Your search keyword '"pth"' showing total 130 results

1. Abaloparatide is more potent than teriparatide in restoring bone mass and strength in type 1 diabetic male mice.

Author

Marino, Silvia, Ozgurel, Serra Ucer, McAndrews, Kevin, Cregor, Meloney, Villaseñor, Alma, Mamani-Huanca, Maricuz, Barbas, Coral, Gortazar, Arancha, Sato, Amy Y., and Bellido, Teresita

Subjects

*TERIPARATIDE, *BONE growth, *CANCELLOUS bone, *BONE resorption, *BONE remodeling, *PERIOSTEUM, *HYPOPARATHYROIDISM, *OSTEOBLASTS, *DIABETIC nephropathies

Abstract

This study investigated the efficacy of the two FDA-approved bone anabolic ligands of the parathyroid hormone receptor 1 (PTH1R), teriparatide or human parathyroid hormone 1–34 (PTH) and abaloparatide (ABL), to restoring skeletal health using a preclinical murine model of streptozotocin-induced T1-DM. Intermittent daily subcutaneous injections of equal molar doses (12 pmoles/g/day) of PTH (50 ng/g/day), ABL (47.5 ng/g/day), or vehicle, were administered for 28 days to 5-month-old C57Bl/6 J male mice with established T1-DM or control (C) mice. ABL was superior to PTH in increasing or restoring bone mass in control or T1-MD mice, respectively, which was associated with superior stimulation of trabecular and periosteal bone formation, upregulation of osteoclastic/osteoblastic gene expression, and increased circulating bone remodeling markers. Only ABL corrected the reduction in ultimate load, which is a measure of bone strength, induced by T1-DM, and it also increased energy to ultimate load. In addition, bones from T1-DM mice treated with PTH or ABL exhibited increased ultimate stress, a material index, compared to T1-DM mice administered with vehicle. And both PTH and ABL prevented the increased expression of the Wnt antagonist Sost/sclerostin displayed by T1-DM mice. Further, PTH and ABL increased to a similar extent the circulating bone resorption marker CTX and the bone formation marker P1NP in T1-DM after 2 weeks of treatment; however, only ABL sustained these increases after 4 weeks of treatment. We conclude that at equal molar doses, ABL is more effective than PTH in increasing bone mass and restoring the cortical and trabecular bone lost with T1-DM, due to higher and longer-lasting increases in bone remodeling. • Bone fragility associated with diabetes causes substantial morbidity and mortality. • Data regarding the efficacy of anabolic therapies in T1-DM patients are scarce. • T1-DM bone disease is characterized by a marked decrease in bone formation. • Standard of care with antiresorptives stops bone loss but does not increase bone formation. • PTH1R activation rebuilds bone, improves structure, and restores strength in T1-DM. [ABSTRACT FROM AUTHOR]

Published

2024

2. Tmem119 is involved in bone anabolic effects of PTH through enhanced osteoblastic bone formation in mice.

Author

Kawao, Naoyuki, Matsumura, Daichi, Yamada, Ayaka, Okumoto, Katsumi, Ohira, Takashi, Mizukami, Yuya, Hashimoto, Daiki, and Kaji, Hiroshi

Subjects

*BONE growth, *COMPACT bone, *BONE density, *CANCELLOUS bone, *MICE, *ALKALINE phosphatase

Abstract

The intermittent administration of parathyroid hormone (PTH) exerts potent bone anabolic effects, which increase bone mineral density (BMD) and reduce fracture risk in osteoporotic patients. However, the underlying mechanisms remain unclear. Tmem119 has been proposed as a factor that is closely linked to the osteoblast phenotype, and we previously reported that PTH enhanced the expression of Tmem119 in mouse osteoblastic cells. However, roles of Tmem119 in the bone anabolic effects of PTH in vivo remain unknown. We herein investigated the roles of Tmem119 in bone anabolic effects of PTH using Tmem119-deficient mice. Tmem119 deficiency significantly reduced PTH-induced increases in trabecular bone volume and cortical BMD of femurs. Effects of Tmem119 deficiency on bone mass seemed predominant in female mice. Histomorphometric analyses with calcein labeling showed that Tmem119 deficiency significantly attenuated PTH-induced increases in the rates of bone formation and mineralization as well as numbers of osteoblasts. Moreover, Tmem119 deficiency significantly blunted PTH-induced decreases in phosphorylation of β-catenin and increases in alkaline phosphatase activity in osteoblasts. In conclusion, the present results indicate that Tmem119 is involved in bone anabolic effects of PTH through osteoblastic bone formation partly related to canonical Wnt-β-catenin signaling in mice. • Tmem119 deficiency reduced trabecular bone volume and cortical BMD enhanced by PTH in mice. • Tmem119 deficiency attenuated bone formation and mineralization enhanced by PTH in mice. • Tmem119 deficiency suppressed PTH-enhanced Wnt/β-catenin signaling and ALP activity in primary osteoblasts. • The results suggest that Tmem119 is involved in bone anabolic effects of PTH in mice. [ABSTRACT FROM AUTHOR]

Published

2024

3. GLP-2 and GIP exert separate effects on bone turnover: A randomized, placebo-controlled, crossover study in healthy young men.

Author

Skov-Jeppesen, Kirsa, Svane, Maria S., Martinussen, Christoffer, Gabe, Maria B.N., Gasbjerg, Lærke S., Veedfald, Simon, Bojsen-Møller, Kirstine N., Madsbad, Sten, Holst, Jens J., Rosenkilde, Mette M., and Hartmann, Bolette

Subjects

*BONE resorption, *YOUNG men, *BONE growth, *BONES, *UNIVERSITY hospitals

Abstract

Glucagon-like peptide-2 (GLP-2) and glucose-dependent insulinotropic polypeptide (GIP) both inhibit bone resorption in humans but the underlying mechanisms are poorly understood. In vitro, GLP-2 activates the GIP-receptor (GIPR). Based on in vitro studies, we hypothesized that the antiresorptive effect of GLP-2 was mediated through the GIPR. This was tested using the selective GIPR-antagonist GIP(3-30)NH 2. The study was a randomized, single-blinded, placebo-controlled, crossover study conducted at Hvidovre University Hospital, Denmark. Eight healthy young men were included and studied on four study days: GIP (200 μg), GLP-2 (800 μg), GIP(3-30)NH 2 (800 pmol/kg/min) + GLP-2 (800 μg), and placebo. The main outcomes were bone resorption measured as collagen type 1 C-terminal telopeptide (CTX) and bone formation measured as procollagen type 1 N-terminal propeptide (P1NP). CTX (mean ± SEM) significantly decreased after both GIP (to 55.3 ± 6.3% of baseline at t = 90 min) and GLP-2 (to 60.5 ± 5.0% of baseline at t = 180 min). The maximal reduction in CTX after GIP(3-30)NH 2 + GLP-2 (to 63.2 ± 3.1% of baseline) did not differ from GLP-2 alone (p = 0.95) nor did net AUC 0–240 (−6801 ± 879%*min vs −6027 ± 648%*min, p = 0.56). At t = 30 min, GIP significantly (p < 0.0001) increased P1NP to 115.1 ± 2.2% of baseline compared with 103.1 ± 1.5% after placebo. Both GLP-2 and GIP(3-30)NH 2 + GLP-2 significantly (p < 0.0001) decreased P1NP to 91.3 ± 1.1% and 88.1 ± 3.0% of baseline, respectively (at t = 45 min) compared with placebo. GIPR antagonism did not inhibit the GLP-2-induced reduction in bone resorption (CTX) in healthy young men. In contrast to GLP-2, GIP increased P1NP despite decreasing CTX indicating an uncoupling of bone resorption from formation. Thus, GLP-2 and GIP seem to exert separate effects on bone turnover in humans. ClinicalTrials.gov (NCT03159741). • The acute antiresorptive effect of GLP-2 is not mediated through the GIPR in humans. • GLP-2 reduces CTX to almost 50% of baseline after 180 min and decreases P1NP. • GIP reduces CTX to almost 50% of baseline after 90 min and increases P1NP. • Thus, GLP-2 and GIP exert separate effects on bone turnover in healthy young men. [ABSTRACT FROM AUTHOR]

Published

2019

4. Effects of vitamin D supplementation on bone turnover markers and other bone-related substances in subjects with vitamin D deficiency.

