Empty Capsids and Macrophage Inhibition/Depletion Increase rAAV Transgene Expression in Joints of Both Healthy and Arthritic Mice.

Gene therapy has potential to treat rheumatic diseases; however, the presence of macrophages in the joint might hamper adeno-associated viral vector-mediated gene delivery. Here we demonstrate that in arthritic, but also in healthy, mice administration of agents that influence macrophage activity/number and/or addition of empty decoy capsids substantially improve the efficacy of recombinant adeno-associated viral vector 5 transgene expression in the joint. Pretreatment with triamcinolone or clodronate liposomes improved luciferase expression over a period of 4 weeks. Similar results were seen when empty decoy capsids were added to full genome containing capsids in a 5:1 ratio. In a study to assess the duration of expression as well as to investigate the combination of these two approaches, we observed a synergistic enhancement of gene expression, sustained for at least 12 weeks. The enhancement of gene expression was independent of the route of administration of triamcinolone (intra-articular or intramuscular). In healthy mice it was demonstrated that the combination improved expression of the transgene significantly, in a serotype independent manner. These data have implications for future applications of gene therapy to the joint and for other tissues with an abundance of macrophages.

Safety, Biodistribution, and Efficacy of an AAV-5 Vector Encoding Human Interferon-Beta (ART-I02) Delivered via Intra-Articular Injection in Rhesus Monkeys with Collagen-Induced Arthritis.

Preclinical studies to assess biodistribution, safety, and initial efficacy of ART-I02, an adeno-associated type 5 (rAAV5) vector expressing human interferon ß (hIFN-ß), were performed in a total of 24 rhesus monkeys with collagen-induced arthritis. All monkeys were naïve or showed limited neutralizing antibody (Nab) titers to AAV5 at the start of the study. Animals were injected with a single intra-articular dose of ART-I02 or placebo, consisting of 3.2×10(13) vg (Dose A=maximum feasible dose), 4.58×10(12) vg (Dose B), or placebo in the first affected finger joint, the ipsilateral knee, and ankle joint at the same time point. Animals were monitored for clinical parameters and well-being with a maximum of 4 weeks, with the option that the severity of arthritis could necessitate an earlier time point of sacrifice. No adverse events were noted after injection of ART-I02. No abnormalities were observed after histological evaluation of all organs. At both dose levels, immunohistochemical staining indicated expression of hIFN-ß. In animals injected with Dose A, we observed stabilization or a reduction in swelling in the finger joint in which vector was administered. The highest copy numbers of vector DNA were detected in synovial tissue of the injected joint and the draining lymph node of the injected knee. High titers of Nab to rAAV5 were observed at the end of the study. Five monkeys developed an rAAV5-specific T-cell response. Two monkeys developed Nab to hIFN-ß. In conclusion, intra-articular injection of ART-I02 was well-tolerated and did not induce adverse events. After administration of Dose A of ART-I02, we observed a beneficial effect on joint swelling, substantiated by decreased histological inflammation and bone erosion scores. A GMP vector for clinical application has been manufactured and is currently being tested in GLP rodent studies, with the aim to move forward to a clinical trial.