Rapid uncoating of vector genomes is the key to efficient liver transduction with pseudotyped adeno-associated virus vectors.
TL;DR: The data suggest that the rate of uncoating of vector genomes determines the ability of complementary plus and minus single-stranded genomes to anneal together and convert to stable, biologically active double-Stranded molecular forms.
Abstract: Transduction of the liver with single-stranded adeno-associated virus serotype 2 (AAV2) vectors is inefficient; less than 10% of hepatocytes are permissive for stable transduction, and transgene expression is characterized by a lag phase of up to 6 weeks. AAV2-based vector genomes packaged inside AAV6 or AAV8 capsids can transduce the liver with higher efficiency, but the molecular mechanisms underlying this phenomenon have not been determined. We now show that the primary barrier to transduction of the liver with vectors based on AAV2 capsids is uncoating of vector genomes in the nucleus. The majority of AAV2 genomes persist as encapsidated single-stranded molecules within the nucleus for as long as 6 weeks after vector administration. Double-stranded vector genomes packaged inside AAV2 capsids are at least 50-fold more active than single-stranded counterparts, but these vectors also exhibit a lag phase before maximal gene expression. Vector genomes packaged inside AAV6 or AAV8 capsids do not persist as encapsidated molecules and are more biologically active than vector genomes packaged inside AAV2 capsids. Our data suggest that the rate of uncoating of vector genomes determines the ability of complementary plus and minus single-stranded genomes to anneal together and convert to stable, biologically active double-stranded molecular forms.
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Children's Hospital of Philadelphia1, University of Pennsylvania2, Stanford University3, University of Pittsburgh4, Royal Prince Alfred Hospital5, State University of Campinas6, University of Texas Health Science Center at Houston7, Christiana Care Health System8, Cornell University9, Wistar Institute10, Howard Hughes Medical Institute11
TL;DR: In this article, a single portal vein infusion of a recombinant adeno-associated viral vector (rAAV) expressing canine Factor IX (F.IX) resulted in long-term expression of therapeutic levels of F.IX in dogs with severe hemophilia B.
Abstract: We have previously shown that a single portal vein infusion of a recombinant adeno-associated viral vector (rAAV) expressing canine Factor IX (F.IX) resulted in long-term expression of therapeutic levels of F.IX in dogs with severe hemophilia B. We carried out a phase 1/2 dose-escalation clinical study to extend this approach to humans with severe hemophilia B. rAAV-2 vector expressing human F.IX was infused through the hepatic artery into seven subjects. The data show that: (i) vector infusion at doses up to 2 x 10(12) vg/kg was not associated with acute or long-lasting toxicity; (ii) therapeutic levels of F.IX were achieved at the highest dose tested; (iii) duration of expression at therapeutic levels was limited to a period of approximately 8 weeks; (iv) a gradual decline in F.IX was accompanied by a transient asymptomatic elevation of liver transaminases that resolved without treatment. Further studies suggested that destruction of transduced hepatocytes by cell-mediated immunity targeting antigens of the AAV capsid caused both the decline in F.IX and the transient transaminitis. We conclude that rAAV-2 vectors can transduce human hepatocytes in vivo to result in therapeutically relevant levels of F.IX, but that future studies in humans may require immunomodulation to achieve long-term expression.
1,930 citations
TL;DR: This study examines transgene expression and biodistribution of adeno-associated virus (AAV) pseudotyped 1-9 after tail vein (TV) injection in male mice and finds AAV9 had the best viral genome distribution and highest protein levels.
1,209 citations
Additional excerpts
...5 μg of pTRCMVLuc and pXR (1-9) and 15 μg of pXX680....
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TL;DR: This review is focused on recent developments in the isolation of novel AAV serotypes and isolates, their production and purification, diverse tissue tropisms, mechanisms of cellular entry/trafficking, and capsid structure.
802 citations
TL;DR: The prospects and challenges for AAV gene therapy are to a large extent dependent on the target tissue and the specific disease.
Abstract: In vivo gene replacement for the treatment of inherited disease is one of the most compelling concepts in modern medicine. Adeno-associated virus (AAV) vectors have been extensively used for this purpose and have shown therapeutic efficacy in a range of animal models. Successful translation to the clinic was initially slow, but long-term expression of donated genes at therapeutic levels has now been achieved in patients with inherited retinal disorders and haemophilia B. Recent exciting results have raised hopes for the treatment of many other diseases. As we discuss here, the prospects and challenges for AAV gene therapy are to a large extent dependent on the target tissue and the specific disease.
792 citations
TL;DR: Vectors based upon many different viral systems, including retroviruses, lentiviruses, adenovirus, and adeno-associated viruses, currently offer the best choice for efficient gene delivery.