Author

Jorde, Rolf, Stunes, Astrid Kamilla, Kubiak, Julia, Joakimsen, Ragnar, Grimnes, Guri, Thorsby, Per Medbøe, and Syversen, Unni

Subjects

*PARATHYROIDECTOMY, *SERUM, *VITAMIN D deficiency, *VITAMIN D, *CHOLECALCIFEROL, *BONE density, *BONE growth

Abstract

In observational studies, vitamin D deficiency is a risk factor for low bone density and future fractures, whereas a causal relation has been difficult to show in randomized controlled trials (RCTs). Similarly, vitamin D deficiency has been associated with increased bone turnover, but RCTs with vitamin D have not shown conclusive effects. This could be due to inclusion of vitamin D sufficient subjects and low vitamin D doses. In the present study 399 subjects with mean baseline serum 25-hydroxyvitamin D (25(OH)D) 34.0 nmol/L completed a four months intervention with vitamin D 3 20,000 IU per week versus placebo. Mean serum 25(OH)D increased to 89.0 nmol/L in the vitamin D group and decreased slightly in the placebo group. A small, but significant, decrease in the bone formation marker procollagen of type 1 amino-terminal propeptide (P1NP) was seen in the vitamin D group as compared to the placebo group (mean delta P1NP -1.2 pg/mL and 1.5 ng/mL, respectively, P < 0.01). No significant effects were seen on serum carboxyl-terminal telopeptide of type 1 collagen (CTX-1), Dickkopf-1, sclerostin, tumor necrosis factor-alpha, osteoprotegerin, receptor activator of nuclear factor ĸB ligand, or leptin. Subgroup analyses on subjects with low baseline serum 25(OH)D did not yield additional, significant results. In subjects with high baseline serum parathyroid hormone (PTH) > 6.5 pmol/L and post-intervention decrease in PTH, the decrease in P1NP was more pronounced, they also exhibited significantly reduced serum CTX-1 and increased serum sclerostin. In conclusion, supplementation with vitamin D appears to suppress bone turnover, possibly mediated by PTH reduction. Our findings need to be confirmed in even larger cohorts with vitamin D insufficient subjects. • Supplementation with vitamin D cause a slight decrease in serum P1NP indicating reduced bone turnover • The clinical relevance of this decrease is questionable • This effect of vitamin D on bone may be mediated by PTH • Future studies on vitamin D and bone turnover markers need cohorts with severely vitamin D deficient subjects to be meaningful [ABSTRACT FROM AUTHOR]

Published

2019

5. Inverse correlation between trabecular bone volume and bone marrow adipose tissue in rats treated with osteoanabolic agents.

Author

Costa, Samantha, Fairfield, Heather, and Reagan, Michaela R.

Subjects

*CANCELLOUS bone, *ADIPOSE tissues, *INVERSE relationships (Mathematics), *BONE marrow, *BONE marrow diseases, *OSTEOPOROSIS, *BONE growth

Abstract

There is currently an unmet clinical need for improved treatments for skeletal diseases such as osteoporosis and cancer-induced bone disease. This is due in part to a paucity of novel targets and an incomplete understanding of the mechanisms of action for established therapies. We defined the effects of anabolic treatments on bone and the bone marrow adipocyte (BMA). Sclerostin-neutralizing antibodies (Scl-Ab), romosozumab, human parathyroid hormone (hPTH, 1–34), and hPTH/hPTHrP analogues (e.g. teriparatide and abaloparatide) stimulate bone formation and have been studied in clinical trials for severe osteoporosis. In this study, eight-week-old male and female rats were administered vehicle, Scl-Ab (3 mg/kg or 50 mg/kg) weekly, or hPTH (1–34) (75 μg/kg) daily for 4 or 26 weeks. Histological analyses of distal femura were performed using a novel ImageJ method for trabecular bone and bone marrow adipose tissue (BMAT). Adipocyte number, circumference, and total adipose area were compared within the tissue area (T.Ar) or the marrow area (Ma.Ar), (defined as the T.Ar minus the trabecular bone area). After 26 weeks of treatment, a significant inverse correlation between bone and tissue adiposity (total adipocyte area divided by T.Ar) were observed in males and females (p < 0.0001). However, there were no significant correlations between bone and marrow adiposity (total adipocyte area divided by Ma.Ar) for either sex after 26 weeks of treatments. Scl-Ab treatments also resulted in no effect on adipocytes based on marrow adiposity for either sex after 26 weeks. However, chronic hPTH treatments significantly reduced adipocyte number and adiposity within the T.Ar and within the Ma.Ar in males. Overall, our data suggest that with long-term treatment, Scl-Abs decrease total tissue adiposity mainly by increasing trabecular bone, resulting in an overall reduction in the space in which adipocytes can reside. These findings were determined by developing and comparing two different methods of assessment of the marrow cavity, defined to either include or exclude trabecular bone. Thus, researchers should consider which adiposity measurement is more informative and relevant for their studies. Overall, our findings should help design improved therapies or combination treatments to target a potential new contributor to bone diseases: the bone marrow adipocyte. The osteoanabolic agents, sclerostin antibody (Scl-Ab 3 mg/kg or 50 mg/kg, romosozumab) and human parathyroid hormone (hPTH, 1–34), revealed sex-based differences in trabecular bone area and adiposity in the distal femoral metaphysis of male and female Sprague-Dawley rats after 4 and 26 weeks of treatment. Chronic administration (i.e. 26-weeks) of the Scl-Ab (50 mg/kg) and hPTH resulted in increased trabecular bone accrual and lower tissue adiposity when compared to the corresponding vehicle-treated group of both sexes. In females, chronic Scl-Ab demonstrated significant dose and time-dependent effects; higher dosages and longer times of treatment increased bone and decreased tissue adiposity. Unlabelled Image • Trabecular bone negatively correlated with tissue adiposity after chronic treatment with human parathyroid hormone (hPTH). • Trabecular bone negatively correlated with tissue adiposity after chronic treatment with sclerostin antibodies (Scl-Ab). • Chronic hPTH and high dose Scl-Ab treatments decreased BM adipocyte numbers and BM adiposity, but not adipocyte size. • Bone marrow adiposity quantification depends on if adipose tissue is normalized to total tissue area or marrow area only. • The novel ImageJ platform designed and used here is useful for histological BM adipose and trabecular bone quantification. [ABSTRACT FROM AUTHOR]

Published

2019

6. Glucose dependent miR-451a expression contributes to parathyroid hormone mediated osteoblast differentiation.

Author

Karvande, Anirudha, Kushwaha, Priyanka, Ahmad, Naseer, Adhikary, Sulekha, Kothari, Priyanka, Tripathi, Ashish Kumar, Khedgikar, Vikram, and Trivedi, Ritu

Subjects

*PARATHYROID hormone-related protein gene, *OSTEOBLASTS, *CELL differentiation, *AMINO acids, *MICRORNA genetics, *MTOR protein

Abstract

Abstract Parathyroid hormone (PTH; amino acid 1–34, known as teriparatide) has reported promoting differentiation and glucose uptake in osteoblasts. However, how PTH regulates glucose metabolism to facilitate osteoblast differentiation is not understood. Here, we report that PTH promotes glucose dependent miR-451a expression which stimulates osteoblast differentiation. In addition to glucose uptake, PTH suppresses AMPK phosphorylation via PI3K-mTOR-AKT axis thereby preventing phosphorylation and inactivation of octamer-binding transcription factor 1 (OCT-1) which has been reported to act on the promoter region of miR-451a. Modulation of AMPK activity controls miR-451a levels in differentiating osteoblasts. Moreover, pharmacological inhibition of PI3K-mTOR-AKT axis suppressed miR-451a via increased AMPK activity. We report that this glucose regulated miRNA is an anabolic target and transfection of miR-451a mimic induces osteoblast differentiation and mineralization in vitro. These actions were mediated through the suppression of Odd-skipped related 1 (Osr1) and activation of Runx2 transcription. When injected in vivo , the miR-451a mimic significantly increased osteoblastogenesis, mineralization, reversed ovariectomy induced bone loss and improved bone strength. Together, these findings suggest that enhanced osteoblast differentiation associated with bone formation in case of PTH therapy is also a consequence of elevated miR-451a levels via glucose regulation. Consequently, this miRNA has the potential to be a therapeutic target for conditions of bone loss. Highlights • PTH promoted miR-451a levels in mice both in vitro and in vivo and miR-451a showed glucose dependency in vitro. • miR-451a inhibited odd skipped related -1 signaling and promoted BMP-4 and Runx2 mediated osteoblast differentiation. • Suppression of AMPK phosphorylation promoted OCT-1 directed miR-451a levels and osteoblast differentiation. • PTH suppressed AMPK phosphorylation via PI3K/mTOR/AKT axis and potentiated non-phosphorylated active OCT-1 levels. • This study confirmed the bone anabolic effects of miR-451a signaling that alleviated estrogen deficiency induced bone loss. [ABSTRACT FROM AUTHOR]

Published

2018

7. Calcium fluxes at the bone/plasma interface: Acute effects of parathyroid hormone (PTH) and targeted deletion of PTH/PTH-related peptide (PTHrP) receptor in the osteocytes.

