Exploring the Comprehensive Kozak Sequence Landscape for AAV Production in Sf9 System

Viruses. 2023 Sep 23;15(10):1983. doi: 10.3390/v15101983.

Abstract

The widespread successful use of recombinant Adeno-associated virus (rAAV) in gene therapy has driven the demand for scale-up manufacturing methods of vectors with optimized yield and transduction efficiency. The Baculovirus/Sf9 system is a promising platform for high yield production; however, a major drawback to using an invertebrate cell line compared to a mammalian system is a generally altered AAV capsid stoichiometry resulting in lower biological potency. Here, we introduce a term of the structural and biological "fitness" of an AAV capsid as a function of two interdependent parameters: (1) packaging efficiency (yield), and (2) transduction efficiency (infectivity). Both parameters are critically dependent on AAV capsid structural proteins VP1/2/3 stoichiometry. To identify an optimal AAV capsid composition, we developed a novel Directed Evolution (DE) protocol for assessing the structural and biological fitness of Sf9-manufactured rAAV for any given serotype. The approach involves the packaging of a combinatorial capsid library in insect Sf9 cells, followed by a library screening for high infectivity in human Cre-recombinase-expressing C12 cells. One single DE selection round, complemented by Next-Generation Sequencing (NGS) and guided by in silico analysis, identifies a small subset of VP1 translation initiation sites (known as Kozak sequence) encoding "fit" AAV capsids characterized by a high production yield and superior transduction efficiencies.

Keywords: Kozak; Sf9; directed evolution; packaging; rAAV; transduction.

Publication types

  • Research Support, N.I.H., Extramural

MeSH terms

  • Animals
  • Capsid / metabolism
  • Capsid Proteins / genetics
  • Capsid Proteins / metabolism
  • Cell Line
  • Dependovirus* / genetics
  • Dependovirus* / metabolism
  • Genetic Vectors* / genetics
  • Humans
  • Mammals

Substances

  • Capsid Proteins