We have developed a replication-competent adenovirus (Ad5-yCD/mutTK(SR39)rep-hNIS) armed with two suicide genes and the human sodium iodide symporter (hNIS) gene. In this context, hNIS can be used as a reporter gene in conjunction with nuclear imaging and as a potentially therapeutic gene when combined with (131)I radioiodine therapy. Here, we quantified the volume and magnitude of hNIS gene expression in the human prostate following injection of a high Ad5-yCD/mutTK(SR39)rep-hNIS dose using a standardized injection algorithm, and estimated the radiation dose that would be delivered to the prostate had men been administered (131)I with curative intent. Six men with clinically localized prostate cancer received an intraprostatic injection of Ad5-yCD/mutTK(SR39)rep-hNIS under transrectal ultrasound guidance. All men received 2 × 0.5 ml deposits (5 × 10(11) vp/deposit) in each of the four base and midgland sextants and 2 × 0.25 ml deposits (2.5 × 10(11) vp/deposit) in each of the two apex sextants for a total of 12 deposits (5 × 10(12) vp) in 5 ml. On multiple days after the adenovirus injection, men were administered sodium pertechnetate (Na(99m)TcO(4)) and hNIS gene expression in the prostate was quantified by single photon emission computed tomography (SPECT). hNIS gene expression was detected in the prostate of six of six (100%) men. On average, 45% (range 18-83%) of the prostate volume was covered with gene expression. Had men been administered 200 mCi (131)I, we estimate that the mean absorbed dose to the prostate would be 7.2 ± 4.8 Gy (range 2.1-13.3 Gy), well below that needed to sterilize the prostate. We discuss the obstacles that must be overcome before adenovirus-mediated hNIS gene transfer and (131)I radioiodine therapy can be used as a definitive treatment for localized prostate cancer.