Author

Dedic, Christopher, Hung, Tin Shing, Shipley, Alan M., Maeda, Akira, Gardella, Thomas, Miller, Andrew L., Divieti Pajevic, Paola, Kunkel, Joseph G., and Rubinacci, Alessandro

Subjects

*CALCIUM, *HOMEOSTASIS, *OSTEOCYTES, *PARATHYROID hormone, *EXPERIMENTS, *SCANNING electron microscopes

Abstract

Abstract Calcium ion concentration ([Ca2+]) in the systemic extracellular fluid, ECF-[Ca2+], is maintained around a genetically predetermined set-point, which combines the operational level of the kidney and bone/ECF interfaces. The ECF-[Ca2+] is maintained within a narrow oscillation range by the regulatory action of Parathyroid Hormone (PTH), Calcitonin, FGF-23, and 1,25(OH) 2 D 3. This model implies two correction mechanisms, i.e. tubular Ca2+ reabsorption and osteoclast Ca2+ resorption. Although their alterations have an effect on the ECF-[Ca2+] maintenance, they cannot fully account for rapid correction of the continuing perturbations of plasma [Ca2+], which occur daily in life. The existence of Ca2+ fluxes at quiescent bone surfaces fulfills the role of a short-term error correction mechanism in Ca2+ homeostasis. To explore the hypothesis that PTH regulates the cell system responsible for the fast Ca2+ fluxes at the bone/ECF interface, we have performed direct real-time measurements of Ca2+ fluxes at the surface of ex-vivo metatarsal bones maintained in physiological conditions mimicking ECF, and exposed to PTH. To further characterize whether the PTH receptor on osteocytes is a critical component of the minute-to-minute ECF-[Ca2+] regulation, metatarsal bones from mice lacking the PTH receptor in these cells were tested ex vivo for rapid Ca2+ exchange. We performed direct real-time measurements of Ca2+ fluxes and concentration gradients by a scanning ion-selective electrode technique (SIET). To validate ex vivo measurements, we also evaluated acute calcemic response to PTH in vivo in mice lacking PTH receptors in osteocytes vs littermate controls. Our data demonstrated that Ca2+ fluxes at the bone-ECF interface in excised bones as well as acute calcemic response in the short-term were unaffected by PTH exposure and its signaling through its receptor in osteocytes. Rapid minute-to-minute regulation of the ECF-[Ca2+] was found to be independent of PTH actions on osteocytes. Similarly, mice lacking PTH receptor in osteocytes, responded to PTH challenge with similar calcemic increases. Highlights • PTH has no effect on rapid calcium flux at the bone/plasma interface. • Osteocyte PTH receptor is not required for rapid calcium flux at this interface. • Mice lacking osteocyte PTH receptor have fast calcemic response to PTH as controls. • Bone mineral composition of PPR osteocyte KO mice differs from controls. [ABSTRACT FROM AUTHOR]

Published

2018

8. PTH (1–34) and growth hormone in prevention of disuse osteopenia and sarcopenia in rats.

Author

Brent, Mikkel Bo, Brüel, Annemarie, and Thomsen, Jesper Skovhus

Subjects

*OSTEOPENIA, *PARATHYROID hormone, *SARCOPENIA, *SOMATOTROPIN, *HISTOMORPHOMETRY, *LABORATORY rats, *PREVENTION, *THERAPEUTICS

Abstract

Osteopenia and sarcopenia develops rapidly during disuse. The study investigated whether intermittent parathyroid hormone (1–34) (PTH) and growth hormone (GH) administered alone or in combination could prevent or mitigate disuse osteopenia and sarcopenia in rats. Disuse was achieved by injecting 4 IU botulinum toxin A (BTX) into the right hindlimb musculature of 12–14-week-old female Wistar rats. Seventy-two rats were divided into six groups: 1. Baseline; 2. Ctrl; 3. BTX; 4. BTX + GH; 5. BTX + PTH; 6. BTX + PTH + GH. PTH (1–34) (60 μg/kg/day) and GH (5 mg/kg/day). The animals were sacrificed after 6 weeks of treatment. Sarcopenia was established by histomorphometry, while the skeletal properties were determined using DXA, μCT, mechanical testing, and dynamic bone histomorphometry. Disuse resulted in lower muscle mass (−63%, p < 0.05), trabecular BV/TV (−28%, p < 0.05), Tb.Th (−11%, p < 0.05), lower diaphyseal cortical thickness (−10%, p < 0.001), and lower bone strength at the distal femoral metaphysis (−27%, p < 0.001) compared to Ctrl animals. PTH fully counteracted the immobilization-induced lower BV/TV, Tb.Th, and distal femoral metaphyseal strength. GH increased muscle mass (+17%, p < 0.05) compared to BTX, but did not prevent the immobilization-induced loss of bone strength, BV/TV, and cortical trabecular thickness. Combination of PTH and GH increased distal femoral metaphyseal bone strength (+45%, p < 0.001), BV/TV (+50%, p < 0.05), Tb.Th (+40%, p < 0.05), and whole femoral aBMD (+15%, p < 0.001) compared to BTX and muscle mass (+21%, p < 0.05) compared to BTX + PTH. In conclusion, PTH and GH in combination is more efficient at preventing the disuse-related deterioration of bone strength, density, and micro-architecture than either PTH or GH given as monotherapy. Furthermore, GH, either alone or in combination with PTH, attenuated disuse-induced loss of muscle mass. The combination of PTH and GH resulted in a more effective treatment than PTH and GH as monotherapy. [ABSTRACT FROM AUTHOR]

Published

2018

9. The 24,25 to 25-hydroxyvitamin D ratio and fracture risk in older adults: The cardiovascular health study.

Author

Ginsberg, Charles, Katz, Ronit, de Boer, Ian H., Kestenbaum, Bryan R., Chonchol, Michel, Shlipak, Michael G., Sarnak, Mark J., Hoofnagle, Andrew N., Rifkin, Dena E., Garimella, Pranav S., and Ix, Joachim H.

Subjects

*RISK factors of fractures, *VITAMIN D receptors, *BONE density, *CARDIOVASCULAR diseases, *HEALTH of older people

Abstract

25-hydroxyvitamin D [25(OH)D] may not optimally indicate vitamin D receptor activity. Higher concentrations of its catabolic product 24,25-dihydroxyvitmin D [24,25(OH) 2 D] and a higher ratio of 24,25(OH) 2 D to 25(OH)D (the vitamin D metabolite ratio [VMR]) may provide additional information on receptor activity. We compared the strength of associations of these markers with serum PTH concentrations, hip bone mineral density (BMD), and risk of incident hip fracture in community-living older participants in the Cardiovascular Health Study. Among 890 participants, the mean age was 78 years, 60% were women, and the mean 25(OH)D was 28 ± 11 ng/ml. In cross-sectional analysis, the strength of association of each vitamin D measure with PTH was similar; a 1% higher 25(OH)D, 24,25(OH) 2 D, and VMR were associated with 0.32%, 0.25%, and 0.26% lower PTH, respectively ( p < 0.05 for all). Among 358 participants with available BMD data, we found no associations of 25(OH)D or VMR with BMD, whereas higher 24,25(OH) 2 D was modestly associated with greater hip BMD (1% higher 24,25(OH) 2 D associated with 0.04% [95% CI 0.01–0.08%] higher BMD). Risk of incident hip fracture risk was evaluated using a case-cohort design. There were 289 hip fractures during a mean follow up time of 8.4 years. Both higher 24,25(OH) 2 D and VMR were associated with lower risk of hip fracture (HR per SD higher, 0.73 [0.61, 0.87] and 0.74 [0.61, 0.88], respectively) whereas 25(OH)D was not associated with hip fracture (HR 0.93 [0.79, 1.10]). We conclude that evaluating vitamin D status by incorporating assessment of 24,25(OH)D and the VMR provides information on bone health above and beyond 25(OH)D alone. [ABSTRACT FROM AUTHOR]

Published

2018

10. Combination of PTH (1-34) with anti-IL17 prevents bone loss by inhibiting IL-17/N-cadherin mediated disruption of PTHR1/LRP-6 interaction.

Author

Mansoori, Mohd Nizam, Shukla, Priyanka, and Singh, Divya

Subjects

*BONE density, *BODY composition, *OVARIECTOMY, *HYSTERO-oophorectomy, *IMMUNOFLUORESCENCE, *THERAPEUTICS

Abstract

Combinations of anabolic and anti-resorptive agents have potential to improve bone density more than either agent alone. In this study, we determine the combining effect of anti-IL17 antibody and PTH (1-34) in mitigation of ovariectomy induced bone loss. Ovariectomized BALB/c female mice were treated with anti-IL17 and iPTH monotherapies and their combination. Combination of iPTH and anti-IL17 has synergistic effect in the restoration of skeletal and immune parameters compared to mono-therapies. Immunofluorescence analysis shows decreased expression of PTHR1 in iPTH + anti-IL17 treated bone sections. Our studies show that IL-17 up regulates N-cadherin which disrupts PTHR1/LRP-6 interaction thereby inhibiting wnt signaling and promoting bone loss. Our studies advocate use of iPTH and anti-IL17 combination therapy for post-menopausal osteoporosis. [ABSTRACT FROM AUTHOR]

