Reverse Genetics of Mononegavirales: The Rabies Virus Paradigm

ABSTRACT While the RNA-dependent RNA polymerase L protein of rabies virus (RABV), a member of the genus Lyssavirus of the family Rhabdoviridae, has potential to be a therapeutic target for rabies, the molecular functions of this protein have remained largely unknown. In this study, to obtain a novel experimental tool for molecular function analysis of the RABV L protein, we established by using a reverse genetics approach an L gene-deficient RABV (Nishi-ΔL/Nluc), which infects, propagates, and correspondingly produces NanoLuc luciferase in cultured neuroblastoma cells transfected to express the L protein. trans-Complementation with wild-type L protein, but not that with a functionally defective L protein mutant, efficiently supported luciferase production by Nishi-ΔL/Nluc, confirming its potential for function analysis of the L protein. Based on the findings obtained from comprehensive genetic analyses of L genes from various RABV and other lyssavirus species, we examined the functional importance of a highly conserved L protein region at positions 1914 to 1933 by a trans-complementation assay with Nishi-ΔL/Nluc and a series of L protein mutants. The results revealed that the amino acid sequence at positions 1929 to 1933 (NPYNE) is functionally important, and this was supported by other findings that this sequence is critical for binding of the L protein with its essential cofactor, P protein, and thus also for L protein's RNA polymerase activity. Our findings provide useful information for the development of an anti-RABV drug targeting the L-P protein interaction. IMPORTANCE To the best of our knowledge, this is the first report on the establishment of an L gene-deficient, reporter gene-expressing virus in all species of the order Mononegavirales, also highlighting its applicability to a trans-complementation assay, which is useful for molecular function analyses of their L proteins. Moreover, this study revealed for the first time that the NPYNE sequence at positions 1929 to 1933 in the RABV L protein is important for L protein's interaction with the P protein, consistent with and extending the results of a previous study showing that the P protein-binding domain in the L protein is located in its C-terminal region, at positions 1562 to 2127. This study indicates that the NPYNE sequence is a promising target for the development of an inhibitor of viral RNA synthesis, which has high potential as a therapeutic drug for rabies.

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Development of a reverse genetics system for the aG strain of rabies virus in China

Archives of Virology ◽

10.1007/s00705-013-1919-9 ◽

2013 ◽

Vol 159 (5) ◽

pp. 1033-1038 ◽

Cited By ~ 3

Author(s):

Jiao Wenqiang ◽

Xiangping Yin ◽

Xi Lan ◽

Xuerui Li ◽

Jixing Liu

Keyword(s):

Rabies Virus ◽

Reverse Genetics

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Rescue of Rabies Virus from Cloned cDNA and Identification of the Pathogenicity-Related Gene: Glycoprotein Gene Is Associated with Virulence for Adult Mice

Journal of Virology ◽

10.1128/jvi.75.19.9121-9128.2001 ◽

2001 ◽

Vol 75 (19) ◽

pp. 9121-9128 ◽

Cited By ~ 82

Author(s):

Naoto Ito ◽

Mutsuyo Takayama ◽

Kentaro Yamada ◽

Makoto Sugiyama ◽

Nobuyuki Minamoto

Keyword(s):

Rabies Virus ◽

Reverse Genetics ◽

Biological Properties ◽

Open Reading Frame ◽

Chimeric Virus ◽

Viral Gene ◽

Reading Frame ◽

Intracerebral Inoculation ◽

Glycoprotein Gene ◽

Adult Mice

ABSTRACT In order to identify the viral gene related to the pathogenicity of rabies virus, we tried to establish a reverse genetics system of the attenuated RC-HL strain, which causes nonlethal infection in adult mice after intracerebral inoculation. A full-length genome plasmid encoding the complete antigenomic cDNA of the RC-HL strain and helper plasmids containing cDNAs of the complete open reading frame of the N, P, and L genes, respectively, were constructed. After transfection of these plasmids into BHK-21 cells infected with the T7 RNA polymerase-expressing vaccinia virus, infectious rabies virus with almost the same biological properties as those of the wild-type RC-HL strain was rescued. Using this reverse genetics system of the RC-HL strain, we generated a chimeric virus with the open reading frame of the glycoprotein gene from the parent Nishigahara strain, which kills adult mice after intracerebral inoculation, in the background of the RC-HL genome. Since the chimeric virus killed adult mice following intracerebral inoculation, it became evident that the open reading frame of the glycoprotein gene is related to the pathogenicity of the Nishigahara strain for adult mice.

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Recombinant rabies virus expressing chimeric Omp31/sodC or AHCY gene from Brucella melitensis elicits high level of antibodies and secretary cytokines in mice

10.21203/rs.2.16210/v1 ◽

2019 ◽

Author(s):

Zhenguang Li ◽

Hongwei Zhu ◽

Yanling Yang ◽

Fengxue Wang ◽

Menghang Wang ◽

...

