TY - JOUR
T1 - Truncation of the amino terminus of PTH alters its anabolic activity on bone in vivo
AU - Hilliker, S.
AU - Wergedal, J. E.
AU - Gruber, H. E.
AU - Bettica, P.
AU - Baylink, D. J.
N1 - Funding Information:
Acknowledgments: This study was supported by a research grant from Sandoz Pharmaceuticals Inc. and from the Veterans’ Administration. The authors thank investigators in Mineral Metabolism for helpful discussions, D. Glass for technical assistance, and Dr. T. Ohta, Dr. Y. Nakao, Dr. A. Taylor, S. Leuken, and B. Barr for participation in the animal studies. S.H. thanks her co-authors for their many contributions to this project and their assistance in the preparation of this manuscript. She also acknowledges Dr. R. Finkelman for his advice on the preparation and use of PTH in in vitro studies and M. Campbell-Beachler for her instruction in bone cell culture. H.E.G. thanks Dr. E. N. Hartley, Jr. for his support and encouragement.
PY - 1996
Y1 - 1996
N2 - In vitro studies of parathyroid hormone (PTH) structure and function have suggested that the anabolic effect of PTH on bone requires the presence of amino acid residues 28-34 (domains for protein kinase C activation and mitogenic activity), but not amino acid residues 1-7 (adenylate cyclase activation domain). We have tested this hypothesis with in vivo studies of human PTH (hPTH) analogs. Serum biomarkers and selected histomorphometric parameters of bone formation and resorption were assessed in adult, female, Sprague-Dawley rats following 19 daily injections of vehicle, 10 μg/kg body weight (bw) of hPTH(1-38), or a dose range of 10,40, and 100 μg/100 g bw of hPTH(2-38) or hPTH(3-38). Treatment with hPTH(1-38) increased serum osteocalcin, the percentage of osteoblast surface, percentage of osteoid surface, percentage of bone volume, trabecular thickness, and bone formation rate, while it decreased the percentage of osteoclast surface. The hPTH(2-38) fragment exhibited 10%-25% of the in vivo anabolic activity of hPTH(1-38), while it had no effect on the percentage of osteoclast surface. The hPTH(3-38) fragment exhibited no biological activity on bone. In contrast, serum INS-PTH (intact-N-terminal specific PTH) levels were similarly and significantly increased above control in rats treated with hPTH(1-38), hPTH(2-38), or hPTH(3-38) at the same dose. This preliminary finding suggests that the differential activity of these peptides on bone is not due to differences in the circulating level of immunoreactive PTH (intact and amino-terminal fragments of PTH from endogenous and exogenous sources) several hours after PTH injection. However, we can draw no conclusion regarding the relative clearance rates of these peptides. Last, because hPTH(3-38) was without any detectable biological activity on rat bone in vivo, its mitogenic activity was confirmed in two osteoblast-like cell lines. In summary, the anabolic effect of hPTH(1-38) on bone in vivo was (1) diminished by removal of amino acid residue 1, and (2) abolished by the removal of amino acid residues 1 and 2. Although these findings suggest that the therapeutic benefits of exogenous PTH administration may depend upon activation of not only protein kinase C, but also adenylate cyclase, they do not rule out a differential PTH response due to other causes, e.g., metabolic inactivation.
AB - In vitro studies of parathyroid hormone (PTH) structure and function have suggested that the anabolic effect of PTH on bone requires the presence of amino acid residues 28-34 (domains for protein kinase C activation and mitogenic activity), but not amino acid residues 1-7 (adenylate cyclase activation domain). We have tested this hypothesis with in vivo studies of human PTH (hPTH) analogs. Serum biomarkers and selected histomorphometric parameters of bone formation and resorption were assessed in adult, female, Sprague-Dawley rats following 19 daily injections of vehicle, 10 μg/kg body weight (bw) of hPTH(1-38), or a dose range of 10,40, and 100 μg/100 g bw of hPTH(2-38) or hPTH(3-38). Treatment with hPTH(1-38) increased serum osteocalcin, the percentage of osteoblast surface, percentage of osteoid surface, percentage of bone volume, trabecular thickness, and bone formation rate, while it decreased the percentage of osteoclast surface. The hPTH(2-38) fragment exhibited 10%-25% of the in vivo anabolic activity of hPTH(1-38), while it had no effect on the percentage of osteoclast surface. The hPTH(3-38) fragment exhibited no biological activity on bone. In contrast, serum INS-PTH (intact-N-terminal specific PTH) levels were similarly and significantly increased above control in rats treated with hPTH(1-38), hPTH(2-38), or hPTH(3-38) at the same dose. This preliminary finding suggests that the differential activity of these peptides on bone is not due to differences in the circulating level of immunoreactive PTH (intact and amino-terminal fragments of PTH from endogenous and exogenous sources) several hours after PTH injection. However, we can draw no conclusion regarding the relative clearance rates of these peptides. Last, because hPTH(3-38) was without any detectable biological activity on rat bone in vivo, its mitogenic activity was confirmed in two osteoblast-like cell lines. In summary, the anabolic effect of hPTH(1-38) on bone in vivo was (1) diminished by removal of amino acid residue 1, and (2) abolished by the removal of amino acid residues 1 and 2. Although these findings suggest that the therapeutic benefits of exogenous PTH administration may depend upon activation of not only protein kinase C, but also adenylate cyclase, they do not rule out a differential PTH response due to other causes, e.g., metabolic inactivation.
KW - Bone formation
KW - Bone resorption
KW - INS-PTH
KW - Osteoporosis
KW - PTH analog
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U2 - 10.1016/S8756-3282(96)00230-X
DO - 10.1016/S8756-3282(96)00230-X
M3 - Article
C2 - 8922645
SN - 8756-3282
VL - 19
SP - 469
EP - 477
JO - Bone
JF - Bone
IS - 5 SUPPL.
ER -