Enhancement of transduction efficiency using Adeno-associated viral vectors by chemical pretreatment to mice bladder urothelium.

Adeno-associated virus (AAV) vectors have been recognized as promising tools for gene delivery. The bladder is a seemingly ideal organ for virus transfer, with easy access through the urethra enabling organ-specific delivery. However, achieving adequate transduction efficiency in the urothelium has been a major challenge because of the barrier function of the glycosaminoglycan (GAG) layer. We investigated optimal pretreatments of the bladder urothelium to maximize transduction efficiency by AAV vectors in vivo. Murine bladders were pretreated with five different chemical agents followed by transurethral instillation with an AAV2 vector encoding a tdTOMATO reporter. After 7 days, transduction efficiency of the urothelium was evaluated. Bladder urothelia pretreated with HCl showed clear evidence of AAV infection and gene delivery. Mice treated with 0.1 N HCl for 4 min showed significantly higher survival rates (nearly 80 %) compared with mice receiving other pretreatment regimens. AAV vector transduction in the urothelium was observed in seven of 20 mice (35 %), and the mean transduction efficiency in these mice was 14.5 %. Thus, HCl pretreatment enhanced transduction efficiency of the mice bladder urothelium by an AAV vector in vivo. Pretreatment with 0.1 N HCl for 4 min was the optimal condition to maximize survival and transduction efficiency of the urothelium. Copyright © 2020 Elsevier B.V. All rights reserved.

Citation

Akihiro Hamada, Yuki Kita, Kaoru Murakami, Keiyu Matsumoto, Toru Sakatani, Takeshi Sano, Osamu Ogawa, Takashi Kobayashi. Enhancement of transduction efficiency using Adeno-associated viral vectors by chemical pretreatment to mice bladder urothelium. Journal of virological methods. 2020 May;279:113854

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PMID: 32198026

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