Abstract 187: Identification of Cardiac-specific Downstream Substrates of Protein Kinase G I as Potential Novel Anti Cardiac Remodeling Targets

Abstract

We recently reported that mutation of the cGMP-dependent Protein Kinase G I alpha (PKGIα) N-terminal leucine zipper (LZ) domain (in the PKGIα LZ mutant, or LZM, mouse) accelerates LV remodeling and heart failure after TAC, and prevents the anti-remodeling effect of sildenafil. We therefore hypothesized that PKGIα attenuates remodeling by regulating cardiac signaling pathways that are dependent on substrate interactions mediated by its LZ domain. As a first step to identifying cardiac proteins downstream of PKGIα, we screened myocardial lysates for PKGIα LZ domain-interacting proteins. Our previous work revealed a requirement for the PKGIα LZ domain for the activation of anti-remodeling myocardial JNK activity after LV pressure overload. MLK3 is an MAPKKK that contains an LZ domain and activates JNK. We now demonstrate, by immunoprecipitation, that MLK 3 interacts with the PKGIα LZ domain in myocardial lysates. We show further that 8-Br-cGMP induces MLK3 phosphorylation on Threonine 277 and Serine 281 in WT, but not LZM myocardial lysates. And, in 293 cells transfected with FLAG-MLK3, 8Br-cGMP induced PKGIα-MLK3 co-precipitation, and increased phosphorylation of MLK3 on Thr277/Ser281. Co-transfection of MLK3 and PKGIα also induced MLK3 phosphorylation at the same sites. We next examined the cardiovascular effect of MLK3 deletion in vivo. Male 8 week old MLK3 -/- mice display basal bi-ventricular hypertrophy compared with littermate controls (LV/Tibia length 42.8 + 0.6 mg/cm in WT, 52.9 + 1.8 in MLK3 -/-; P <0.01; RV/TL 10.8 + 0.1 mg/cm in WT, 13.3 + 0.3 in MLK3 -/-; P <0.01; n= 7 WT, 5 MLK3 -/-). By 14-16 weeks of age, LVH progressed in the MLK3 -/- mice (LV/TL 47.7 + 1.3 mg/cm in WT, 59.8 + 7.5 in MLK3-/-; n= 6 WT, 9 MLK3-.-; P <0.01). Arterial blood pressure was modestly increased, though still normal, in the MLK3 -/- mice (SBP 93 + 1 in WT, 113 + 1 in MLK3 -/-). And, 14-16 week MLK3 -/- mice have impaired LV diastolic function (tau 3.2 + 0.1 ms WT, 3.7 + 0.1 MLK3-/-; P 0.06). Our studies reveal a previously unknown function of MLK3 as a myocardial PKGIα effector and inhibitor of LVH. Together these results support the strategy of exploring LZ-dependent PKGIα substrates in the myocardium to identify novel therapeutic targets for cardiac remodeling.