Generation and Characterization of Adeno-Associated Virus Producer Cell Lines for Research and Preclinical Vector Production

Martin, John M.; Frederick, Amy; Luo, Yuxia; Jackson, Robert; Joubert, Michelle; Sol, Bruce; Poulin, Francis; Pastor, Eric; Armentano, Donna; Wadsworth, Samuel C.; Vincent, Karen A.

doi:10.1089/hgtb.2013.046

Cited by 66 publications

(90 citation statements)

References 80 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…22 Recently, an AAV production system based on stable HeLa cell lines was presented that harbors the rep and cap genes and the ITR-flanked rAAV genome. 23 Considerable collateral packaging of rep and cap was reported, up to 0.62% and 0.25%, respectively, of vector genome-containing capsids. In rAAV2 vector lots for a clinical trial, the reported percentage of packaged cap genes ranged between 0.016% and 0.021%.…”

Section: Avoiding Potential Packaging Signals In Helper Gene Constructsmentioning

confidence: 99%

OneBac 2.0:Sf9 Cell Lines for Production of AAV5 Vectors with Enhanced Infectivity and Minimal Encapsidation of Foreign DNA

et al. 2015

View full text Add to dashboard Cite

Scalable production of recombinant adeno-associated virus vectors (rAAV) in baculovirus-infected Sf9 cells yields high burst sizes but variable infectivity rates per packaged AAV vector genome depending on the chosen serotype. Infectivity rates are particularly low for rAAV5 vectors, based on the genetically most divergent AAV serotype. In this study we describe key improvements of the OneBac system for the generation of rAAV5 vectors, whose manufacturing has been unsatisfactory in all current insect cell-based production systems. The Sf9 cell-based expression strategy for AAV5 capsid proteins was modified to enhance relative AAV5 VP1 levels. This resulted in a 100-fold boost of infectivity per genomic AAV5 particle with undiminished burst sizes per producer cell. Furthermore, the issue of collateral packaging of helper DNA into AAV capsids was approached. By modifications of the AAV rep and cap expression constructs used for the generation of stable Sf9 cell lines, collateral packaging of helper DNA sequences during rAAV vector production was dramatically reduced down to 0.001% of packaged rAAV genomes, while AAV5 burst sizes and infectivity rates were maintained. OneBac 2.0 represents the first insect cellbased scalable production system for high per-particle AAV5 infectivity rates combined with minimal collateral packaging of helper DNA, allowing the manufacturing of safe AAV5-based gene therapies for clinical application. INTRODUCTIONAdeno-associated virus vectors (rAAV) for gene therapy are becoming increasingly successful for a wide spectrum of genetic and acquired diseases. The availability of currently 12 naturally occurring AAV serotypes and numerous natural and engineered variants thereof allow in vivo transduction of almost any cell type or tissue. Successful clinical trials have so far relied on the natural serotypes AAV1, AAV2, or AAV8.1-3 The prevalence of preexisting neutralizing antibodies for serotypes AAV1 and AAV2 is high (up to 80%) in the human population, largely precluding repeated AAV vector applications. Neutralizing antibodies are less frequent for AAV5 (around 40%), the evolutionary most divergent member of the AAV family.4 AAV5 capsids show less than 60% amino acid homology to any other AAV serotype. 5 The targeting profile of

show abstract

Section: Avoiding Potential Packaging Signals In Helper Gene Constructsmentioning

confidence: 99%

OneBac 2.0:Sf9 Cell Lines for Production of AAV5 Vectors with Enhanced Infectivity and Minimal Encapsidation of Foreign DNA

et al. 2015

View full text Add to dashboard Cite

show abstract

“…7 Encouraging preliminary results are moving rAAV gene therapy closer to a routine clinical application. Although there have been continuous and significant progressions toward flexible and scalable rAAV production in recent years, [8][9][10][11][12][13] a high demand still exists for more efficient vector production. This is partially due to the overwhelming amount of quality vectors needed to support preclinical research using large animal models and clinical trials.…”

Section: Introductionmentioning

confidence: 99%

High-Density Recombinant Adeno-Associated Viral Particles are Competent Vectors forIn VivoTransduction

