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Expression and Signaling of Parathyroid Hormone-Related Protein in Cultured Podocytes
Abstract
Podocyte function appears to be regulated by vasoactive factors. In vivo podocytes express parathyroid hormone-related protein (PTHrP), the N-terminal fragment of which has vasoactive properties. Since the signaling pathway(s) of PTHrP(1–36) are unknown in podocytes, differentiated cells of a conditionally immortalized mouse podocyte cell line were studied. Gene expression of PTHrP and the PTH/PTHrP receptor was investigated by RT-PCR; protein distribution of PTHrP was examined by immunofluorescence. Accumulation of cAMP was determined by an enzyme immunoassay; [Ca<sup>2+</sup>]<sub>i</sub> was measured by fura-2 ratio imaging. PTHrP and PTH/PTHrP receptor mRNA was detected in differentiated podocytes. Immunoreactive PTHrP exhibited a granular distribution in the cytoplasm of differentiated podocytes. With regard to the signaling pathway(s) of PTHrP(1–36), a concentration-dependent increase of cAMP levels with an EC<sub>50</sub> value of 4 ± 2 n M was found. PTHrP(1–36) (1 µ M) increased cAMP levels 5.5 ± 1.1-fold above baseline as compared with a 25.4 ± 4.2-fold increase in response to forskolin (10 µ M). The PTH/PTHrP receptor antagonist PTHrP(7–34) significantly diminished the PTHrP(1–36)-induced cAMP increase. While superfusion of podocytes with bradykinin (100 n M) increased [Ca<sup>2+</sup>]<sub>i</sub>, PTHrP(1–36) (100 n M) was without effect on [Ca<sup>2+</sup>]<sub>i</sub>. However, PTHrP(1–36) attenuated the bradykinin-induced increase in [Ca<sup>2+</sup>]<sub>i</sub>. Our results suggest that PTHrP is an autocrine hormone in podocytes, which selectively activates the cAMP pathway through the PTH/PTHrP receptor.
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Most cited references6
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Opposing mitogenic and anti-mitogenic actions of parathyroid hormone-related protein in vascular smooth muscle cells: a critical role for nuclear targeting.
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Parathyroid Hormone and Parathyroid Hormone-related Peptide Inhibit the Apical Na+/H+Exchanger NHE-3 Isoform in Renal Cells (OK) via a Dual Signaling Cascade Involving Protein Kinase A and C
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