Published

2017

11. Parathyroid hormone inhibits Notch signaling in osteoblasts and osteocytes.

Author

Zanotti, Stefano and Canalis, Ernesto

Subjects

*PARATHYROID hormone, *OSTEOCYTES, *OSTEOBLASTS, *NOTCH genes, *BONE growth

Abstract

Parathyroid hormone (PTH) and Notch receptors regulate bone formation by governing the function of osteoblastic cells. To determine whether PTH interacts with Notch signaling as a way to control osteoblast function, we tested the effects of PTH on Notch activity in osteoblast- and osteocyte-enriched cultures. Notch signaling was activated in osteoblast-enriched cells from wild-type C57BL/6J mice following exposure to the Notch ligand Delta-like (Dll)1 or by the transient transfection of the Notch intracellular domain (NICD), the transcriptionally active fragment of Notch1. To induce Notch signaling in osteocyte-enriched cultures, a murine model of Notch2 gain-of-function was used. PTH opposed the stimulatory effects of Dll1 on Hey1 , Hey2 and HeyL mRNA levels in osteoblast-enriched cells and suppressed the expression of selected Notch target genes in osteocyte-enriched cultures, either under basal conditions or in the context of Notch2 gain-of-function. Induction of Notch signaling in osteocytes did not alter the inhibitory effect of PTH on Sost expression, but reduced the stimulation of Tnfsf11 mRNA levels by PTH. In agreement with these in vitro observations, male mice administered with PTH displayed suppressed Hey1 and HeyL expression in parietal bones. Transactivation experiments with a Notch reporter construct and electrophoretic mobility shift assays in osteoblast-enriched cells suggest that PTH acts by decreasing the capacity of Rbpjκ to bind to DNA. In conclusion, downregulation of Notch in osteoblasts and osteocytes may represent a mechanism contributing to the anabolic effects of PTH in bone. [ABSTRACT FROM AUTHOR]

Published

2017

12. Serum sclerostin decreases following 12 months of resistance- or jump-training in men with low bone mass.

Author

Hinton, Pamela S., Nigh, Peggy, and Thyfault, John

Subjects

*SCLEROSTIN, *BLOOD serum analysis, *BONE density, *MEN'S health, *RESISTANCE training

Abstract

Purpose We previously reported that 12 months of resistance training (RT, 2 ×/wk, N = 19) or jump training (JUMP, 3 ×/wk, N = 19) increased whole body and lumbar spine BMD and increased serum bone formation markers relative to resorption in physically active (≥ 4 h/wk) men (mean age: 44 ± 2 y; median: 44 y) with osteopenia of the hip or spine. The purpose of this secondary analysis was to examine the effects of the RT or JUMP intervention on potential endocrine mediators of the exercise effects on bone, specifically IGF-I, PTH and sclerostin. Methods Fasting blood samples were collected after a 24-h period of no exercise at baseline and after 12 months of RT or JUMP. IGF-I, PTH and sclerostin were measured in serum by ELISA. The effects of RT or JUMP on IGF-I, PTH and sclerostin were evaluated using 2 × 2 repeated measures ANOVA (time, group). This study was conducted in accordance with the Declaration of Helsinki and was approved by the University of Missouri IRB. Results Sclerostin concentrations in serum significantly decreased and IGF-I significantly increased after 12 months of RT or JUMP; while PTH remained unchanged. Conclusion The beneficial effects of long-term, progressive-intensity RT or JUMP on BMD in moderately active men with low bone mass are associated with decreased sclerostin and increased IGF-I. [ABSTRACT FROM AUTHOR]

Published

2017

13. Role and mechanism of action of sclerostin in bone.

Author

Delgado-Calle, Jesus, Sato, Amy Y., and Bellido, Teresita

Subjects

*BIOCHEMICAL mechanism of action, *SCLEROSTIN, *PROTEIN expression, *OSTEOCHONDRODYSPLASIAS, *HOMEOSTASIS

Abstract

After discovering that lack of Sost/sclerostin expression is the cause of the high bone mass human syndromes Van Buchem disease and sclerosteosis, extensive animal experimentation and clinical studies demonstrated that sclerostin plays a critical role in bone homeostasis and that its deficiency or pharmacological neutralization increases bone formation. Dysregulation of sclerostin expression also underlies the pathophysiology of skeletal disorders characterized by loss of bone mass, as well as the damaging effects of some cancers in bone. Thus, sclerostin has quickly become a promising molecular target for the treatment of osteoporosis and other skeletal diseases, and beneficial skeletal outcomes are observed in animal studies and clinical trials using neutralizing antibodies against sclerostin. However, the anabolic effect of blocking sclerostin decreases with time, bone mass accrual is also accompanied by anti-catabolic effects, and there is bone loss over time after therapy discontinuation. Further, the cellular source of sclerostin in the bone/bone marrow microenvironment under physiological and pathological conditions, the pathways that regulate sclerostin expression and the mechanisms by which sclerostin modulates the activity of osteocytes, osteoblasts, and osteoclasts remain unclear. In this review, we highlight the current knowledge on the regulation of Sost/sclerotin expression and its mechanism(s) of action, discuss novel observations regarding its role in signaling pathways activated by hormones and mechanical stimuli in bone, and propose future research needed to understand the full potential of therapeutic interventions that modulate Sost/sclerostin expression. [ABSTRACT FROM AUTHOR]

Published

2017

14. Regional modular responses in different bone compartments to the anabolic effect of PTH (1-34) and axial loading in mice.

Author

Monzem, Samuel, Valkani, Dionysia, Evans, Lucinda Anastasia Elizabeth, Chang, Yu-Mei, and Pitsillides, Andrew Anthony

Subjects

*AXIAL loads, *COMPACT bone, *CANCELLOUS bone, *GROWTH plate, *X-ray computed microtomography, *PARATHYROIDECTOMY, *EPIPHYSIS

Abstract

Beneficial effects of intermittent parathyroid hormone (PTH) on bone mass and architecture are described to either simply add to, or to synergise with those of mechanical loading. We evaluate whether interaction with in vivo loading is reinforced by PTH dosing regimen and exhibits compartment-specific sensitivities. Female 12-week-old C57Bl6 mice received daily (7/7) or interrupted 5 day/week (5/7) PTH for 3 weeks (two vehicle groups). All mice had six loading episodes (12N) applied to right tibia (left, non-loaded) for the last 2 weeks. Micro-CT scans were used to evaluate mass and architecture in almost the entire cortical and proximal trabecular regions. Epiphyseal cortical, trabecular and marrow space volumes, and bony growth-plate bridge incidence were evaluated. Statistical analyses employed a linear mixed-effects model at each percentile and 2-way ANOVA with post-hoc test for epiphyses and bridging. We found that daily PTH enhances cortical mass and modifies shape along almost the entire tibia and that these effects are partly mitigated by brief interruption in treatment. Mechanical loading alone augments cortical mass and modifies shape but only in a region proximal to the tibiofibular junction. The effect of combining load and daily PTH dosing is solely additive for cortical bone mass with no significant load: PTH interaction, but exhibits clear synergy with interrupted PTH treatment. Daily, not interrupted PTH stimulates trabecular bone gains, yet load:PTH interaction is present at limited regions with both daily and interrupted treatment. PTH treatment, but not loading, modifies epiphyseal bone but, in contrast, only loading modifies bridge number and areal density. Our findings demonstrate impressive local effects on tibial mass and shape of combined loading and PTH that are sensitive to dosing regimen and exert their effects modularly. These findings emphasise a need to clarify PTH dosing regimens and that advantages could be accrued by aligning treatment accordingly to patient requirements and life-style. • Interrupting daily PTH dosing may synergise with load to increase cortical bone mass. • Interrupting daily PTH dosing may limit effects on cortical and trabecular bone. • Loading does not modify epiphyseal bone. • PTH does not affect bony bridge number nor areal density in the growth plate. • Bone shows modular responses to PTH [ABSTRACT FROM AUTHOR]

Published

2023

15. Parathyroid hormone induces expression and proteolytic processing of Rankl in primary murine osteoblasts.

Author

Heckt, Timo, Keller, Johannes, Peters, Stephanie, Streichert, Thomas, Chalaris, Athena, Rose-John, Stefan, Mell, Blair, Joe, Bina, Amling, Michael, and Schinke, Thorsten

Subjects

*PARATHYROID hormone, *PROTEOLYSIS, *TRANCE protein, *INTERLEUKIN-33, *OSTEOBLASTS

Abstract

Rankl, the major pro-osteoclastogenic cytokine, is synthesized as a transmembrane protein that can be cleaved by specific endopeptidases to release a soluble form (sRankl). We have previously reported that interleukin-33 (IL-33) induces expression of Tnfsf11 , the Rankl-encoding gene, in primary osteoblasts, but we failed to detect sRankl in the medium. Since we also found that PTH treatment caused sRankl release in a similar experimental setting, we directly compared the influence of the two molecules. Here we show that treatment of primary murine osteoblasts with PTH causes sRankl release into the medium, whereas IL-33 only induces Tnfsf11 expression. This difference was not explainable by alternative splicing or by PTH-specific induction of endopeptidases previously shown to facilitate Rankl processing. Since sRankl release after PTH administration was blocked in the presence a broad-spectrum matrix metalloprotease inhibitor, we applied genome-wide expression analyses to identify transcriptional targets of PTH in osteoblasts. We thereby confirmed some of the effects of PTH established in other systems, but additionally identified few PTH-induced genes encoding metalloproteases. By comparing expression of these genes following administration of IL-33, PTH and various other Tnfsf11 -inducing molecules, we observed that PTH was the only molecule simultaneously inducing sRankl release and Adamts1 expression. The functional relevance of the putative influence of PTH on Rankl processing was further confirmed in vivo , as we found that daily injection of PTH into wildtype mice did not only increase bone formation, but also osteoclastogenesis and sRankl concentrations in the serum. Taken together, our findings demonstrate that transcriptional effects on Tnfsf11 expression do not generally trigger sRankl release and that PTH has a unique activity to promote the proteolytic processing of Rankl. [ABSTRACT FROM AUTHOR]

Published

2016

16. The effects of proteasome inhibitors on bone remodeling in multiple myeloma.

Author

Zangari, Maurizio and Suva, Larry J.

