Abstract P1048: Dual Myristic Acid And Trans Activator Of Transcription Conjugated Peptide Facilitates Delivery Of Protein Kinase C Beta II Peptide Inhibitor To Attenuate Myocardial Ischemia/Reperfusion Injury

Abstract

Peptides conjugated to myristic acid (myr) or trans activator of transcription (tat) have long been used to increase cell permeability via simple diffusion and endocytosis, respectively. Previously myr-PKCβII inhibitor (myr-PKCβII-) exerted cardioprotective effects in myocardial ischemia/reperfusion (I/R) and inhibited superoxide (SO) release from rat leukocytes by 40% (20 μM). By contrast, dual conjugated myr-tat-PKCβII inhibitor (myr-tat-PKCβII-) inhibited SO release by 90% at the same concentration. The purpose of this study was to determine the potency of myr-tat-PKCβII- compared to myr-PKCβII- in mitigating infarct size and restoring cardiac function in an ex-vivo rat model of myocardial I/R injury. Isolated hearts from male Sprague-Dawley rats (~300g) were subjected to global I(30-min)/R(50-min) . Left ventricular cardiac function was recorded using a pressure transducer. Treatments were infused during the first 5 min of R. After R, the hearts were sectioned (2 mm) from base to apex and stained with 1% triphenyltetrazolium chloride. Infarcted tissue was excised to determine infarct size (i.e. infarct tissue weight/ total tissue weight). Data were analyzed using ANOVA Fisher’s LSD analysis. Compared to untreated controls (23.2±3.1%, n=17), myr-tat-PKCβII- exerted a significant and similar decrease in infarct size that was observed from 100 nM (9.7±0.59%, n=3, p<0.05), 1 nM (10.0±2.3%, n=5, p<0.05), to 100 pM (12.6±2.3%, n=5, p<0.05); but not at 10 nM (13.8±3.6%, n=5). Cardiac function for all treatment groups did not significantly improve from control. However, at 100pM (1070±170 mmHg/s), +dP/dt max was significantly improved compared to all other treatment groups (p<0.05). The addition of myr to tat-conjugated peptides improved the cardioprotective effects ~200-fold compared to myr-PKCβII- and ~2000-fold compared to native peptide presumably by enhanced intracellular delivery of cargo. The ~50% reduction in infarct size suggests that myr-tat-PKCβII- is cardioprotective in I/R. Future studies will test our most effective dose determined in ex vivo hearts to restore post-reperfusion cardiac function combined with significant cardiac salvaging effect (reduced infarct size) in a porcine myocardial I/R model.