Enhancing and Limiting Endothelin‐1 Signaling with a Cell‐penetrating Peptide Mimicking the Third Intracellular Loop of the ETB Receptor

Abstract

TAT (a 13-mer derived from the HIV-1 Tat protein)-linked cell-permeable peptides deliver plasma membrane impermeable cargos into the cell. We investigated the effect of a TAT-linked intracellular third loop of the endothelin-1 type B receptor on endothelin-1 activation of ERK. The effect of this peptide on ERK activation was determined in ETB receptor cDNA-transfected Chinese hamster ovary cells and in ETA- and ETB-expressing human pulmonary artery smooth muscle cells obtained from a normal and a bone morphogenetic protein-2 receptor, exon 1-8 deletion subject, with pulmonary hypertension. In the Chinese hamster ovary cells the peptide, at optimum 10 μm concentration, suppressed endothelin-1 activation. In the normal human pulmonary artery smooth muscle cells, the peptide marginally enhanced endothelin-1 activation of ERK. However, it markedly enhanced the endothelin-1 activation of ERK in the bone morphogenetic protein-2 receptor human pulmonary artery smooth muscle cells. While the effective concentration for endothelin-1 activation of ERK remained unchanged in the bone morphogenetic protein-2 receptor human pulmonary artery smooth muscle cells, the number of ETB receptors declined by 2/3. These data point to the intracellular third loop peptide as having variable receptor interactive effects with both signal repressive and enhancing capabilities. Peptides that can alter endothelin-1 signal capabilities are potentially important in the study and treatment of pulmonary hypertension.