Subjects

*PROTEASOME inhibitors, *BONE remodeling, *MULTIPLE myeloma, *BONE marrow, *PLASMA cells, *BONE density

Abstract

Bone disease is a characteristic feature of multiple myeloma, a malignant plasma cell dyscrasia. In patients with multiple myeloma, the normal process of bone remodeling is dysregulated by aberrant bone marrow plasma cells, resulting in increased bone resorption, prevention of new bone formation, and consequent bone destruction. The ubiquitin–proteasome system, which is hyperactive in patients with multiple myeloma, controls the catabolism of several proteins that regulate bone remodeling. Clinical studies have reported that treatment with the first-in-class proteasome inhibitor bortezomib reduces bone resorption and increases bone formation and bone mineral density in patients with multiple myeloma. Since the introduction of bortezomib in 2003, several next-generation proteasome inhibitors have also been used clinically, including carfilzomib, oprozomib, ixazomib, and delanzomib. This review summarizes the available preclinical and clinical evidence regarding the effect of proteasome inhibitors on bone remodeling in multiple myeloma. [ABSTRACT FROM AUTHOR]

Published

2016

17. Membrane depolarization regulates intracellular RANKL transport in non-excitable osteoblasts.

Author

Notomi, Takuya, Kuno, Miyuki, Hiyama, Akiko, Ezura, Yoichi, Honma, Masashi, Ishizuka, Toru, Ohura, Kiyoshi, Yawo, Hiromu, and Noda, Masaki

Subjects

*OSTEOBLASTS, *CONNECTIVE tissue cells, *BONE cells, *BONES, *MUSCULOSKELETAL system

Abstract

Parathyroid hormone (PTH) and 1α,25-dihydroxyvitamin D 3 (VD 3 ) are important factors in Ca 2 + homeostasis, and promote osteoclastogenesis by modulating receptor activator of nuclear factor kappa-B ligand ( RANKL ) mRNA expression. However, their contribution to RANKL intracellular transport (RANKLiT), including the trigger for RANKL lysosomal vesicle (RANKL-lv) fusion to the cell membrane, is unclear. In neurons, depolarization of membrane potential increases the intracellular Ca 2 + level ([Ca 2 + ] i ) and promotes neurotransmitter release via fusion of the synaptic vesicles to the cell membrane. To determine whether membrane depolarization also regulates cellular processes such as RANKLiT in MC3T3-E1 osteoblasts (OBs), we generated a light-sensitive OB cell line and developed a system for altering their membrane potential via delivery of a blue light stimulus. In the membrane fraction of RANKL-overexpressing OBs, PTH and VD 3 increased the membrane-bound RANKL (mbRANKL) level at 10 min after application without affecting the mRNA expression level, and depolarized the cell membrane while transiently increasing [Ca 2 + ] i . In our novel OB line stably expressing the channelrhodopsin-wide receiver, blue light-induced depolarization increased the mbRANKL level, which was reversed by treatment of blockers for L -type voltage-gated Ca 2 + channels and Ca 2 + release from the endoplasmic reticulum. In co-cultures of osteoclast precursor-like RAW264.7 cells and light-sensitive OBs overexpressing RANKL, light stimulation induced an increase in tartrate-resistant acid phosphatase activity and promoted osteoclast differentiation. These results indicate that depolarization of the cell membrane is a trigger for RANKL-lv fusion to the membrane and that membrane potential contributes to the function of OBs. In addition, the non-genomic action of VD 3 -induced RANKL-lv fusion included the membrane-bound VD 3 receptor (1,25D 3 -MARRS receptor). Elucidating the mechanism of RANKLiT regulation by PTH and VD 3 will be useful for the development of drugs to prevent bone loss in osteoporosis and other bone diseases. [ABSTRACT FROM AUTHOR]

Published

2015

18. Parathyroid hormone regulation of hypoxia-inducible factor signaling in osteoblastic cells.

Author

Wong, Alice, Loots, Gabriela G., Yellowley, Clare E., Dosé, Andréa C., and Genetos, Damian C.

Subjects

*PARATHYROID hormone, *CALCIUM regulating hormones, *OSTEOBLASTS, *CONNECTIVE tissue cells, *BONES

Abstract

Osteoblasts perceive and respond to changes in their pericellular environment, including biophysical signals and oxygen availability, to elicit an anabolic or catabolic response. Parathyroid hormone (PTH) affects each arm of skeletal remodeling, with net anabolic or catabolic effects dependent upon duration of exposure. Similarly, the capacity of osteoblastic cells to perceive pericellular oxygen has a profound effect on skeletal mass and architecture, as mice expressing stable hypoxia-inducible factor (HIF)-1α and -2α demonstrate age-dependent increases in bone volume per tissue volume and osteoblast number. Further, HIF levels and signaling can be influenced in an oxygen-independent manner. Because the cellular mechanisms involved in PTH regulation of the skeleton remain vague, we sought whether PTH could influence HIF-1α expression and HIF-α-driven luciferase activity independently of altered oxygen availability. Using UMR106.01 mature osteoblasts, we observed that 100 nM hPTH(1–34) decreased HIF-1α and HIF-responsive luciferase activity in a process involving heat shock protein 90 (Hsp90) and cyclic AMP but not intracellular calcium. Altering activity of the small GTPase RhoA and its effector kinase ROCK altered HIF-α-driven luciferase activity in the absence and presence of PTH. Taken together, these data introduce PTH as a regulator of oxygen-independent HIF-1α levels through a mechanism involving cyclic AMP, Hsp90, and the cytoskeleton. [ABSTRACT FROM AUTHOR]

Published

2015

19. Defective cancellous bone structure and abnormal response to PTH in cortical bone of mice lacking Cx43 cytoplasmic C-terminus domain.

Author

Pacheco-Costa, Rafael, Davis, Hannah M., Sorenson, Chad, Hon, Mary C., Hassan, Iraj, Reginato, Rejane D., Allen, Matthew R., Bellido, Teresita, and Plotkin, Lilian I.

Subjects

*CANCELLOUS bone, *BONES, *MUSCULOSKELETAL system, *CONNECTIVE tissues, *LABORATORY mice

Abstract

Connexin 43 (Cx43) forms gap junction channels and hemichannels that allow the communication among osteocytes, osteoblasts, and osteoclasts. Cx43 carboxy-terminal (CT) domain regulates channel opening and intracellular signaling by acting as a scaffold for structural and signaling proteins. To determine the role of Cx43 CT domain in bone, mice in which one allele of full length Cx43 was replaced by a mutant lacking the CT domain (Cx43 ΔCT/fl ) were studied. Cx43 ΔCT/fl mice exhibit lower cancellous bone volume but higher cortical thickness than Cx43 fl/fl controls, indicating that the CT domain is involved in normal cancellous bone gain but opposes cortical bone acquisition. Further, Cx43 ΔCT is able to exert the functions of full length osteocytic Cx43 on cortical bone geometry and mechanical properties, demonstrating that domains other than the CT are responsible for Cx43 function in cortical bone. In addition, parathyroid hormone (PTH) failed to increase endocortical bone formation or energy to failure, a mechanical property that indicates resistance to fracture, in cortical bone in Cx43 ΔCT mice with or without osteocytic full length Cx43. On the other hand, bone mass and bone formation markers were increased by the hormone in all mouse models, regardless of whether full length or Cx43 ΔCT were or not expressed. We conclude that Cx43 CT domain is involved in proper bone acquisition; and that Cx43 expression in osteocytes is dispensable for some but not all PTH anabolic actions. [ABSTRACT FROM AUTHOR]

Published

2015

20. Compromised vertebral structural and mechanical properties associated with progressive kidney disease and the effects of traditional pharmacological interventions.

Author

Newman, Christopher L., Chen, Neal X., Smith, Eric, Smith, Mark, Brown, Drew, Moe, Sharon M., and Allen, Matthew R.

