Preclinical studies have shown that gene transfer following readministration of viral vectors is often inefficient due to the presence of neutralizing antibodies. Vectors derived from ubiquitous human adenoviruses may have limited clinical use because preexisting humoral and cellular immunity is found in 90% of the population. Furthermore, risks associated with the use of human adenovirus vectors, such as the need to immunosuppress or tolerize patients to a potentially debilitating virus, are avoidable if efficient nonhuman adenovirus vectors are feasible. Plasmids containing recombinant canine adenovirus (CAV) vectors from which the E1 region had been deleted were generated and transfected into a CAV E1-transcomplementing cell line. Vector stocks, with titers greater than or equal to those obtained with human adenovirus vectors, were free of detectable levels of replication-competent CAV and had a low particle-to-transduction unit ratio. CAV vectors were replication defective in all cell lines tested, transduced human-derived cells at an efficiency similar to that of a comparable human adenovirus type 5 vector, and are amenable to in vivo use. Importantly, 49 of 50 serum samples from healthy individuals did not contain detectable levels of neutralizing CAV antibodies.Human adenovirus types 2 and 5 were chosen as potential gene transfer vectors because of the significant amount of research performed on these serotypes. However, vectors derived from viruses that naturally infect and replicate in humans may not be the optimal candidates for therapeutic applications. Adenoviruses are ubiquitous in all populations and can be lethal in infants and immunocompromised patients (5, 18, 24). More than 90% of the adult population has detectable levels of circulating antibodies directed against antigens from human serotypes (9, 32, 33). Phase I trials using human adenovirus vectors have yielded conflicting results (8,21,41). A difference in humoral immunity that is directed against the vector capsid might explain, in addition to other factors, the variability between and within these studies. Furthermore, when repeat administrations were attempted (7, 42), transgene activity was not detected. Studies aimed at immunotolerization of mice, for the primary or repeat delivery of human adenovirus vectors, are interesting from the immunological standpoint but may have limited practical use in the clinic. Will immunotolerization of patients to adenovirus vectors activate latent, more virulent serotypes? Concomitantly, there are other drawbacks associated with human-derived adenovirus vectors. More than 95% of a healthy cohort had a long-lived CD4 ϩ T-cell response directed against multiple human adenovirus serotypes (14). These data imply that adenovirus serotype switching (27) may have limited advantages. Furthermore, replication-competent adenoviruses (RCAs) (26) can potentially contaminate human adenovirus-derived vector stocks, including gutless adenovirus vectors (16,22), while E1 region-positive vectors are a potential contam...
