R. Jude Samulski scite author profile

Conventional methods for rAAV purification that are based vector that is more than 99% pure. More importantly, the on cesium chloride ultracentrifugation have often produced new purification procedures consistently produce rAAV vector preparations of variable quality and resulted in sigstocks with particle-to-infectivity ratios of less than 100, nificant loss of particle infectivity. We report here several which is significantly better than conventional methods. novel purification strategies that involve the use of non-The new protocol increases the overall yield of infectious ionic iodixanol gradients followed by ion exchange or heprAAV by at least 10-fold and allows for the complete purifiarin affinity chromatography by either conventional or cation of rAAV in 1 working day. Several of these methods HPLC columns. These methods result in more than 50%should also be useful for large-scale production. recovery of rAAV from a crude lysate and routinely produce

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Engineering adeno-associated virus vectors for gene therapy

Samulski

2020

Nat Rev Genet

837

635

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Adeno-associated Virus Serotypes: Vector Toolkit for Human Gene Therapy

Wu¹,

Asokan²,

Samulski³

2006

Molecular Therapy

788

592

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Recombinant adeno-associated viral (AAV) vectors have rapidly advanced to the forefront of gene therapy in the past decade. The exponential progress of AAV-based vectors has been made possible by the isolation of several naturally occurring AAV serotypes and over 100 AAV variants from different animal species. These isolates are ideally suited to development into human gene therapy vectors due to their diverse tissue tropisms and potential to evade preexisting neutralizing antibodies against the common human AAV serotype 2. Despite their prolific application in several animal models of disease, the mechanisms underlying selective tropisms of AAV serotypes remain largely unknown. Efforts to understand cell surface receptor usage and intracellular trafficking pathways exploited by AAV continue to provide significant insight into the biology of AAV vectors. Such unique traits are thought to arise from differences in surface topology of the capsids of AAV serotypes and variants. In addition to the aforementioned naturally evolved AAV isolates, several strategies to engineer hybrid AAV serotype vectors have been formulated in recent years. The generation of mosaic or chimeric vectors through the transcapsidation or marker-rescue/domain-swapping approach, respectively, is notable in this regard. More recently, combinatorial strategies for engineering AAV vectors using error-prone PCR, DNA shuffling, and other molecular cloning techniques have been established. The latter library-based approaches can serve as powerful tools in the generation of low-immunogenic and cell/tissue type-specific AAV vectors for gene delivery. 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. Strategies for engineering hybrid AAV vectors derived from AAV serotypes and potential implications of the rapidly expanding AAV vector toolkit are discussed.

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Site-specific integration by adeno-associated virus.

Kotin

Siniscalco

Samulski

et al. 1990

Proc. Natl. Acad. Sci. U.S.A.

847

530

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R. Jude Samulski

Recombinant adeno-associated virus purification using novel methods improves infectious titer and yield

Engineering adeno-associated virus vectors for gene therapy

Adeno-associated Virus Serotypes: Vector Toolkit for Human Gene Therapy

Site-specific integration by adeno-associated virus.

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