Antisense Bcl-x oligonucleotide induces apoptosis and prevents arterial neointimal formation in murine cardiac allografts

Objective: Cardiac allograft arteriosclerosis, which limits long-term survival of recipients, cannot be prevented by conservative therapies. The arteriopathy is characterized by diffuse intimal thickening comprised of proliferative smooth muscle cells (SMCs). Cell death is a prominent feature of atherosclerosis; Bcl-x is one of the anti-apoptotic mediators. Methods: To test the hypothesis that antisense bcl-x oligodeoxynucleotide (ODN) is effective in preventing intimal hyperplasia through enhancing apoptosis after cardiac transplantation, we performed single intraluminal delivery of antisense bcl-x ODN into murine cardiac allografts ( n =9). DBA/2 (H-2d) hearts were transplanted into B10.D2 (H-2d) mice. Sense bcl-x ODN ( n =8) and no treatment ( n =8) studies were also performed. Results: Allografts were harvested at 4 weeks after transplantation; all allografts kept beating throughout the period. Coronary intimal thickening had developed in nontreated and sense ODN transfected allografts at 4 weeks after transplantation with enhanced expression of Bcl-x and cell adhesion molecules, and suppressed apoptosis. However, antisense bcl-x ODN prevented neointimal formation through enhanced apoptosis. Conclusion: These results indicate that apoptosis of vascular SMCs induced by Bcl-x is associated with initial hyperplasia after heart transplantation. Antisense bcl-x ODN inhibits SMC proliferation by inducing apoptosis in graft coronary arteries.