Subjects

*KIDNEY diseases, *BONE diseases, *PHARMACOLOGY, *DIPHOSPHONATES, *BIOMECHANICS, *TREATMENT effectiveness

Abstract

Background/Aims Patients with chronic kidney disease mineral and bone disorder (CKD-MBD) have a significantly higher vertebral and non-vertebral fracture risk than the general population. Several preclinical models have documented altered skeletal properties in long bones, but few data exist for vertebral bone. The goal of this study was to examine the effects of progressive CKD on vertebral bone structure and mechanics and to determine the effects of treatment with either bisphosphonates or anti-sclerostin antibody in groups of animals with high or low PTH. Methods Animals with progressive kidney disease were left untreated, treated with calcium to lower PTH, zoledronic acid to lower remodeling without affecting PTH, anti-sclerostin antibody, or anti-sclerostin antibody plus calcium. Non-diseased, untreated littermates served as controls. Vertebral bone morphology (trabecular and cortical) and mechanical properties (structural and material-level) were assessed at 35 weeks of age by microCT and mechanical testing, respectively. Results CKD with high PTH resulted in 6-fold higher bone formation rate, significant reductions in the amount of trabecular and cortical bone, and compromised whole bone mechanical properties in the vertebra compared to normal animals. Treatments that reduced bone remodeling were effective in normalizing vertebral structure and mechanical properties only if the treatment reduced serum PTH. Similarly, treatment with anti-sclerostin antibody was effective in enhancing bone mass and mechanical properties but only if combined with PTH-suppressive treatment. Conclusions CKD significantly altered both cortical and trabecular bone properties in the vertebra resulting in compromised mechanical properties and these changes can be normalized by interventions that involve reductions in PTH levels. [ABSTRACT FROM AUTHOR]

Published

2015

21. Effect of intermittent PTH treatment on plasma glucose in osteoporosis: A randomized trial.

Author

D'Amelio, Patrizia, Sassi, Francesca, Buondonno, Ilaria, Spertino, Elena, Tamone, Cristina, Piano, Simonetta, Zugna, Daniela, Richiardi, Lorenzo, and Isaia, Giovanni Carlo

Subjects

*OSTEOPOROSIS in women, *PARATHYROID hormone, *RANDOMIZED controlled trials, *GLUCOSE metabolism, *HOMEOSTASIS, *CHOLECALCIFEROL, *GENETIC markers, *ENZYME-linked immunosorbent assay, *THERAPEUTICS

Abstract

We investigated the effect of bone turnover on glucose homeostasis, fat distribution and adipokine production during anabolic treatment with PTH. This is a parallel, randomized controlled, open label, trial. The randomization was done by computer generated tables to allocate treatments. Forty-six postmenopausal osteoporotic non-diabetic women were assigned to treatment with calcium and colecalcipherol with (24) or without (22) PTH 1–84. Patients were recalled after 3, 6, 12 and 18 months of treatment and markers of bone turnover, glucose metabolism, adipokine secretion and fat distribution were analyzed. Markers of bone turnover and adipokines were measured by ELISA. Glucose metabolism was evaluated by an oral glucose load test and insulin resistance and secretion were calculated. Fat and lean mass were evaluated by anthropometric measures. The effect of treatment on measured variables was analyzed by repeated measure test, and its effect on glucose was also evaluated by mediation analysis after correction for possible confounders. Twenty patients in the calcium and vitamin D groups and 19 in the group treated with PTH 1–84 completed the study. There were no significance adverse events. Treatment with PTH increases osteocalcin, both total (OC) and undercarboxylated (uOC), and decreases blood glucose, without influence on insulin secretion, resistance and pancreatic β cell function. Treatment with PTH does not influence fat distribution and adipokine production. The results of the mediation analyses suggest a total effect of PTH on blood glucose, moderately mediated by OC and to a less extent by uOC. Here we suggest that treatment with PTH influences glucose metabolism partially through its effect on bone turnover, without influence on insulin secretion, resistance, pancreatic β cell function and fat mass. [ABSTRACT FROM AUTHOR]

Published

2015

22. The parathyroid hormone-regulated transcriptome in osteocytes: Parallel actions with 1,25-dihydroxyvitamin D3 to oppose gene expression changes during differentiation and to promote mature cell function.

Author

St. John, Hillary C., Meyer, Mark B., Benkusky, Nancy A., Carlson, Alex H., Prideaux, Mathew, Bonewald, Lynda F., and Wesley Pike, J.

Subjects

*PARATHYROID hormone, *OSTEOCYTES, *CALCITRIOL, *GENE expression, *MESSENGER RNA, *GENETIC regulation

Abstract

Although localized to the mineralized matrix of bone, osteocytes are able to respond to systemic factors such as the calciotropic hormones 1,25(OH) 2 D 3 and PTH. In the present studies, we examined the transcriptomic response to PTH in an osteocyte cell model and found that this hormone regulated an extensive panel of genes. Surprisingly, PTH uniquely modulated two cohorts of genes, one that was expressed and associated with the osteoblast to osteocyte transition and the other a cohort that was expressed only in the mature osteocyte. Interestingly, PTH's effects were largely to oppose the expression of differentiation-related genes in the former cohort, while potentiating the expression of osteocyte-specific genes in the latter cohort. A comparison of the transcriptional effects of PTH with those obtained previously with 1,25(OH) 2 D 3 revealed a subset of genes that was strongly overlapping. While 1,25(OH) 2 D 3 potentiated the expression of osteocyte-specific genes similar to that seen with PTH, the overlap between the two hormones was more limited. Additional experiments identified the PKA-activated phospho-CREB (pCREB) cistrome, revealing that while many of the differentiation-related PTH regulated genes were apparent targets of a PKA-mediated signaling pathway, a reduction in pCREB binding at sites associated with osteocyte-specific PTH targets appeared to involve alternative PTH activation pathways. That pCREB binding activities positioned near important hormone-regulated gene cohorts were localized to control regions of genes was reinforced by the presence of epigenetic enhancer signatures exemplified by unique modifications at histones H3 and H4. These studies suggest that both PTH and 1,25(OH) 2 D 3 may play important and perhaps cooperative roles in limiting osteocyte differentiation from its precursors while simultaneously exerting distinct roles in regulating mature osteocyte function. Our results provide new insight into transcription factor-associated mechanisms through which PTH and 1,25(OH) 2 D 3 regulate a plethora of genes important to the osteoblast/osteocyte lineage. [ABSTRACT FROM AUTHOR]

Published

2015

23. FGF23 gene variation and its association with phosphate homeostasis and bone mineral density in Finnish children and adolescents.

Author

Pekkinen, Minna, Laine, Christine M., Mäkitie, Riikka, Leinonen, Eira, Lamberg-Allardt, Christel, Viljakainen, Heli, and Mäkitie, Outi

Subjects

*FIBROBLAST growth factors, *HUMAN genetic variation, *PHOSPHATES, *HOMEOSTASIS, *BONE density, *VITAMIN D, *BIOMINERALIZATION

Abstract

Fibroblast growth factor 23 (FGF23), a bone-derived hormone, participates in the hormonal bone–parathyroid–kidney axis, which is modulated by PTH, 1,25-dihydroxyvitamin D, plasma phosphate (Pi), and diet. Inappropriately high serum FGF23, seen in certain genetic and acquired disorders, results in urinary phosphate wasting and impaired bone mineralization. This study investigated the impact of FGF23 gene variation on phosphate homeostasis and bone health. The study included 183 children and adolescents (110 girls) aged 7–19 years (median 13.2 years). Urine and blood parameters of calcium and phosphate homeostasis were analyzed. Bone characteristics were quantified by DXA and peripheral quantitative computed tomography (pQCT). Genetic FGF23 variation was assessed by direct sequencing of coding exons and flanking intronic regions. Nine FGF23 polymorphisms were detected; three of them were common: rs3832879 (c.212-37insC), rs7955866 (c.716C>T, p.T239M) and rs11063112 (c.2185A>T). Four different haplotypes and six different diplotypes were observed among these three polymorphisms. The variations in FGF23 significantly associated with plasma PTH and urinary Pi excretion, even after adjusting for relevant covariates. FGF23 variations independently associated with total hip BMD Z-score, but not with other bone outcomes. In instrument analysis, genetic variance in FGF23 was considered a weak instrument as it only induced small variations in circulating FGF23, PTH and Pi concentrations (F statistic less than 10). The observed associations between FGF23 variations and circulating PTH, and Pi excretion and total hip BMD Z-scores suggest that FGF23 polymorphisms may play a role in mineral homeostasis and bone metabolism. [ABSTRACT FROM AUTHOR]

Published

2015

24. Additive effect of PTH (1–34) and zoledronate in the prevention of disuse osteopenia in rats.

Author

Vegger, Jens Bay, Nielsen, Esben Sommer, Brüel, Annemarie, and Thomsen, Jesper Skovhus

Subjects

*OSTEOPENIA, *ENCAPSULATION (Catalysis), *PHARMACEUTICAL industry, *ZOLEDRONIC acid, *BONE physiology, *BOTULINUM toxin

