Osteoblast-derived PTHrP is a potent endogenous bone anabolic agent that modifies the therapeutic efficacy of administered PTH 1–34
Dengshun Miao, … , David Goltzman, Andrew C. Karaplis
Dengshun Miao, … , David Goltzman, Andrew C. Karaplis
Published September 1, 2005
Citation Information: J Clin Invest. 2005;115(9):2402-2411. https://doi.org/10.1172/JCI24918.
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Research Article Bone biology

Osteoblast-derived PTHrP is a potent endogenous bone anabolic agent that modifies the therapeutic efficacy of administered PTH 1–34

Abstract

Mice heterozygous for targeted disruption of Pthrp exhibit, by 3 months of age, diminished bone volume and skeletal microarchitectural changes indicative of advanced osteoporosis. Impaired bone formation arising from decreased BM precursor cell recruitment and increased apoptotic death of osteoblastic cells was identified as the underlying mechanism for low bone mass. The osteoporotic phenotype was recapitulated in mice with osteoblast-specific targeted disruption of Pthrp, generated using Cre-LoxP technology, and defective bone formation was reaffirmed as the underlying etiology. Daily administration of the 1–34 amino-terminal fragment of parathyroid hormone (PTH 1–34) to Pthrp+/– mice resulted in profound improvement in all parameters of skeletal microarchitecture, surpassing the improvement observed in treated WT littermates. These findings establish a pivotal role for osteoblast-derived PTH-related protein (PTHrP) as a potent endogenous bone anabolic factor that potentiates bone formation by altering osteoblast recruitment and survival and whose level of expression in the bone microenvironment influences the therapeutic efficacy of exogenous PTH 1–34.

Authors

Dengshun Miao, Bin He, Yebin Jiang, Tatsuya Kobayashi, Maria A. Sorocéanu, Jenny Zhao, Hanyi Su, Xinkang Tong, Norio Amizuka, Ajay Gupta, Harry K. Genant, Henry M. Kronenberg, David Goltzman, Andrew C. Karaplis

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Figure 1

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PTHrP haploinsufficiency causes osteopenia by decreasing bone formation....
PTHrP haploinsufficiency causes osteopenia by decreasing bone formation. (A) Three-dimensional reconstruction from CT scans of distal femora from mice at 3 months of age. (B) Quantitative analysis of BV/TV. (C) Trabecular separation (Tb.Sp). (D) Degree of anisotropy (DA). (E) Structure model index (SMI). (F) Calcein (white arrowheads) and tetracycline (yellow arrowheads) labeling of trabecular bone (magnification, ×400). The distance between the 2 labels is used to calculate MAR, shown at right. (G) Red nuclear-stained apoptotic osteoblasts (arrows) and osteocytes (arrowheads) in the trabeculae were detected by TUNEL assay (magnification, ×400). The percentages of apoptotic osteoblasts and osteocytes (Apoptotic OB) are shown at right. (H) Ex vivo cultures of adherent BM cells induced to undergo osteogenic differentiation. Red staining represents alkaline phosphatase enzymatic activity, a marker of osteogenic differentiation. Quantitation of osteogenic colonies is shown at right. (I) TRAP stain for osteoclasts (magnification, ×200) and quantitation of osteoclast surface (Oc.S/BS). Data are shown as the mean ± SEM of 6 animals per group. *P < 0.05; **P < 0.01; and ***P < 0.001 for Pthrp+/– (black bars) versus Pthrp+/+ mice (white bars).