Abstract 474: ERK4-deficiency Potentiates the TAC-induced Increase in Collagen1-α 1 Messenger RNA in Mice

Abstract

Cardiac hypertrophy, a common consequence of cardiopathologies such as hypertension and myocardial infarcts, involves formation of excessive interstitial fibrosis, which may impair cardiac function. Fibroblasts are the primary source of extracellular matrix protein. Extracellular-regulated kinase 4 (ERK4) is an atypical mitogen-activated protein kinase (MAPK). The regulation and role of ERK4 in the heart are currently unidentified and its only known target is MAP kinase-activated protein kinase 5 (MK5), a kinase involved in regulating fibroblast function. Following constriction of the transverse aorta (TAC), MK5 haplodeficient mice showed an attenuation of the TAC-induced increase in collagen 1-α 1 mRNA at 2-wk post-TAC and reduced hypertrophy 8-wk post-TAC. Further studies revealed MK5 immunoreactivity in cardiac fibroblasts but not myocytes. MK5 immunoprecipitates from whole heart contain ERK3 immunoreactivity, but not that of ERK4 or p38 MAPK. This study was to examine the role of ERK4 in myocardial structure, function, and remodeling 3-wk post-TAC. At 12 wk of age, echocardiographic imaging revealed systolic and diastolic function in male ERK4 -/- mice were similar to wild-type littermates (ERK4 +/+ ). Three weeks post-TAC, hypertrophy was similar in ERK4 +/+ and ERK4 -/- mice. Transcripts for BNP and βMHC increased to similar extent in TAC- ERK4 +/+ and TAC- ERK4 -/- mice. Two-way ANOVA indicated that ERK4 deficiency altered the effect of TAC on TGFβ 1 and collagen 1-α 1 transcript levels with each being higher in TAC-ERK4 -/- mice. Furthermore, MK5 immunoprecipitates from cardiac fibroblast lysates did not contain ERK4 immunoreactivity. Additional experiments revealed the presence of ERK4 immunoreactivity in myocytes but not fibroblasts. These results suggest 1) ERK4 may be involved in myocyte - fibroblast communication during myocardial remodeling and 2) in cardiac myocytes, ERK4 is part of a novel signaling cascade that does not involve MK5.