Pulmonary inflammation is a major obstacle to using adenovirus-based vectors for gene transfer to the lung. Since the pro-inflammatory cytokine, interleukin-1 (IL-1), is expressed early following adenovirus infection, we hypothesized that inhibition of IL-1 might block the inflammation caused by adenoviral vectors. To inhibit IL-1 activity at the site of infection continuously, we employed a recombinant adenovirus that contained the cDNA for human IL-1 receptor antagonist protein (IL-1ra) designated as Ad.RSVIL-1ra. When Ad.RSVIL-1ra was instilled intratracheally into CBA/J mice, human IL-1ra was recovered in lung tissue and bronchoalveolar lavage fluid for up to 30 days. Human IL-1ra is known to bind to murine IL-1 receptors and inhibit IL-1-mediated responses. To measure pulmonary inflammation, the number of inflammatory cells contained within suspensions of protease-digested lung tissue were counted 6 days after virus administration. Ad.RSVIL-1ra failed to reduce the number of inflammatory cells below that induced by a control vector that lacked an expression cassette (Ad.BgIII). Light microscopy showed that the lung tissue from Ad.RSVIL-1ra and Ad.BgIII-treated mice contained qualitatively similar amounts of inflammatory infiltrate. We conclude that adenovirus-based vectors can be used to induce high levels of IL-1ra expression within the lung, but such expression was unable to prevent adenoviral vector-induced inflammation.