Variants of the adeno-associated virus serotype 9 with enhanced penetration of the blood-brain barrier in rodents and primates

The development of gene therapies for the treatment of diseases of the central nervous system has been hindered by the limited availability of adeno-associated viruses (AAVs) that efficiently traverse the blood-brain barrier (BBB). Here, we report the rational design of AAV9 variants displaying cell-penetrating peptides on the viral capsid and the identification of two variants, AAV.CPP.16 and AAV.CPP.21, with improved transduction efficiencies of cells of the central nervous system on systemic delivery (6- to 249-fold across 4 mouse strains and 5-fold in cynomolgus macaques, with respect to the AAV9 parent vector). We also show that the neurotropism of AAV.CPP.16 is retained in young and adult macaques, that this variant displays enhanced transcytosis at the BBB as well as increased efficiency of cellular transduction relative to AAV9, and that it can be used to deliver antitumour payloads in a mouse model of glioblastoma. AAV capsids that can efficiently penetrate the BBB will facilitate the clinical translation of gene therapies aimed at the central nervous system. Two variants of the adeno-associated virus serotype 9 engineered to display specific cell-penetrating peptides on the capsid show enhanced transduction of cells of the central nervous system in small and large animals.

Automated summary

Engineered AAV9 variants displaying specific cell-penetrating peptides on the capsid show enhanced transduction of central nervous system cells in small and large animals.