Parathyroid hormone-related protein modulates the effect of transforming growth factor-beta on deoxyribonucleic acid and collagen synthesis in fetal rat bone cells.
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Proteins with biochemical function and sequence similarity to PTH are produced by many tumors associated with hypercalcemia and may have a role in pathological bone remodeling. Synthetic polypeptides comprising the amino-terminus of human PTH-related protein (PTH-rp) were examined for effects in intact fetal rat calvariae, and in osteoblast-enriched (ob) cultures isolated from fetal rat parietal bone. In cultured calvariae, 0.5-5 nM PTH-rp stimulated [3H]thymidine incorporation into DNA by 25-70% after 24 h of treatment and decreased relative [3H]proline incorporation into collagen by 50%; the inhibitory effect on collagen production was not altered by hydroxyurea, which decreased DNA synthesis by 85%. PTH-rp also increased [3H]hydroxyproline levels by 100% in culture medium from bones prelabeled with [3H]proline, indicating accelerated matrix turnover. In contrast to results in intact calvariae, PTH-rp had little effect on basal DNA and collagen synthesis in serum-deprived ob cultures. However, when ob cultures were treated with transforming growth factor type beta at concentrations similar to those found in calvarial culture medium, 0.02-2 nM PTH-rp enhanced DNA synthesis and decreased collagen production. Furthermore, equimolar PTH-rp and PTH concentrations similarly displaced 125I-PTH-rp binding and enhanced cAMP synthesis in ob cultures. These studies suggest that PTH-rp regulates osteoblastic cell activity primarily through PTH-related pathways and may act in part by modulating the effects of locally produced transforming growth factor-beta in bone.