Parathyroid hormone-related protein modulates the effect of transforming growth factor-beta on deoxyribonucleic acid and collagen synthesis in fetal rat bone cells.

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.

[1]  J. Orloff,et al.  Characterization of canine renal receptors for the parathyroid hormone-like protein associated with humoral hypercalcemia of malignancy. , 1989, The Journal of biological chemistry.

[2]  E. Canalis,et al.  Parathyroid hormone enhances the transcript and polypeptide levels of insulin-like growth factor I in osteoblast-enriched cultures from fetal rat bone. , 1989, Endocrinology.

[3]  A. F. Stewart,et al.  Synthetic parathyroid hormone-like protein-(1-74): biochemical and physiological characterization. , 1989, Endocrinology.

[4]  E. Canalis,et al.  Skeletal tissue and transforming growth factor β , 1988, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[5]  E. C. Weir,et al.  Isolation of 16,000-dalton parathyroid hormone-like proteins from two animal tumors causing humoral hypercalcemia of malignancy. , 1988, Endocrinology.

[6]  A. F. Stewart,et al.  Humoral Hypercalcemia of Cancer , 1988 .

[7]  E. Canalis,et al.  Further biochemical and molecular characterization of primary rat parietal bone cell cultures , 1988, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[8]  E. Canalis,et al.  Parathyroid hormone modulates transforming growth factor beta activity and binding in osteoblast-enriched cell cultures from fetal rat parietal bone. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[9]  J. Hock,et al.  Human parathyroid hormone-(1-34) increases bone mass in ovariectomized and orchidectomized rats. , 1988, Endocrinology.

[10]  E. Canalis,et al.  Effects of basic fibroblast growth factor on bone formation in vitro. , 1988, The Journal of clinical investigation.

[11]  G. Wesolowski,et al.  Comparison of postreceptor effects of 1-34 human hypercalcemia factor and 1-34 human parathyroid hormone in rat osteosarcoma cells. , 1988, The Journal of clinical investigation.

[12]  G. Mundy,et al.  Effects of a synthetic peptide of a parathyroid hormone-related protein on calcium homeostasis, renal tubular calcium reabsorption, and bone metabolism in vivo and in vitro in rodents. , 1988, The Journal of clinical investigation.

[13]  E. Canalis,et al.  Growth factors and the regulation of bone remodeling. , 1988, The Journal of clinical investigation.

[14]  A. F. Stewart,et al.  Synthetic human parathyroid hormone-like protein stimulates bone resorption and causes hypercalcemia in rats. , 1988, The Journal of clinical investigation.

[15]  T. Clemens,et al.  Similarity of synthetic peptide from human tumor to parathyroid hormone in vivo and in vitro. , 1987, Science.

[16]  B. Kemp,et al.  Parathyroid hormone-related protein of malignancy: active synthetic fragments. , 1987, Science.

[17]  G. Strewler,et al.  Parathyroid hormonelike protein from human renal carcinoma cells. Structural and functional homology with parathyroid hormone. , 1987, The Journal of clinical investigation.

[18]  E. Canalis,et al.  Mitogenesis in fetal rat bone cells simultaneously exposed to type β transforming growth factor and other growth regulators , 1987, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[19]  E. Chen,et al.  A parathyroid hormone-related protein implicated in malignant hypercalcemia: cloning and expression. , 1987, Science.

[20]  A. F. Stewart,et al.  N-terminal amino acid sequence of two novel tumor-derived adenylate cyclase-stimulating proteins: identification of parathyroid hormone-like and parathyroid hormone-unlike domains. , 1987, Biochemical and biophysical research communications.

[21]  L. Suva,et al.  Parathyroid hormone-related protein purified from a human lung cancer cell line. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[22]  A. F. Stewart,et al.  Identification of a novel 17,000-dalton parathyroid hormone-like adenylate cyclase-stimulating protein from a tumor associated with humoral hypercalcemia of malignancy. , 1987, The Journal of biological chemistry.

[23]  G. Mundy,et al.  Modulation of type beta transforming growth factor activity in bone cultures by osteotropic hormones. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[24]  E. Canalis,et al.  Transforming growth factor beta is a bifunctional regulator of replication and collagen synthesis in osteoblast-enriched cell cultures from fetal rat bone. , 1987, The Journal of biological chemistry.

[25]  J. Massagué,et al.  The transforming growth factor-β system, a complex pattern of cross-reactive ligands and receptors , 1987, Cell.

[26]  E. Canalis,et al.  Isolation of EGF‐dependent transforming growth factor (TGFβ‐like) activity from culture medium conditioned by fetal rat calvariae , 1987, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[27]  R M Neer,et al.  Restoration of spinal bone in osteoporotic men by treatment with human parathyroid hormone (1–34) and 1,25‐dihydroxyvitamin D , 1986, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[28]  G. Wong Paracrine interactions in bone-secreted products of osteoblasts permit osteoclasts to respond to parathyroid hormone. , 1984, The Journal of biological chemistry.

[29]  J. Heersche,et al.  Parathyroid hormone stimulates the bone apposition rate independently of its resorptive action: differential effects of intermittent and continuous administration. , 1982, Endocrinology.

[30]  E. Canalis,et al.  Hormonal control of bone collagen synthesis in vitro: effects of parathyroid hormone and calcitonin. , 1976, Endocrinology.

[31]  D. V. Cohn,et al.  Target cells in bone for parathormone and calcitonin are different: enrichment for each cell type by sequential digestion of mouse calvaria and selective adhesion to polymeric surfaces. , 1975, Proceedings of the National Academy of Sciences of the United States of America.

[32]  R. Diegelmann,et al.  Use of a mixture of proteinase-free collagenases for the specific assay of radioactive collagen in the presence of other proteins. , 1971, Biochemistry.

[33]  E. Robins,et al.  The fluorometric measurement of deoxyribonucleic acid in animal tissues with special reference to the central nervous system. , 1958, The Journal of biological chemistry.

[34]  E. Canalis,et al.  Insulin-like growth factor I mediates selective anabolic effects of parathyroid hormone in bone cultures. , 1989, The Journal of clinical investigation.

[35]  E. Canalis,et al.  Regulatory effects of insulin-like growth factors I and II on bone collagen synthesis in rat calvarial cultures. , 1989, Endocrinology.

[36]  E. Canalis,et al.  Insulin-like growth factor I has independent effects on bone matrix formation and cell replication. , 1988, Endocrinology.

[37]  L. Raisz BONE RESORPTION IN TISSUE CULTURE. FACTORS INFLUENCING THE RESPONSE TO PARATHYROID HORMONE. , 1965, The Journal of clinical investigation.