Stable Alphavirus Packaging Cell Lines for Sindbis Virus-and Semliki Forest Virus-Derived Vectors

Stable Alphavirus Packaging Cell Lines for Sindbis Virus-and Semliki Forest Virus-Derived Vectors

Alphavirus vectors are being developed for possible human vaccine and gene therapy applications. We have sought to advance this field by devising DNA-based vectors and approaches for the production of recombinant vector particles. In this work, we generated a panel of alpha-virus vector packaging ce...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 96; no. 8; pp. 4598 - 4603
Main Authors: Polo, John M., Belli, Barbara A., Driver, David A., Frolov, Ilya, Sherrill, Scott, Hariharan, Mangala J., Townsend, Kay, Perri, Silvia, Mento, Steven J., Jolly, Douglas J., Stephen M. W. Chang, Schlesinger, Sondra, Dubensky, Thomas W.
Format: Journal Article
Language:English
Published: United States National Academy of Sciences of the United States of America 13-04-1999
National Acad Sciences
National Academy of Sciences
The National Academy of Sciences
Subjects:
Alphavirus - genetics
Alphaviruses
Animals
Antibody Formation
Biological Sciences
Cell Line
Cell lines
Cell Transformation, Viral
Cricetinae
Female
Gene therapy
Genes
Genetic Vectors
Glycoproteins
Humans
Infections
Kidney
Mice
Mice, Inbred BALB C
Packaging
Promoter Regions, Genetic
Protein Biosynthesis
Ribonucleic acid
RNA
RNA, Messenger - genetics
RNA, Viral - genetics
Semliki Forest virus
Semliki forest virus - genetics
Sindbis Virus
Sindbis Virus - genetics
T-Lymphocytes, Cytotoxic - immunology
Transcription, Genetic
Vaccines
Vaccines, Synthetic
Viral Structural Proteins - biosynthesis
Viral Structural Proteins - genetics
Viral Structural Proteins - immunology
Viral Vaccines
Viruses
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Summary:Alphavirus vectors are being developed for possible human vaccine and gene therapy applications. We have sought to advance this field by devising DNA-based vectors and approaches for the production of recombinant vector particles. In this work, we generated a panel of alpha-virus vector packaging cell lines (PCLs). These cell lines were stably transformed with expression cassettes that constitutively produced RNA transcripts encoding the Sindbis virus structural proteins under the regulation of their native subgenomic RNA promoter. As such, translation of the structural proteins was highly inducible and was detected only after synthesis of an authentic subgenomic mRNA by the vector-encoded replicase proteins. Efficient production of biologically active vector particles occurred after introduction of Sindbis virus vectors into the PCLs. In one configuration, the capsid and envelope glycoproteins were separated into distinct cassettes, resulting in vector packaging levels of107infectious units/ml, but reducing the generation of contaminating replication-competent virus below the limit of detection. Vector particle seed stocks could be amplified after low multiplicity of infection of PCLs, again without generating replication-competent virus, suggesting utility for production of largescale vector preparations. Furthermore, both Sindbis virus-based and Semliki Forest virus-based vectors could be packaged with similar efficiency, indicating the possibility of developing a single PCL for use with multiple alphavirus-derived vectors.
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To whom reprint requests should be addressed at: Gene Therapy and Vaccines, Chiron Technologies, 4560 Horton Street, Emeryville, CA 94608. e-mail: John_Polo@cc.chiron.com.
Communicated by Lewis T. Williams, Chiron Technologies, Emeryville, CA
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.96.8.4598