Six-month Daily Administration of Parathyroid Hormone and Parathyroid Hormone-related Protein Peptides to Adult Ovariectomized Rats Markedly Enhances Bone Mass and Biomechanical Properties: a Comparison of Human Parathyroid Hormone 1-34, Parathyroid...

Overview

Journal J Bone Miner Res

Publisher Oxford University Press

Date 2000 Aug 10

PMID 10934650

Citations 33

Authors

A F Stewart

R L Cain

D B Burr

D Jacob

C H Turner

J M Hock

Affiliations

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Abstract

Daily administration of parathyroid hormone (PTH) and PTH-related protein (PTHrP) peptides has been shown to increase bone mass and strength in animals and, for PTH, to increase bone mass in humans. Long-term direct comparison of multiple members of the PTH/PTHrP family in vivo has not been reported. We therefore selected three PTH/PTHrP molecules for direct comparison in vivo in an adult rat model of postmenopausal osteoporosis: PTH(1-34), PTHrP(1-36), and the PTH analog, SDZ-PTH 893 ¿Leu8, Asp10, Lys11, Ala16, Gln18, Thr33, Ala34 human PTH 1-34 [hPTH(1-34)]¿. A 6-month study was performed in which adult (6-month-old) vehicle-treated ovariectomized (OVX) and sham OVX rats were compared with OVX rats receiving 40 micrograms/kg per day of either PTH(1-34), PTHrP(1-36), or PTH-SDZ-893. Bone mass, as assessed by ash weight and densitometry, bone histomorphometry, biomechanical properties at trabecular and cortical sites, and indices of bone formation markedly increased in all three PTH/PTHrP peptide-treated groups as compared with controls. In general, this improvement followed a rank order of SDZ-PTH-893 > PTH > PTHrP. The adverse effect profile also was greatest with SDZ-PTH-893; these rats developed moderate hypercalcemia, marked renal calcium accumulation, and displayed a 13% mortality. These studies show that PTH(1-34), PTHrP(1-36), and PTH-SDZ-893 significantly and progressively increase bone mass and bone strength in this rat model of postmenopausal osteoporosis. The adverse effect profile correlates in general terms with efficacy. All three peptides show promise as skeletal anabolic agents. Further studies in humans will be required to define optimal efficacy-to-adverse effect ratios and relative efficacy for each peptide in human osteoporosis.

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