Abstract
Ventricular cardiomyocytes have been identified as target cells for parathyroid hormone (PTH). A structurally related peptide hormone, parathyroid hormone-related peptide (PTH-rP), is expressed in the heart. In the present study, it was investigated whether PTH-rP can mimic or modify effects of PTH on cardiomyocytes. The investigated effect was induction of creatine kinase (CK) activity, which is associated with cardiac hypertrophy. PTH and PTH-rP have a similar secondary structure within the active domain 28 34, with exception of amino acid 29. At this position the hydrophilic glutamine in the PTH molecule corresponds to hydrophobic alanine in the PTH-rP molecule. Synthetic PTH or PTH-rP peptides covering domain 28 34 and recombinant full-length PTH(1 84) were used. PTH(28 48) (100 nm) induced CK activity within 24 h (123 +/- 3%; means +/- S.D., n = 4). PTH-rP(7-34) (1 nm to 1 microm) failed to induce CK activity in cardiomyocytes. Given simultaneously, PTH-rP (1 mum) reduced the stimulation of CK activity by PTH(1-84), PTH(1-34), and PTH(28-48) by 94 +/- 9, 79 +/- 8, and 69 +/- 14%, respectively (means +/- S.D., n = 4). In contrast, PTH-rP(7-34) was sufficient to stimulate proliferation of chicken chondrocytes. Thus, PTH-rP exerts different effects on cardiomyocytes and classical target cells for PTH. A synthetic hybrid peptide was synthesized, [Ala29]PTH(28-48), in which alanine replaced glutamine at position 29, as in the PTH-rP molecule. In contrast to PTH(28-48), this mutated peptide [Ala29]PTH(28-48) had no intrinsic activity but antagonized the effect of PTH(1-84) and PTH(28-48) on cardiomyocytes. The results demonstrate that on cardiomyocytes the effect of PTH can be antagonized by PTH-rP. This antagonism seems due to a hydrophobic replacement at position 29.
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