Keyword(s):

Rabies Virus ◽

Humoral Immunity ◽

Recombinant Virus ◽

Reverse Genetics ◽

Brucella Melitensis ◽

Mrna Level ◽

Neutralizing Antibody ◽

Growth Properties ◽

Cellular And Humoral Immunity ◽

High Level

Abstract Background: The rabies virus (RV) vector LBNSE expressing foreign antigens has shown considerable promise as vaccines against viral and bacteria diseases, which is effective and safe. We produced a new RV-based vaccine vehicle expressing Brucella melitensis Omp31/sodC or AHCY gene by reverse genetics technology. The aim of this study was to investigate the cellular and humoral immunity of recombinant viruses. Results: The recombinant virus rLBNSE-SOD and rLBNSE-AHC retained growth properties similar to those of vector rLBNSE both in BSR and mNA cell culture. The Omp31/SODC and AHCY gene was expressed and detected by immunostaining. To compare the immunogenicity of LBNSE-SOD and LBNSE-AHC, mice were immunized with each of recombinant virus by intramuscular (i.m.). Then mice were bled at days 7, 14 after the immunization for the measurement of cytokines and virus neutralizing antibody (VNAs). The parent virus (LBNSE) without expression of any foreign molecules was included for comparison. It was found that mice inoculated with LBNSE-SOD and LBNSE-AHC showed no any signs of disease and exhibited seroconversion against RV. Our findings showed that mice were immunized with each of these recombinant RVs by intramuscular (i.m.) developed efficacy cellular and humoral immunity. The mRNA level of cytokines (IFN-γ and IL-2; IL-4 and IL-10) and VNA level against rabies virus in the blood of mice were increasing after immunization with recombinant RVs. There were no obvious histopathological changes in the brain samples of all mice. Conclusions: The studies suggested that recombinant RVs expressing Omp31/SodC or AHCY gene would elicit high level of antibodies and secretary cytokines and provided a promising vaccine candidate in mice.

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BIOTECHNOLOGICAL RESEARCH IN THE CREATION AND PRODUCTION OF ANTIRABIC VACCINES

Biotechnologia Acta ◽

10.15407/biotech14.04.028 ◽

2021 ◽

Vol 14 (4) ◽

pp. 28-37

Author(s):

Yu. Krasnopolsky ◽

Keyword(s):

Rabies Virus ◽

Cell Cultures ◽

Viral Vectors ◽

Reverse Genetics ◽

Animal Cell ◽

Rna Virus ◽

Fibroblast Cell ◽

History Of ◽

Inactivated Vaccines ◽

The Central Nervous System

Rabies is a neurological disease of a viral nature, leading to death. Rabies virus is an RNA virus that invades the central nervous system, leading to neuronal dysfunction. Timely vaccination can prevent the diseases development. Aim. The article is devoted to immunobiotechnological research aimed at creating antirabic vaccines. Results. The history of the antirabic vaccines creation from the first inactivated vaccines obtained from nervous tissue to the cultivation of the virus on animal cell cultures is considered. The article presents commercially available anti-rabies vaccines: their composition, the used rabies virus strains, cell cultures, the methods of inactivation and purification. The technology of producing an anti-rabies vaccine based on a Pitman Moore virus strain and a chicken fibroblast cell culture is presented. The advantages of different vaccine types are considered: live attenuated, peptide, liposomal, RNA vaccines, vaccines based on viral vectors, transgenic plants and reverse genetics methods. Conclusions. The development of biotechnology, immunology and virology makes it possible to improve constantly vaccine preparations, including those against rabies, increasing their effectiveness and safety.

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Roles of the Rabies Virus Phosphoprotein Isoforms in Pathogenesis

Journal of Virology ◽

10.1128/jvi.00809-16 ◽

2016 ◽

Vol 90 (18) ◽

pp. 8226-8237 ◽

Cited By ~ 13

Author(s):

Kazuma Okada ◽

Naoto Ito ◽

Satoko Yamaoka ◽

Tatsunori Masatani ◽

Hideki Ebihara ◽

...

Keyword(s):

