Abstract
G-protein coupled receptor (GPCR) mediated activation of the MAPK signalling cascade is a key pathway in the induction of hypertrophic remodelling of the heart – a response to pathological cues including hypertension and myocardial infarction. While levels of pro-hypertrophic hormone agonists of GPCRs increase during periods of greater workload to enhance cardiac output, hypertrophy does not necessarily result. Here we investigated the relationship between the duration of exposure to the pro-hypertrophic GPCR agonist endothelin-1 (ET-1) and the induction of hypertrophic remodelling in neonatal rat ventricular myocytes (NRVM) and in the adult rat heart in vivo. Notably, a 15min pulse of ET-1 was sufficient to induce markers of hypertrophy that were present when measured at 24h in vivo and 48h in vitro. The persistence of ET-1 action was insensitive to ET type A receptor (ETA receptor) antagonism with BQ123. The extended effects of ET-1 were dependent upon sustained MAPK signalling and involved persistent transcription. Inhibitors of endocytosis however conferred sensitivity upon the hypertrophic response to BQ123, suggesting that endocytosis of ETA receptors following ligand binding preserves their active state by protection against antagonist. Contrastingly, α1 adrenergic-induced hypertrophic responses required the continued presence of agonist and were sensitive to antagonist. These studies shed new light on strategies to pharmacologically intervene in the action of different pro-hypertrophic mediators.
Highlights
Cardiovascular diseases (CVD) are a leading cause of mortality, accounting for 40% of deaths in males and 49% of deaths in females in Europe [1]
Consistent with its use as a surrogate marker of hypertrophy increased in patients with cardiac disease and in animal models of hypertrophy [36,37], the expression of atrial natriuretic factor (ANF) mRNA and protein was markedly upregulated following ET-1 exposure (Fig. 1D, Ei and Eii)
All of these effects of ET-1 upon Neonatal rat ventricular myocytes (NRVMs) were inhibited by application of the ETA receptor antagonist, BQ123 (1 μM), which was applied 60 min prior to and during ET-1
Summary
Cardiovascular diseases (CVD) are a leading cause of mortality, accounting for 40% of deaths in males and 49% of deaths in females in Europe [1]. Cardiac remodelling subsequent to pathological cues, often associated with increased afterload, is maladaptive. It is characterised by an increase in wall thickness without an increase in chamber volume (concentric hypertrophy) and is a prequel to heart failure. Pathological hypertrophy is characterised by a re-expression of a foetal gene programme that includes natriuretic peptides, ANF (NPPA) and BNP (NPPB) and a decrease in expression of the adult α isoform of myosin heavy chain α-MHC (MYH6) relative to the foetal isoform, β-myosin heavy chain; β-MHC (MYH7). Physiological hypertrophy does not lead to foetal gene programme induction and involves an increase
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