Abstract

Immobilization is known to cause a rapid bone loss due to increased osteoclastic bone resorption and decreased osteoblastic bone formation. Zoledronate (Zln) is a potent anti-resorptive pharmaceutical, while intermittent PTH is a potent bone anabolic agent. The aim of the present study was to investigate whether PTH or Zln alone or in combination could prevent immobilization-induced osteopenia. Immobilization was achieved by injecting 4 IU Botox (BTX) into the right hind limb musculature. Seventy-two 16-week-old female Wistar rats were randomized into 6 groups; baseline (Base), control (Ctrl), BTX, BTX+PTH, BTX+Zln, and BTX+PTH+Zln. PTH (1–34) (80 μg/kg) was given 5 days/week and Zln (100 μg/kg) was given once at study start. The animals were killed after 4 weeks of treatment. The bone properties were evaluated using DEXA, μCT, dynamic bone histomorphometry, and mechanical testing. BTX resulted in lower femoral trabecular bone volume fraction (BV/TV) (− 25%, p < 0.05), lower tibial trabecular bone formation rate (BFR/BS) (− 29%, p < 0.05), and lower bone strength ( F max ) at the distal femur (− 19%, p < 0.001) compared with Ctrl. BTX+PTH resulted in higher femoral BV/TV (+ 31%, p < 0.05), higher tibial trabecular BFR/BS (+ 297%, p < 0.05), and higher F max at the distal femur (+ 11%, p < 0.05) compared with BTX. BTX+Zln resulted in higher femoral BV/TV (+ 36%, p < 0.05), lower tibial trabecular BFR/BS (− 93%, p < 0.05), and higher F max at the distal femur (+ 10%, p < 0.05) compared with BTX. BTX+PTH+Zln resulted in higher femoral BV/TV (+ 70%, p < 0.001), higher tibial trabecular BFR/BS (+ 59%, p < 0.05), and higher F max at the distal femur (+ 32%, p < 0.001) compared with BTX. In conclusion, BTX-induced immobilization led to lower BV/TV, BFR/BS, and F max . In general, PTH or Zln alone prevented the BTX-induced osteopenia, whereas PTH and Zln given in combination not only prevented, but also increased BV/TV and BFR/BS, and maintained F max at the distal femoral metaphysis compared with Ctrl. [ABSTRACT FROM AUTHOR]

Published

2014

25. Activin type IIA decoy receptor and intermittent parathyroid hormone in combination overturns the bone loss in disuse-osteopenic mice

Author

Frederik Duch Bromer, Marco Eijken, Bram C. J. van der Eerden, Jesper Skovhus Thomsen, Andreas Lodberg, Mikkel Bo Brent, Annemarie Brüel, and Internal Medicine

Subjects

0301 basic medicine, medicine.medical_specialty, Histology, Physiology, Endocrinology, Diabetes and Metabolism, Activin Receptors, Parathyroid hormone, 030209 endocrinology & metabolism, Hindlimb, IASP, Lower motor neuron, 03 medical and health sciences, Mice, 0302 clinical medicine, SDG 3 - Good Health and Well-being, Bone Density, Internal medicine, medicine, Teriparatide, Animals, Receptor, Anabolics, Bone mineral, Activin receptor signaling pathway, Botox, business.industry, Osteopenia, medicine.disease, Activins, Mice, Inbred C57BL, Bone Diseases, Metabolic, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, Parathyroid Hormone, Female, business, Disuse, hormones, hormone substitutes, and hormone antagonists, medicine.drug, PTH

Abstract

Damage of the lower motor neuron cell bodies or their axons results in reduced or abolished voluntary movement accompanied by a substantial loss of bone and muscle mass. Intermittent parathyroid hormone 1–34 (PTH) (teriparatide) is one of the most potent bone-anabolic treatment regimens. ActRIIA-mFc is an activin type IIA decoy receptor that increases bone mass mediated by inhibition of the activin receptor signaling pathway. We investigated whether PTH or ActRIIA-mFc alone or in combination could prevent loss of bone and muscle mass induced by injecting botulinum toxin A (BTX) into the right hind limb in mice. Seventy-two 16-week-old female C57BL/6 mice were allocated to the following groups: Baseline, Control, BTX, BTX + ActRIIA-mFc (10 mg/kg), BTX + PTH (100 μg/kg), and BTX + ActRIIA-mFc + PTH. The mice were sacrificed after three weeks of disuse and treatment. In contrast to monotherapy with PTH, ActRIIA-mFc alone or in combination with PTH was able partly or completely to prevent disuse-induced loss of whole femoral bone mass, trabecular thickness, and bone strength. Moreover, an additive effect of ActRIIA-mFc and PTH on areal bone mineral density and trabecular bone volume was found. In summary, ActRIIA-mFc and PTH in combination were more effective in preventing disuse-induced bone loss and deterioration of trabecular micro-architecture than either treatment alone.

Published

2020

26. PTH prevents the adverse effects of focal radiation on bone architecture in young rats.

Author

Chandra, Abhishek, Lan, Shenghui, Zhu, Ji, Lin, Tiao, Zhang, Xianrong, Siclari, Valerie A., Altman, Allison R., Cengel, Keith A., Liu, X. Sherry, and Qin, Ling

Subjects

*PARATHYROID hormone, *BONE physiology, *RADIOTHERAPY, *CANCER patients, *CANCER chemotherapy, *BONE fractures, *QUALITY of life, *LABORATORY rats

Abstract

Abstract: Radiation therapy is a common treatment regimen for cancer patients. However, its adverse effects on the neighboring bone could lead to fractures with a great impact on quality of life. The underlying mechanism is still elusive and there is no preventive or curative solution for this bone loss. Parathyroid hormone (PTH) is a current therapy for osteoporosis that has potent anabolic effects on bone. In this study, we found that focal radiation from frequent scans of the right tibiae in 1-month-old rats by micro-computed tomography severely decreased trabecular bone mass and deteriorated bone structure. Interestingly, PTH daily injections remarkably improved trabecular bone in the radiated tibiae with increases in trabecular number, thickness, connectivity, structure model index and stiffness, and a decrease in trabecular separation. Histomorphometric analysis revealed that radiation mainly decreased the number of osteoblasts and impaired their mineralization activity but had little effects on osteoclasts. PTH reversed these adverse effects and greatly increased bone formation to a similar level in both radiated and non-radiated bones. Furthermore, PTH protects bone marrow mesenchymal stem cells from radiation-induced damage, including a decrease in number and an increase in adipogenic differentiation. While radiation generated the same amount of free radicals in the bone marrow of vehicle-treated and PTH-treated animals, the percentage of apoptotic bone marrow cells was significantly attenuated in the PTH group. Taken together, our data demonstrate a radioprotective effect of PTH on bone structure and bone marrow and shed new light on a possible clinical application of anabolic treatment in radiotherapy. [Copyright &y& Elsevier]

Published

2013

27. Effects of PTH on osteocyte function.

Author

Bellido, Teresita, Saini, Vaibhav, and Pajevic, Paola Divieti

Subjects

*OSTEOCYTES, *PARATHYROID hormone, *AVERSIVE stimuli, *OSTEOBLASTS, *OSTEOCLASTS, *GENE expression

Abstract

Abstract: Osteocytes are ideally positioned to detect and respond to mechanical and hormonal stimuli and to coordinate the function of osteoblasts and osteoclasts. However, evidence supporting the involvement of osteocytes in specific aspects of skeletal biology has been limited mainly due to the lack of suitable experimental approaches. Few crucial advances in the field in the past several years have markedly increased our understanding of the function of osteocytes. The development of osteocytic cell lines initiated a plethora of in vitro studies that have provided insights into the unique biology of osteocytes and continue to generate novel hypotheses. Genetic approaches using promoter fragments that direct gene expression to osteocytes allowed the generation of mice with gain or loss of function of particular genes revealing their role in osteocyte function. Furthermore, evidence that Sost/sclerostin is expressed primarily in osteocytes and inhibits bone formation by osteoblasts, fueled research attempting to identify regulators of this gene as well as other osteocyte products that impact the function of osteoblasts and osteoclasts. The discovery that parathyroid hormone (PTH), a central regulator of bone homeostasis, inhibits sclerostin expression generated a cascade of studies that revealed that osteocytes are crucial target cells of the actions of PTH. This review highlights these investigations and discusses their significance for advancing our understanding of the mechanisms by which osteocytes regulate bone homeostasis and for developing therapies for bone diseases targeting osteocytes. This article is part of a Special Issue entitled "The Osteocyte". [Copyright &y& Elsevier]

Published

2013

28. Vasodilation to PTH (1-84) in bone arteries is dependent upon the vascular endothelium and is mediated partially via VEGF signaling

Author

Prisby, Rhonda, Menezes, Thomas, and Campbell, Jeremiah

Subjects

*VASODILATION, *ARTERIES, *PARATHYROID hormone, *VASCULAR endothelial growth factors, *CELLULAR signal transduction, *VASCULAR endothelium, BONE blood-vessels