Viral Replication ◽

Rabies Virus ◽

Reverse Genetics ◽

Critical Role ◽

Muscle Cells ◽

P Gene ◽

P Protein ◽

Impaired Ability ◽

Intramuscular Inoculation ◽

P Proteins

ABSTRACTRabies virus (RABV) P gene mRNA encodes five in-frame start codons, resulting in expression of full-length P protein (P1) and N-terminally truncated P proteins (tPs), designated P2, P3, P4, and P5. Despite the fact that some tPs are known as interferon (IFN) antagonists, the importance of tPs in the pathogenesis of RABV is still unclear. In this study, to examine whether tPs contribute to pathogenesis, we exploited a reverse genetics approach to generate CE(NiP)ΔP2-5, a mutant of pathogenic CE(NiP) in which the P gene was mutated by replacing all of the start codons (AUG) for tPs with AUA. We confirmed that while CE(NiP) expresses detectable levels of P2 and P3, CE(NiP)ΔP2-5 has an impaired ability to express these tPs. After intramuscular inoculation, CE(NiP)ΔP2-5 caused significantly lower morbidity and mortality rates in mice than did CE(NiP), indicating that tPs play a critical role in RABV neuroinvasiveness. Further examinations revealed that this less neuroinvasive phenotype of CE(NiP)ΔP2-5 correlates with its impaired ability to replicate in muscle cells, indicative of the importance of tPs in viral replication in muscle cells. We also demonstrated that CE(NiP)ΔP2-5 infection induced a higher level ofIfn-βgene expression in muscle cells than did CE(NiP) infection, consistent with the results of an IFN-β promoter reporter assay suggesting that all tPs function to antagonize IFN induction in muscle cells. Taken together, our findings strongly suggest that tPs promote viral replication in muscle cells through their IFN antagonist activities and thereby support infection of peripheral nerves.IMPORTANCEDespite the fact that previous studies have demonstrated that P2 and P3 of RABV have IFN antagonist activities, the actual importance of tPs in pathogenesis has remained unclear. Here, we provide the first evidence that tPs contribute to the pathogenesis of RABV, especially its neuroinvasiveness. Our results also show the mechanism underlying the neuroinvasiveness driven by tPs, highlighting the importance of their IFN antagonist activities, which support viral replication in muscle cells.

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

Journal of NeuroVirology ◽

10.3109/13550280009018301 ◽

2000 ◽

Vol 6 (5) ◽

pp. 373-381 ◽

Cited By ~ 87

Author(s):

Kinjiro Morimoto ◽

Heather D Foley ◽

James P McGettigan ◽

Matthias J Schnell ◽

Bernhard Dietzschold

Keyword(s):

Rabies Virus ◽

Reverse Genetics ◽

Viral Pathogenesis ◽

Rabies Virus Glycoprotein ◽

Virus Glycoprotein

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Differential Transcription Attenuation of Rabies Virus Genes by Intergenic Regions: Generation of Recombinant Viruses Overexpressing the Polymerase Gene

Journal of Virology ◽

10.1128/jvi.74.16.7261-7269.2000 ◽

2000 ◽

Vol 74 (16) ◽

pp. 7261-7269 ◽

Cited By ~ 72

Author(s):

Stefan Finke ◽

James H. Cox ◽

Karl-Klaus Conzelmann

Keyword(s):

Gene Expression ◽

Rabies Virus ◽

Reverse Genetics ◽

Virus Protein ◽

Polymerase Gene ◽

P Gene ◽

Gene Delivery Vectors ◽

Intergenic Regions ◽

Transcription Attenuation

ABSTRACT Gene expression of nonsegmented negative-sense RNA viruses involves sequential synthesis of monocistronic mRNAs and transcriptional attenuation at gene borders resulting in a transcript gradient. To address the role of the heterogeneous rabies virus (RV) intergenic regions (IGRs) in transcription attenuation, we constructed bicistronic model RNAs in which two reporter genes are separated by the RV N/P gene border. Replacement of the 2-nucleotide (nt) N/P IGR with the 5-nt IGRs from the P/M or M/G border resulted in attenuation of downstream gene transcription to 78 or 81%, respectively. A severe attenuation to 11% was observed for the 24-nt G/L border. This indicated that attenuation in RV is correlated with the length of the IGR, and, in particular, severe downregulation of the L (polymerase) gene by the 24 nt IGR. By reverse genetics, we recovered viable RVs in which the strongly attenuating G/L gene border of wild-type (wt) RV (SAD L16) was replaced with N/P-derived gene borders (SAD T and SAD T2). In these viruses, transcription of L mRNA was enhanced by factors of 1.8 and 5.1, respectively, resulting in exaggerated general gene expression, faster growth, higher virus titers, and induction of cytopathic effects in cell culture. The major role of the IGR in attenuation was further confirmed by reintroduction of the wt 24-nt IGR into SAD T, resulting in a ninefold drop of L mRNA. The ability to modulate RV gene expression by altering transcriptional attenuation is an advantage in the study of virus protein functions and in the development of gene delivery vectors.

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The application of reverse genetics technology in the study of rabies virus (RV) pathogenesis and for the development of novel RV vaccines

Journal of NeuroVirology ◽

10.1080/13550280590900436 ◽

2005 ◽

Vol 11 (1) ◽

pp. 76-81 ◽

Cited By ~ 32

Author(s):

Matthias Schnell1 ◽

Gene Tan2 ◽

and Bernhard Dietzschold2

Keyword(s):

Rabies Virus ◽

Reverse Genetics

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