Abstract

Co-stimulatory blockade combined with donor bone marrow transfusion engenders stable mixed chimerism and robust tolerance to various organ and cell transplants. However, repeated administration of costly agents to block the co-stimulatory pathway and the high doses of donor bone marrow cells (BMCs) used in most protocols are impeding clinical development of this strategy. To circumvent these shortcomings, we developed a plan in which repeated administration of costly agents was replaced by a single injection of adenovirus containing the gene of interest, and the high dose of donor BMCs replaced by a mixture of low-dose donor BMCs and splenocytes (SPLCs). Cardiac allografts from DA(RT-1 a) rats were transplanted heterotopically into the abdomens of LEW(RT-1 1) rats. A cocktail of adenovirus containing CTLA4Ig gene (AdCTLA4Ig), donor BMCs (100 × 10 6), and SPLCs (50 × 10 6) was administered to recipients via the portal vein immediately after grafting (n = 6). Treatment with regimens, including AdCTLA4Ig only, AdCTLA4Ig plus donor BMCs, and AdCTLA4Ig plus donor SPLCs, significantly prolonged cardiac allograft survival in recipient rats, while animals that received no treatment or treatment with control adenovirus (AdLacZ) promptly rejected their allografts. Nevertheless, LEW recipients treated with AdCTLA4Ig and the mixture of a low dose of donor BMCs and SPLCs developed stable mixed chimerism, rendering them long-term survivors of cardiac allografts that also accepted skin grafts from the donor but not the third-party strain. We conclude that blockade of CD28-B7 pathway with AdCTLA4Ig plus a mixture of low doses of donor BMCs and SPLCs is a feasible strategy to induce long-term mixed chimerism with a potential application for clinical development.

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