Molecular Therapy: Methods & Clinical Development (Sep 2023)

Development of new adeno-associated virus capsid variants for targeted gene delivery to human cardiomyocytes

  • Cindy Y. Kok,
  • Shinya Tsurusaki,
  • Marti Cabanes-Creus,
  • Sindhu Igoor,
  • Renuka Rao,
  • Rhys Skelton,
  • Sophia H.Y. Liao,
  • Samantha L. Ginn,
  • Maddison Knight,
  • Suzanne Scott,
  • Mario Mietzsch,
  • Rebecca Fitzsimmons,
  • Jessica Miller,
  • Tamer M.A. Mohamed,
  • Robert McKenna,
  • James J.H. Chong,
  • Adam P. Hill,
  • James E. Hudson,
  • Ian E. Alexander,
  • Leszek Lisowski,
  • Eddy Kizana

Journal volume & issue
Vol. 30
pp. 459 – 473

Abstract

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Recombinant adeno-associated viruses (rAAVs) have emerged as one of the most promising gene therapy vectors that have been successfully used in pre-clinical models of heart disease. However, this has not translated well to humans due to species differences in rAAV transduction efficiency. As a result, the search for human cardiotropic capsids is a major contemporary challenge. We used a capsid-shuffled rAAV library to perform directed evolution in human iPSC-derived cardiomyocytes (hiPSC-CMs). Five candidates emerged, with four presenting high sequence identity to AAV6, while a fifth divergent variant was related to AAV3b. Functional analysis of the variants was performed in vitro using hiPSC-CMs, cardiac organoids, human cardiac slices, non-human primate and porcine cardiac slices, as well as mouse heart and liver in vivo. We showed that cell entry was not the best predictor of transgene expression efficiency. The novel variant rAAV.KK04 was the best-performing vector in human-based screening platforms, exceeding the benchmark rAAV6. None of the novel capsids demonstrate a significant transduction of liver in vivo. The range of experimental models used revealed the value of testing for tropism differences under the conditions of human specificity, bona fide, myocardium and cell type of interest.

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