors:  Milosz Faber; Rojjanaporn Pulmanausahakul; Suchita S Hodawadekar; Sergei Spitsin; James P McGettigan; Matthias J Schnell; Bernhard Dietzschold
Journal:  J Virol       Date:  2002-04       Impact factor: 5.103

4.  Rabies virus glycoprotein pseudotyping of lentiviral vectors enables retrograde axonal transport and access to the nervous system after peripheral delivery.

Authors:  N D Mazarakis; M Azzouz; J B Rohll; F M Ellard; F J Wilkes; A L Olsen; E E Carter; R D Barber; D F Baban; S M Kingsman; A J Kingsman; K O'Malley; K A Mitrophanous
Journal:  Hum Mol Genet       Date:  2001-09-15       Impact factor: 6.150

5.  Spread and pathogenic characteristics of a G-deficient rabies virus recombinant: an in vitro and in vivo study.

Authors:  Réza Etessami; Karl-Klaus Conzelmann; Babak Fadai-Ghotbi; Benjamin Natelson; Henri Tsiang; Pierre-Emmanuel Ceccaldi
Journal:  J Gen Virol       Date:  2000-09       Impact factor: 3.891

Review 6.  Building better vaccines: how apoptotic cell death can induce inflammation and activate innate and adaptive immunity.

Authors:  N P Restifo
Journal:  Curr Opin Immunol       Date:  2000-10       Impact factor: 7.486

7.  Apoptosis-mediated enhancement of DNA-raised immune responses by mutant caspases.

Authors:  S Sasaki; R R Amara; A E Oran; J M Smith; H L Robinson
Journal:  Nat Biotechnol       Date:  2001-06       Impact factor: 54.908

8.  Silver-haired bat rabies virus variant does not induce apoptosis in the brain of experimentally infected mice.

Authors:  X Yan; M Prosniak; M T Curtis; M L Weiss; M Faber; B Dietzschold; Z F Fu
Journal:  J Neurovirol       Date:  2001-12       Impact factor: 2.643

9.  Overexpression of cytochrome C by a recombinant rabies virus attenuates pathogenicity and enhances antiviral immunity.

Authors:  R Pulmanausahakul; M Faber; K Morimoto; S Spitsin; E Weihe; D C Hooper; M J Schnell; B Dietzschold
Journal:  J Virol       Date:  2001-11       Impact factor: 5.103

10.  The rabies virus glycoprotein receptor p75NTR is not essential for rabies virus infection.

Authors:  Christine Tuffereau; Klaus Schmidt; Christelle Langevin; Florence Lafay; Georg Dechant; Martin Koltzenburg
Journal:  J Virol       Date:  2007-10-10       Impact factor: 5.103
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  12 in total

1.  Newcastle disease virus-vectored rabies vaccine is safe, highly immunogenic, and provides long-lasting protection in dogs and cats.

Authors:  Jinying Ge; Xijun Wang; Lihong Tao; Zhiyuan Wen; Na Feng; Songtao Yang; Xianzhu Xia; Chinglai Yang; Hualan Chen; Zhigao Bu
Journal:  J Virol       Date:  2011-06-01       Impact factor: 5.103

2.  Molecular characterization of KGH, the first human isolate of rabies virus in Korea.

Authors:  Jun-Sun Park; Chi-Kyeong Kim; Su Yeon Kim; Young Ran Ju
Journal:  Virus Genes       Date:  2012-12-15       Impact factor: 2.332

3.  Molecular Function Analysis of Rabies Virus RNA Polymerase L Protein by Using an L Gene-Deficient Virus.

Authors:  Kento Nakagawa; Yuki Kobayashi; Naoto Ito; Yoshiyuki Suzuki; Kazuma Okada; Machiko Makino; Hideo Goto; Tatsuki Takahashi; Makoto Sugiyama
Journal:  J Virol       Date:  2017-09-27       Impact factor: 5.103

4.  Rescue of recombinant peste des petits ruminants virus: creation of a GFP-expressing virus and application in rapid virus neutralization test.

Authors:  Qianqian Hu; Weiye Chen; Kehe Huang; Michael D Baron; Zhigao Bu
Journal:  Vet Res       Date:  2012-06-02       Impact factor: 3.683

5.  Generation of a recombinant rabies Flury LEP virus carrying an additional G gene creates an improved seed virus for inactivated vaccine production.

Authors:  Lihong Tao; Jinying Ge; Xijun Wang; Zhiyuan Wen; Hongyue Zhai; Tao Hua; Bolin Zhao; Dongni Kong; Chinglai Yang; Zhigao Bu
Journal:  Virol J       Date:  2011-09-25       Impact factor: 4.099

6.  Change in the Single Amino Acid Site 83 in Rabies Virus Glycoprotein Enhances the BBB Permeability and Reduces Viral Pathogenicity.

Authors:  Chunfu Li; Yongzhi Wang; Huiting Liu; Xinghua Zhang; Dalai Baolige; Shihua Zhao; Wei Hu; Yang Yang
Journal:  Front Cell Dev Biol       Date:  2021-02-09

7.  Complete genome sequence of a rabies virus isolate from cattle in guangxi, southern china.

Authors:  Hai-Bo Tang; Xiao-Xia He; Yi-Zhi Zhong; Su-Huan Liao; Tao-Zhen Zhong; Lin-Juan Xie; Yan Pan; Zhuan-Ling Lu; Xian-Kai Wei; Yang Luo; Ting Rong Luo
Journal:  Genome Announc       Date:  2013-01-31

8.  Complete Genome Sequence of a Rabies Virus Isolate from a Ferret Badger (Melogale moschata) in Jiangxi, China.

Authors:  Jinghui Zhao; Shoufeng Zhang; Ye Liu; Fei Zhang; Rongliang Hu
Journal:  Genome Announc       Date:  2013-06-13

9.  Pathogenicity and Immunogenicity of Recombinant Rabies Viruses Expressing the Lagos Bat Virus Matrix and Glycoprotein: Perspectives for a Pan-Lyssavirus Vaccine.

Authors:  Joe Kgaladi; Milosz Faber; Bernhard Dietzschold; Louis H Nel; Wanda Markotter
Journal:  Trop Med Infect Dis       Date:  2017-08-09

10.  Establishment of multiplex RT-PCR for differentiation between rabies virus with and that without mutation at position 333 of glycoprotein.

Authors:  Dong Kun Yang; Ha Hyun Kim; Siu Lee; Jae Young Yoo
Journal:  J Vet Sci       Date:  2020-03       Impact factor: 1.672
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