Genetic Modification of the AAV5 Capsid with Lysine Residues Results in a Lung-Tropic Liver-Detargeted Gene Transfer Vector.

Intravenous (IV) administration of naturally occurring adeno-associated virus (AAV) vectors are liver tropic, with a significant proportion of the total vector dose mediating gene expression in liver hepatocytes. AAV capsids that are directed toward other organs such as lung may be useful for therapy of nonliver-based diseases. Based on the knowledge that the lung capillary endothelium is the first capillary bed encountered by an intravenously administered AAV vector, and that the lung endothelium glycocalyx is enriched in negatively charged sialic acid, we hypothesized that adding positively changed lysine residues to the AAV capsid would enhance AAV biodistribution to the lung after IV administration. Using site-directed mutagenesis, two lysine residues were inserted into variable loop VIII of the AAV serotype 5 capsid (AAV5-PK2). Organ distribution of AAV5-PK2 was compared with that of AAV5, AAV2, and AAV2-7m8 4 weeks after IV administration (10 11 gc) to C57Bl/6 male mice. As predicted, after IV administration, AAV5-PK2 had the highest biodistribution in the lung ( p  < 0.02 compared with AAV5, AAV2, and AAV2-7m8). Furthermore, biodistribution to liver of AAV5-PK2 was 2 logs decreased compared with AAV5 ( p  < 10 -4 ) with a ratio of AAV5-PK2 lung to liver of 62-fold compared with AAV5 of 0.2-fold ( p  < 0.0003). The AAV5-PK2 capsid represents a lung-tropic AAV vector that is also significantly detargeted from the liver, a property that may be useful in lung-directed gene therapies.