Abstract Body: Background: Sinoatrial node (SAN) dysfunction is a clinical disorder characterized by the inability of the SAN to maintain an appropriate heart rate (HR). Patients with this condition often need an electronic pacemaker. Although it is the current standard of care, devices can have complications. A biological pacemaker has been created by adenovirus expressing TBX18 as an alternative.

Hypothesis: However, adenoviruses are immunogenic, limiting the duration of expression. We hypothesized that an AAV9 would promote prolonged TBX18 expression, induce somatic reprogramming in vivo, and sustained pacemaker activity.

Methods: AAV9 containing GFP or TBX18 was directly injected into the myocardium of eight-week-old male Sprague Dawley rats (n=70) at low (1x10⁹ GC), mid (1x10¹⁰ GC) and high (1x10¹¹ GC) doses. Transient AV block was induced by tail vein injection of adenosine. A permanent complete AV block was induced by ablation of the his bundle. Hearts were harvested for optical mapping and mRNA analysis.

Results: Six weeks after injection, all doses of AAV9-TBX18 had increased HR (low: 104±4, p=0.04; mid: 106±3.4, p=0.008; high: 103±4.1, p=0.04; vs GFP: 89±3 bpm) compared to AAV9-GFP when we induced AV block using adenosine. AAV9-GFP and -TBX18 mid dose injected rats underwent surgery to induce complete AV block. TBX18 group presented superior HR over the 24 hours monitored. 6-lead EKG analysis of the QRS axis in the frontal plane revealed that the ventricular ectopic beats from the AAV9-TBX18-injected group originated from the injection site. Activation maps further confirmed that the injection site originated those beats in TBX18-injected rats only. Successful reprogramming of adult ventricular myocytes into SAN-like cells was confirmed by transcriptional profiles with increased expression of TBX18 (2.2±0.5 FC, p<0.0001) and Hcn2 (25.2±1.1 FC, p=0.02), and reduced Gja1 (-10.8±0.7 FC, p=0.005), Scn5a (-1.1±0.8 FC, p=0.01) and Nkx2.5 (-2.0±0.6 FC, p=0.004) relative to GFP.

Conclusion: Collectively, these data indicate that the AAV-based somatic reprogramming induced by TBX18 leads to sustained biological pacemaker activity in rats with AV block. Long-term studies are needed to characterize the long-term effects of sustained TBX18 expression.