Hanyi Su scite author profile

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.

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Rosiglitazone impacts negatively on bone by promoting osteoblast/osteocyte apoptosis

Sorocéanu

Miao²,

Xiu-juan³

et al. 2004

178

103

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Thiazolidinediones (TZDs) increase peripheral tissue insulin sensitivity in patients with type 2 diabetes mellitus by activating the nuclear receptor peroxisome proliferatoractivated receptor (PPAR ). In bone marrow stromal cell cultures and in vivo, activation of PPAR by high doses (20 mg/kg/day) of TZDs has been reported to alter stem cell differentiation by promoting commitment of progenitor cells to the adipocytic lineage while inhibiting osteoblastogenesis. Here, we have examined the in vivo effects of low-dose rosiglitazone (3 mg/kg/day) on bone, administered to mice by gavage for 90 days. Rosiglitazone-treated mice had increased weight when compared with controls, with no significant alterations in serum levels of glucose, calcium or parathyroid hormone (PTH). Bone mineral density (BMD) at the lumbar vertebrae (L1-L4), ilium/sacrum, and total body was diminished by rosiglitazone treatment. Histologically, bone was characterized by decreased trabecular bone volume and increased marrow space with no significant change in bone marrow adipocity. Decreased osteoblast number and activity due to increased apoptotic death of osteoblasts and osteocytes was apparent while osteoclast parameters and serum levels of osteocalcin, alkaline phosphatase activity, and leptin were unaltered by rosiglitazone treatment. Therefore, the imbalance in bone remodeling that follows rosiglitazone administration arises from increased apoptotic death of osteogenic cells and diminished bone formation leading to the observed decrease in trabecular bone volume and BMD. These novel in vivo effects of TZDs on bone are of clinical relevance as patients with type 2 diabetes mellitus and other insulin resistant states treated with these agents may potentially be at increased risk of osteoporosis.

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Severe growth retardation and early lethality in mice lacking the nuclear localization sequence and C-terminus of PTH-related protein

Miao

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

112

113

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Parathyroid hormone (PTH) plays a central role in the regulation of serum calcium and phosphorus homeostasis, while parathyroid hormone-related protein (PTHrP) has important developmental roles. Both peptides signal through the same G protein-coupled receptor, the PTH/PTHrP or PTH type 1 receptor (PTH1R). PTHrP, normally a secreted protein, also contains a nuclear localization signal (NLS) that in vitro imparts functionality to the protein at the level of the nucleus. We investigated this functionality in vivo by introducing a premature termination codon in Pthrp in ES cells and generating mice that express PTHrP (1-84), a truncated form of the protein that is missing the NLS and the C-terminal region of the protein but can still signal through its cell surface receptor. Mice homozygous for the knock-in mutation (Pthrp KI) displayed retarded growth, early senescence, and malnutrition leading postnatally to their rapid demise. Decreased cellular proliferative capacity and increased apoptosis in multiple tissues including bone and bone marrow cells were associated with altered expression and subcellular distribution of the senescenceassociated tumor suppressor proteins p16 INK4a and p21 and the oncogenes Cyclin D, pRb, and Bmi-1. These findings provide in vivo experimental proof that substantiates the biologic relevance of the NLS and C-terminal portion of PTHrP, a polypeptide ligand that signals mainly via a cell surface G protein-coupled receptor.ageing ͉ nucleus ͉ osteoporosis ͉ PTHrP ͉ senescence

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Parathyroid Hormone-Related Peptide Is Required for Increased Trabecular Bone Volume in Parathyroid Hormone-Null Mice

Miao

Xue

et al. 2004

108

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We investigated the relative contributions of PTH and PTHrP to the skeletal phenotype of mice deficient in PTH (PTH(-/-)). PTH(-/-) mice and PTH(-/-) mice lacking one allele encoding PTHrP (PTH(-/-)PTHrP(+/-)) were compared. Both mutants displayed similar biochemical abnormalities of hypoparathyroidism, but skeletal PTHrP mRNA and protein were decreased in PTH(-/-)PTHrP(+/ -) mice. PTH(-/-) mice had increased trabecular bone volume with diminished bone turnover. PTHrP haploinsufficiency reduced trabecular bone of the PTH(-/-) mice to levels below those in wild-type animals by decreasing osteoprogenitor cell recruitment, enhancing osteoblast apoptosis, and diminishing bone formation. The results show that the increased trabecular bone volume in PTH-deficient mice is due to diminished PTH-induced osteoclastic bone resorption and persistent PTHrP-stimulated osteoblastic bone formation. They also illustrate the changing role of PTHrP during bone development, demonstrate its bone- forming function in the postnatal state, and support its pharmacological potential as an anabolic agent.

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Hanyi Su

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

Rosiglitazone impacts negatively on bone by promoting osteoblast/osteocyte apoptosis

Severe growth retardation and early lethality in mice lacking the nuclear localization sequence and C-terminus of PTH-related protein

Parathyroid Hormone-Related Peptide Is Required for Increased Trabecular Bone Volume in Parathyroid Hormone-Null Mice

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