期刊
JOURNAL OF VIROLOGY
卷 95, 期 7, 页码 -出版社
AMER SOC MICROBIOLOGY
DOI: 10.1128/JVI.02023-20
关键词
AAV; capsid; chimera; mutations; MOI; CRISPR; gene therapy; T cells; immunotherapy; adeno-associated virus
类别
资金
- Intima Bioscience
Novel AAV-XV variants have been developed for enhanced cell transduction at low doses, indicating the importance of the AAP coding region in both viral particle assembly and cell infection.
Adeno-associated viruses (AAVs) have attracted significant attention in the field of gene and cell therapy due to their use in highly effective delivery of therapeutic genes into human cells. The ability to generate recombinant AAV (rAAV) vectors comprising unique or substituted protein sequences has led to the development of capsid variants with improved therapeutic properties. Seeking novel AAV vectors capable of enhanced transduction for therapeutic applications, we have developed a series of unique capsid variants termed AAV X-Vivo (AAV-XV) derived from chimeras of AAV12 VP1/2 sequences and the VP3 sequence of AAV6. These AAV variants showed enhanced infection compared to the wild-type parental viruses of human primary T cells, hematopoietic stem cells (HSCs), and neuronal cell lines, and superiority over AAV6 for genomic integration of DNA sequences by AAV alone or in combination with CRISPR gene editing. AAV-XV variants demonstrate transduction efficiency equivalent to AAV6 but at 100-fold-lower multiplicities of infection (MOI), enabling T cell engineering at low AAV doses. The protein coding sequence of these novel AAV chimeras revealed disruptions within the assembly-activating protein (AAP), which likely accounted for the observed lower virus yield. A series of genome alterations, reverting the AAP sequence back to that of wild-type AAV6, had a negative impact on the enhanced transduction seen with AAV-VX, indicating overlapping functions within this sequence for both viral assembly and effective T cell transduction. Our findings show these AAV-XV variants are highly efficient at cell transduction at low doses and demonstrate the importance of the AAP coding region in both viral particle assembly and cell infection. IMPORTANCE A major hurdle to the therapeutic potential of AAV in gene therapy lies in achieving clinically meaningful AAV doses, and secondarily, the ability to manufacture commercially viable titers of AAV to support this. By virtue of neutralizing antibodies against AAV that impede patient repeat dosing, the dose of AAV for in vivo gene delivery has been high, which has resulted in unfortunate recent safety concerns and deaths in patients given higher-dose AAV gene therapy. We have generated new AAV variants possessing unique combinations of capsid proteins for gene and cell therapy applications termed AAV-XV, which have high levels of cell transduction and gene delivery at lower MOI. Furthermore, we demonstrate a novel finding, and an important consideration for recombinant AAV design, that a region of the AAV genome encoding the capsid viral protein and AAP is critical for both virus yield and the enhancement of infection/transduction.
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