Abstract: Broadly defined, the concept of gene therapy involves the transfer of genetic material into a cell, tissue, or whole organ, with the goal of curing a disease or at least improving the clinical status of a patient. A key factor in the success of gene therapy is the development of delivery systems that are capable of efficient gene transfer in a variety of tissues, without causing any associated pathogenic effects. Vectors based upon many different viral systems, including retroviruses, lentiviruses, adenoviruses, and adeno-associated viruses, currently offer the best choice for efficient gene delivery. Their performance and pathogenicity has been evaluated in animal models, and encouraging results form the basis for clinical trials to treat genetic disorders and acquired diseases. Despite some initial success in these trials, vector development remains a seminal concern for improved gene therapy technologies.
669 citations
References
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TL;DR: Vectors based on AAV7 and AAV8 should be considered for human gene therapy because of low reactivity to antibodies directed to human AAVs and because gene transfer efficiency in muscle was similar to that obtained with the best known serotype, whereas, in liver, gene transfer was substantially higher than previously described.
Abstract: Tissues from rhesus monkeys were screened by PCR for the presence of sequences homologous to known adeno-associated virus (AAV) serotypes 1-6. DNA spanning entire rep-cap ORFs from two novel AAVs, called AAV7 and AAV8, were isolated. Sequence comparisons among these and previously described AAVs revealed the greatest divergence in capsid proteins. AAV7 and AAV8 were not neutralized by heterologous antisera raised to the other serotypes. Neutralizing antibodies to AAV7 and AAV8 were rare in human serum and, when present, were low in activity. Vectors formed with capsids from AAV7 and AAV8 were generated by using rep and inverted terminal repeats (ITRs) from AAV2 and were compared with similarly constructed vectors made from capsids of AAV1, AAV2, and AAV5. Murine models of skeletal muscle and liver-directed gene transfer were used to evaluate relative vector performance. AAV7 vectors demonstrated efficiencies of transgene expression in skeletal muscle equivalent to that observed with AAV1, the most efficient known serotype for this application. In liver, transgene expression was 10- to 100-fold higher with AAV8 than observed with other serotypes. This improved efficiency correlated with increased persistence of vector DNA and higher number of transduced hepatocytes. The efficiency of AAV8 vector for liver-directed gene transfer of factor IX was not impacted by preimmunization with the other AAV serotypes. Vectors based on these novel, nonhuman primate AAVs should be considered for human gene therapy because of low reactivity to antibodies directed to human AAVs and because gene transfer efficiency in muscle was similar to that obtained with the best known serotype, whereas, in liver, gene transfer was substantially higher than previously described.
1,573 citations
"Rapid uncoating of vector genomes i..." refers background or result in this paper
...Vectors based on AAV2 are being tested in a clinical trial of liver-directed gene transfer for hemophilia B, but recent studies suggest that vector pseudotypes composed of AAV2 VG packaged within AAV6 or AAV8 capsids are more efficient than AAV2 vectors at transducing the liver (9, 11)....
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...As seen in this and a previous study (9), AAV8 capsids packaging ss VG are also able to overcome the 10% limit....
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...It has become apparent that enhanced transduction of refractive tissues can be effected if the AAV2 vector genome (VG) is packaged inside capsids from alternative AAV2 serotypes, of which at least eight have been isolated to date (5, 9, 11, 27)....
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TL;DR: A method, based on single-molecule imaging, that allows the real-time visualization of the infection pathway of single viruses in living cells, each labeled with only one fluorescent dye molecule shows a much faster infection than was generally observed so far.
Abstract: We describe a method, based on single-molecule imaging, that allows the real-time visualization of the infection pathway of single viruses in living cells, each labeled with only one fluorescent dye molecule. The tracking of single viruses removes ensemble averaging. Diffusion trajectories with high spatial and time resolution show various modes of motion of adeno-associated viruses (AAV) during their infection pathway into living HeLa cells: (i) consecutive virus touching at the cell surface and fast endocytosis; (ii) free and anomalous diffusion of the endosome and the virus in the cytoplasm and the nucleus; and (iii) directed motion by motor proteins in the cytoplasm and in nuclear tubular structures. The real-time visualization of the infection pathway of single AAVs shows a much faster infection than was generally observed so far.
812 citations
"Rapid uncoating of vector genomes i..." refers background in this paper
...Fluorescently labeled AAV capsids have also been detected inside the nucleus after virus infection of cultured cells (28, 30)....
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TL;DR: Overall, in this analysis, type 1 was superior for efficient transduction of liver and muscle, followed in order by types 5, 3, 2, and 4, which established a hierarchy for efficient serotype-specific vector transduction depending on the target tissue.
