A novel plasmid-based adenovirus vector system that enables manufacturing of replication-incompetent (⌬E1) adenovirus type 11 (Ad11)-based vectors is described. Ad11 vectors are produced on PER.C6/55K cells yielding high-titer vector batches after purification. Ad11 seroprevalence proves to be significantly lower than that of Ad5, and neutralizing antibody titers against Ad11 are low. Ad11 seroprevalence among human immunodeficiency virus-positive (HIV ؉ ) individuals is as low as that among HIV ؊ individuals, independent of the level of immune suppression. The low level of coinciding seroprevalence between Ad11 and Ad35 in addition to a lack of correlation between high neutralizing antibody titers towards either adenovirus strongly suggest that the limited humoral cross-reactive immunity between these two highly related B viruses appears not to preclude the use of both vectors in the same individual. Ad11 transduces primary cells including smooth muscle cells, synoviocytes, and dendritic cells and cardiovascular tissues with higher efficiency than Ad5. Ad11 and Ad35 appear to have a similar tropism as judged by green fluorescent protein expression levels determined by using a panel of cancer cell lines. In addition, Ad5 preimmunization did not significantly affect Ad11-mediated transduction in C57BL/6 mice. We therefore conclude that the Ad11-based vector represents a novel and useful candidate gene transfer vehicle for vaccination and gene therapy.Adenovirus vectors are being developed for gene therapy purposes with the aim to treat inherited or acquired disease (6, 10, 15, 21) as well as for therapeutic and prophylactic vaccination strategies (5, 32). The use of adenovirus for vaccination has recently been fueled by highly promising results demonstrating protection against viruses and viral diseases in rodents and nonhuman primates (28,34,35) as well as induction of Tand B-cell responses in humans in early phase I vaccine trials with healthy volunteers (7). However, high seroprevalence and high neutralizing antibody (NAb) titers against the commonly used vectors, i.e., adenovirus type 5 (Ad5) and Ad2 (39), hamper the application of C group-based vectors, since circulating NAbs efficiently capture administered recombinant vectors obscuring therapeutic effect (19). It has been shown, at least in rodents (1, 42), nonhuman primates (3), and humans in early phase I clinical trials (7), that high levels of NAbs decrease gene transfer efficiency or blunt vaccine potency. Since levels of NAbs vary among individuals, overdosing with recombinant vector in an attempt to overcome the neutralizing activity may result in either excellent clinical results or severe vector-mediated toxicity. Thus, the presence of anti-Ad5 preexisting immunity does not allow accurate dose control and thereby may prevent the universal use of Ad5-based vectors as gene transfer vehicles in humans.Although many strategies are being pursued to avoid vector neutralization (3,5,19,23,41,43), a most viable strategy is the use of rare human adenovirus...
