Abstract 11243: Novel Peptide for Cardiopulmonary Resuscitation

Abstract

Introduction: While effective for out-of-hospital cardiac arrest, therapeutic hypothermia can be difficult to timely implement clinically. No drugs exist for improving neurologically intact survival. We have developed a novel peptide (TAT-PHLPP) that inhibits PH domain and Leucine rich repeat Protein Phosphatases (PHLPP), leading to Akt activation and mimicking of the protective effects of therapeutic hypothermia without the need of physical cooling. Hypothesis: We hypothesize that when administered intravenously during CPR, TAT-PHLPP improves neurologically intact survival. Methods: We conducted parallel studies in mouse and swine models. In C57BL6 mice (n = 72), we induced a 8 or 12-min asystolic cardiac arrest with KCl, followed by initiation of CPR and blinded randomized administration of TAT-PHLPP (7.5 mg/kg) or saline placebo. The primary outcomes were 4-h and 5-day survival, mean arterial blood pressure (MAP) and cerebral blood flow (CBF). We assessed PHLPP-NHERF1 binding and glucose utilization (via pyruvate dehydrogenase (PDH) phosphorylation and ATP generation). In 16 swine, we induced 5 min of VF followed by ACLS with vest CPR and administered two doses of TAT-PHLPP or saline. Survival (24 h) and neurological function were assessed. Plasma biomarkers taurine and glutamate levels in mice were measured and validated in CA patients (n=68) with a shockable rhythm at the time of hospital arrival, 6, 24, 48, and 72 h post-hospital arrival. Results: In mice, compared to saline, TAT-PHLPP significantly improved 4-h and 5-day survival, increased post-ROSC MAP and CBF, inhibited PHLPP-NHERF1 binding, increased p-Akt, decreased p-PDH (increased activity) at 15 min post-ROSC, enhanced ATP generation in both heart and brain, and reduced plasma taurine and glutamate levels. In swine, TAT-PHLPP improved 24 h neurologically intact survival (1/9 in control vs. 6/7 with peptide, p < 0.01). In patients, taurine levels were higher in non-survivors (n=44) than survivors (n=24) at 6 h of post-hospital arrival (65.9 ± 34.8 vs. 45.6 ±23.7, p< 0.001). Conclusions: TAT-PHLPP has high translational potential as a first-of-class biologic treatment to reproduce critical outcomes of therapeutic hypothermia and improve cardiac arrest survival.