Abstract: The serotypes of adeno-associated virus (AAV) have the potential to become important resources for clinical gene therapy. In an effort to compare the role of serotype-specific virion shells on vector transduction, we cloned each of the serotype capsid coding domains into a common vector backbone containing AAV type 2 replication genes. This strategy allowed the packaging of AAV2 inverted terminal repeat vectors into each serotype-specific virions. Each of these helper plasmids (pXR1 through pXR5) efficiently replicated the transgene DNA and expressed helper proteins at nearly equivalent levels. In this study, we observed a correlation between the amount of transgene replication and packaging efficiency. The physical titer of these hybrid vectors ranged between 1.3 x 10(11) and 9.8 x 10(12)/ml (types 1 and 2, respectively). Of the five serotype vectors, only types 2 and 3 were efficiently purified by heparin-Sepharose column chromatography, illustrating the high degree of similarity between these virions. We analyzed vector transduction in reference and mutant Chinese hamster ovary cells deficient in heparan sulfate proteoglycan and saw a correlation between transduction and heparan sulfate binding data. In this analysis, types 1 and 5 were most consistent in transduction efficiency across all cell lines tested. In vivo each serotype was ranked after comparison of transgene levels by using different routes of injection and strains of rodents. Overall, in this analysis, type 1 was superior for efficient transduction of liver and muscle, followed in order by types 5, 3, 2, and 4. Surprisingly, this order changed when vector was introduced into rat retina. Types 5 and 4 were most efficient, followed by type 1. These data established a hierarchy for efficient serotype-specific vector transduction depending on the target tissue. These data also strongly support the need for extending these analyses to additional animal models and human tissue. The development of these helper plasmids should facilitate direct comparisons of serotypes, as well as begin the standardization of production for further clinical development.
808 citations
"Rapid uncoating of vector genomes i..." refers background in this paper
...It has become apparent that enhanced transduction of refractive tissues can be effected if the AAV2 vector genome (VG) is packaged inside capsids from alternative AAV2 serotypes, of which at least eight have been isolated to date (5, 9, 11, 27)....
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TL;DR: This work generated and characterized scAAV vectors, which represent a biochemical intermediate in rAAV transduction and should provide new insights into the biology of vector transduction.
Abstract: Adeno-associated virus (AAV) vectors package single-stranded genomes and require host-cell synthesis of the complementary strand for transduction. However, when the genome is half wild-type size, AAV can package either two copies, or dimeric inverted repeat DNA molecules. Dimeric, or self-complementary molecules (scAAV) should spontaneously reanneal, alleviating the requirement for host-cell DNA synthesis. We generated and characterized scAAV vectors in order to bypass the rate-limiting step of second-strand synthesis. In vitro, scAAV vectors were five- to 140-fold more efficient transducing agents than conventional rAAV, with a 5.9:1 particle to transducing unit ratio. This efficiency is neither greatly increased by co-infection with Ad, nor inhibited by hydroxyurea, demonstrating that transduction is independent of DNA synthesis. In vivo, scAAV expressing erythropoietin resulted in rapid and higher levels of hematocrit than a conventional single-stranded vector. These novel scAAV vectors represent a biochemical intermediate in rAAV transduction and should provide new insights into the biology of vector transduction.
796 citations
"Rapid uncoating of vector genomes i..." refers background in this paper
...(16) reported that an sc AAV vector expressing erythropoietin (EPO) resulted in more rapid elevation of hematocrit than an ss vector....
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...sc AAV2 vectors have been reported to mediate much more efficient transduction than ss AAV2 vectors in vitro and in vivo (16)....
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TL;DR: The ability of recombinant adeno-associated virus (AAV) to transduce cells with a marker gene in vitro was found to be substantially increased, and the adenovirus E4 region can play an essential role in an immediate-early step of the AAV life cycle, specifically in second-strand synthesis.
Abstract: The ability of recombinant adeno-associated virus (AAV) to transduce cells with a marker gene in vitro was found to be substantially increased by the presence of adenovirus. Transfection experiments with adenovirus genomic DNA suggest that this increase is not facilitated by adenovirus-mediated viral uptake but is instead dependent on adenovirus gene expression. Using various adenovirus mutants, we were able to map this function to early-region E4 open reading frame 6. Plasmid expression of open reading frame 6 protein in cells infected with recombinant AAV increased transduction between 100- and 1,000-fold. The increase in transduction was not dependent on the recombinant AAV gene cassette but instead appeared to involve an immediate early step of the AAV life cycle. Chemical and physical agents that have been shown to induce helper-free replication of wild-type AAV were also able to stimulate recombinant AAV transduction, suggesting that the phenomenon might affect AAV DNA replication. Further experiments showed that viral uncoating was not affected and that the rate-limiting step involved synthesis of a second strand on the single-stranded genomic AAV DNA. These data suggest that the adenovirus E4 region, as well as chemical and physical agents, can play an essential role in an immediate-early step of the AAV life cycle, specifically in second-strand synthesis, and have important implications for the use of AAV vectors in gene therapy protocols.
786 citations