Molecular Therapy: Methods & Clinical Development (Dec 2020)

AAV vectors engineered to target insulin receptor greatly enhance intramuscular gene delivery

  • Cody B. Jackson,
  • Audrey S. Richard,
  • Amrita Ojha,
  • Kimberly A. Conkright,
  • Jeffrey M. Trimarchi,
  • Charles C. Bailey,
  • Michael D. Alpert,
  • Mark A. Kay,
  • Michael Farzan,
  • Hyeryun Choe

Journal volume & issue
Vol. 19
pp. 496 – 506

Abstract

Read online

Adeno-associated virus (AAV) is one of the most commonly used vectors for gene therapy, and the applications for AAV-delivered therapies are numerous. However, the current state of technology is limited by the low efficiency with which most AAV vectors transduce skeletal muscle tissue. We demonstrate that vector efficiency can be enhanced by modifying the AAV capsid with a peptide that binds a receptor highly expressed in muscle tissue. When an insulin-mimetic peptide, S519, previously characterized for its high affinity to insulin receptor (IR), was inserted into the capsid, the AAV9 transduction efficiency of IR-expressing cell lines as well as differentiated primary human muscle cells was dramatically enhanced. This vector also exhibited efficient transduction of mouse muscle in vivo, resulting in up to 18-fold enhancement over AAV9. Owing to its superior transduction efficiency in skeletal muscle, we named this vector “enhanced AAV9” (eAAV9). We also found that the modification enhanced the transduction efficiency of several other AAV serotypes. Together, these data show that AAV transduction of skeletal muscle can be improved by targeting IR. They also show the broad utility of this modular strategy and suggest that it could also be applied to next-generation vectors that have yet to be engineered.

Keywords