Wang

Firrman

et al. 2016

Human Gene Therapy

View full text Add to dashboard Cite

show abstract

“…18,19 However, a disadvantage of this process is the time needed to generate and characterize producer cell lines (PCLs), which can be shortened using non-clonal ''masterwells'' (MWs). 18,26 This study generated and characterized MWs producing AAVrh8R serotype vectors harboring 5.1 and 5.4 kb genomes encoding human FVIII (hFVIII). The data demonstrate the feasibility of the PCL method to produce slightly oversized rAAV vectors.…”

Section: Gene Therapy Using Recombinant Aav (Raav)mentioning

confidence: 99%

“…The AAV2 cap in pAF-SEAP-AAV2 26 was changed to AAVrh8R to gener-ate pTP-SEAP-caprh8R. The ITRs flanking the SEAP expression cassette were removed and replaced with a blunt-ended PvuI and SapI fragment containing the 5.1 kb FVIII vector genome from pITR-mTTR202-hFVIIIco-spA to generate pTP-FVIII-5.1-caprh8R.…”

Section: Generation and Characterization Of Producer Cell Linesmentioning

confidence: 99%

Characteristics of Minimally Oversized Adeno-Associated Virus Vectors Encoding Human Factor VIII Generated Using Producer Cell Lines and Triple Transfection

Nambiar

Sookdeo

Berthelette

et al. 2017

Human Gene Therapy Methods

Self Cite

View full text Add to dashboard Cite

{These authors contributed equally to this work.Several ongoing clinical studies are evaluating recombinant adeno-associated virus (rAAV) vectors as gene delivery vehicles for a variety of diseases. However, the production of vectors with genomes >4.7 kb is challenging, with vector preparations frequently containing truncated genomes. To determine whether the generation of oversized rAAVs can be improved using a producer cell-line (PCL) process, HeLaS3-cell lines harboring either a 5.1 or 5.4 kb rAAV vector genome encoding codon-optimized cDNA for human Bdomain deleted Factor VIII (FVIII) were isolated. High-producing ''masterwells'' (MWs), defined as producing >50,000 vg/cell, were identified for each oversized vector. These MWs provided stable vector production for >20 passages. The quality and potency of the AAVrh8R/FVIII-5.1 and AAVrh8R/FVIII-5.4 vectors generated by the PCL method were then compared to those prepared via transient transfection (TXN). Southern and dot blot analyses demonstrated that both production methods resulted in packaging of heterogeneously sized genomes. However, the PCL-derived rAAV vector preparations contained some genomes >4.7 kb, whereas the majority of genomes generated by the TXN method were £4.7 kb. The PCL process reduced packaging of non-vector DNA for both the AAVrh8R/FVIII-5.1 and the AAVrh8R/FVIII-5.4 kb vector preparations. Furthermore, more DNA-containing viral particles were obtained for the AAVrh8R/FVIII-5.1 vector. In a mouse model of hemophilia A, animals administered a PCL-derived rAAV vector exhibited twofold higher plasma FVIII activity and increased levels of vector genomes in the liver than mice treated with vector produced via TXN did. Hence, the quality of oversized vectors prepared using the PCL method is greater than that of vectors generated using the TXN process, and importantly this improvement translates to enhanced performance in vivo.

show abstract

Generation and Characterization of Adeno-Associated Virus Producer Cell Lines for Research and Preclinical Vector Production

Cited by 66 publications

References 80 publications

OneBac 2.0:Sf9 Cell Lines for Production of AAV5 Vectors with Enhanced Infectivity and Minimal Encapsidation of Foreign DNA

OneBac 2.0:Sf9 Cell Lines for Production of AAV5 Vectors with Enhanced Infectivity and Minimal Encapsidation of Foreign DNA

High-Density Recombinant Adeno-Associated Viral Particles are Competent Vectors forIn VivoTransduction

Characteristics of Minimally Oversized Adeno-Associated Virus Vectors Encoding Human Factor VIII Generated Using Producer Cell Lines and Triple Transfection

Contact Info

Product

Resources

About