Molecular Therapy: Methods & Clinical Development (Mar 2022)

Novel human liver-tropic AAV variants define transferable domains that markedly enhance the human tropism of AAV7 and AAV8

  • Marti Cabanes-Creus,
  • Renina Gale Navarro,
  • Erhua Zhu,
  • Grober Baltazar,
  • Sophia H.Y. Liao,
  • Matthieu Drouyer,
  • Anais K. Amaya,
  • Suzanne Scott,
  • Loan Hanh Nguyen,
  • Adrian Westhaus,
  • Matthias Hebben,
  • Laurence O.W. Wilson,
  • Adrian J. Thrasher,
  • Ian E. Alexander,
  • Leszek Lisowski

Journal volume & issue
Vol. 24
pp. 88 – 101

Abstract

Read online

Recent clinical successes have intensified interest in using adeno-associated virus (AAV) vectors for therapeutic gene delivery. The liver is a key clinical target, given its critical physiological functions and involvement in a wide range of genetic diseases. Here, we report the bioengineering of a set of next-generation AAV vectors, named AAV-SYDs (where “SYD” stands for Sydney, Australia), with increased human hepato-tropism in a liver xenograft mouse model repopulated with primary human hepatocytes. We followed a two-step process that staggered directed evolution and domain-swapping approaches. Using DNA-family shuffling, we first mapped key AAV capsid regions responsible for efficient human hepatocyte transduction in vivo. Focusing on these regions, we next applied domain-swapping strategies to identify and study key capsid residues that enhance primary human hepatocyte uptake and transgene expression. Our findings underscore the potential of AAV-SYDs as liver gene therapy vectors and provide insights into the mechanism responsible for their enhanced transduction profile.

Keywords