Abstract

Abstract: Background: Intermittent PTH administration directly stimulates osteoblasts; however, mechanisms of bone accrual that are independent of the direct actions on osteoblasts may be under-appreciated. Our aims were to decipher (1) whether PTH 1-84 augments vasodilation of the femoral principal nutrient artery (PNA), (2) whether 15days of intermittent PTH 1-84 augments endothelium-dependent and/or -independent vasodilation of the femoral PNA, and (3) the signaling mechanisms involved. Methods: Experiment 1: Femoral PNAs from male Wistar rats were exposed to cumulative doses of PTH 1-84 with and without an anti-vascular endothelial growth factor antibody and/or the endothelial NO synthase inhibitor l-NAME. Experiment 2: Male Wistar rats were administered PTH and/or the anti-VEGF antibody for 2weeks. Subsequently, endothelium-dependent vasodilation to acetylcholine and endothelium-independent vasodilation to sodium nitroprusside were assessed. In addition, endothelium-dependent signaling pathways were analyzed by use of l-NAME and/or and the cyclooxygenase inhibitor indomethacin. Results: Cumulative doses of PTH 1-84 induced vasodilation of the femoral PNA, which was reduced by 38% and 87% with the anti-VEGF antibody and l-NAME, respectively. Secondly, 2weeks of intermittent PTH 1-84 administration doubled trabecular bone volume, augmented bone formation parameters and reduced osteoclast activity. In addition, PTH enhanced endothelium-dependent vasodilation via up-regulation of NO. Co-administration of the anti-VEGF antibody (1) inhibited the PTH-induced increase in bone volume and remodeling parameters and (2) blunted the augmented vasodilator responsiveness of the PNA. Finally, endothelium-dependent vasodilation in PTH-treated rats was highly correlated with trabecular bone volume. Conclusion: As hypothesized, PTH enhanced endothelium-dependent vasodilation of the femoral PNA via augmented NO production and was mediated partially through VEGF signaling. Further, vasodilation to PTH appears independent of vascular smooth muscle cell participation. More importantly, the strong association between vasodilation and bone volume suggests that bone arteriolar function is critical for PTH-induced bone anabolism. [Copyright &y& Elsevier]

Published

2013

29. PTH (1–34), but not strontium ranelate counteract loss of trabecular thickness and bone strength in disuse osteopenic rats

Author

Brüel, Annemarie, Vegger, Jens Bay, Raffalt, Anders Christer, Andersen, Jens Enevold Thaulov, and Thomsen, Jesper Skovhus

Subjects

*PARATHYROID hormone, *STRONTIUM ranelate, *OSTEOPOROSIS, *LABORATORY rats, *BONE diseases, *DRUG dosage, *INJECTIONS, *FEMUR neck

Abstract

Abstract: PTH and strontium ranelate (SrR) have both been shown to reduce bone loss induced by immobilization. PTH is a potent bone anabolic agent, whereas SrR has been suggested to be an antiresorptive as well as a bone anabolic agent. The aim of the study was to investigate whether PTH, SrR, and PTH and SrR in combination could counteract immobilization-induced bone loss in a rat model. Immobilization was induced by injecting 4IU Botox (BTX) into the muscles of the right hind limb. Seventy-two female Wistar rats, 3-months-old, were divided into the following groups: Baseline, Controls, BTX, BTX+PTH, BTX+SrR, and BTX+PTH+SrR (n=12 in each group). PTH was given as injections (SC) at a dosage of 60μg/kg/d, and SrR as 900mg/kg/d in the diet. The experiment lasted for 4weeks. BTX resulted in lower trabecular bone formation rate (−68%) and periosteal bone formation rate (−91%), and a higher fraction of osteoclast-covered surfaces (+53%) compared with controls. This was accompanied by significantly lower trabecular bone volume fraction (−24%), trabecular thickness (−16%), and bone strength (−14% to −32% depending on site). PTH alone counteracted immobilization-induced losses in trabecular (4-fold increase vs. BTX) and periosteal (5-fold increase vs. BTX) bone formation rate, trabecular thickness (+25% vs. BTX) and femoral neck strength (+24% vs. BTX). In contrast, SrR did not influence BTX-induced loss of bone formation rate, trabecular bone volume fraction, trabecular thickness, or bone strength. Finally, no additive effect was found when PTH and SrR treatments were combined. In conclusion, PTH counteracted loss in bone architecture and bone strength in immobilized rats, whereas as no effect of SrR was found. Moreover, no additional effect was found by combining PTH with SrR. [Copyright &y& Elsevier]

Published

2013

30. The effects of PTH, loading and surgical insult on cancellous bone at the bone–implant interface in the rabbit

Author

Fahlgren, Anna, Yang, Xu, Ciani, Cesare, Ryan, James A., Kelly, Natalie, Ko, Frank C., van der Meulen, Marjolein C.H., and Bostrom, Mathias P.G.

Subjects

*PARATHYROID hormone-related protein, *LABORATORY rabbits, *HEALTH outcome assessment, *BONE density, *ARTIFICIAL joints, *COMPARATIVE studies, *COLLAGEN

Abstract

Abstract: Enhancing the quantity and quality of cancellous bone with anabolic pharmacologic agents may lead to more successful outcomes of non-cemented joint replacements. Using a novel rabbit model of cancellous bone loading, we examined two specific questions regarding bone formation at the bone–implant interface: (1) does the administration of intermittent PTH, a potent anabolic agent, and mechanical loading individually and combined enhance the peri-implant cancellous bone volume fraction; and, (2) does surgical trauma enhance the anabolic effect of PTH on peri-implant bone volume fraction. In this model, PTH enhanced peri-implant bone volume fraction by 30% in loaded bone, while mechanical loading alone increased bone volume fraction modestly (+10%). Combined mechanical loading and PTH treatment had no synergistic effect on any cancellous parameters. However, a strong combined effect was found in bone volume fraction with combined surgery and PTH treatment (+34%) compared to intact control limbs. Adaptive changes in the cancellous bone tissue included increased ultimate stress and enhanced remodeling activity. The number of proliferative osteoblasts increased as did their expression of pro-collagen 1 and PTH receptor 1, and the number of TRAP positive osteoclasts also increased. In summary, both loading and intermittent PTH treatment enhanced peri-implant bone volume, and surgery and PTH treatment had a strong combined effect. This finding is of clinical importance since enhancing early osseointegration in the post-surgical period has numerous potential benefits. [Copyright &y& Elsevier]

Published

2013

31. Impact of vitamin D supplementation on markers of bone mineral metabolism in term infants

Author

Czech‐Kowalska, Justyna, Pludowski, Pawel, Dobrzanska, Anna, Kryskiewicz, Edyta, Karczmarewicz, Elzbieta, Gruszfeld, Dariusz, Pleskaczynska, Agata, and Golkowska, Malgorzata

Subjects

*NEONATAL diseases, *PHYSIOLOGICAL effects of vitamin D, *MINERAL content of bones, *BONE metabolism, *VITAMIN deficiency, *ALKALINE phosphatase, *OSTEOCALCIN, *FOLLOW-up studies (Medicine)

Abstract

Abstract: 25-Hydroxyvitamin D (25OHD) may influence bone turnover. We compared the dynamics of bone markers in 30 infants on vitamin D supplementation (≅550IU/day) with different degrees of hypovitaminosis D (25OHD <11ng/ml — deficiency vs. ≥11 <20ng/ml — insufficiency). Baseline and follow-up (after 10weeks), 25OHD, 1,25-dihydroxyvitamin D (1,25(OH)2D), alkaline phosphatase (ALP), PTH, osteocalcin (OC), N-terminal propeptide of type I procollagen (PINP), C-terminal telopeptide of type I collagen (CTX), and amino-terminal propeptide of C-type natriuretic peptide (NT-proCNP) were measured. None of the newborns had craniotabes, hypocalcemia or hyperparathyroidism. The median (Q1;Q3) 25OHD increased from a baseline of 8.45 (7;11.9) ng/ml to 54.6 (34.7;67.3) ng/ml (p<0.001). The baseline 25OHD negatively correlated with total increment of 25OHD (r=−0.54; p=0.002). There were changes in ALP (241 vs. 331IU; p<0.001), 1,25(OH)2D (48 vs. 95.5pg/ml, p<0.001), OC (88.8 vs. 159.1ng/ml, p<0.001), PINP (3886 vs. 2409ng/ml; p<0.001), CTX (1.6 vs. 1.1ng/ml; p<0.001), and NT-proCNP (75.1 vs. 35.1pmol/l; p<0.001). Vitamin D deficient infants at baseline, compared to the insufficient group, revealed significantly higher percentage changes for 25OHD (745% vs. 167%, p<0.0001), OC (113% vs. 40%, p<0.05) and 1,25(OH)2D (95% vs. 58%, p<0.05). Conclusions: Vitamin D supplements had little to no impact on markers of bone turnover in term infants in the first few months of life, with the exception of osteocalcin. Ten weeks of cholecalciferol supplementation at a dose of 550IU/day led to a marked increase of 25OHD concentration. The magnitude of 25OHD increment was inversely related to vitamin D status at baseline. Irrespective of the severity of vitamin D deficiency, a secondary hyperparathyroidism with elevated iPTH, ALP, phosphaturia or hypophosphatemia was not observed in the studied neonates. [Copyright &y& Elsevier]

Published

2012

32. Black bear parathyroid hormone has greater anabolic effects on trabecular bone in dystrophin-deficient mice than in wild type mice

Author

Gray, Sarah K., McGee-Lawrence, Meghan E., Sanders, Jennifer L., Condon, Keith W., Tsai, Chung-Jui, and Donahue, Seth W.

Subjects

*PARATHYROID hormone, *DYSTROPHIN, *DUCHENNE muscular dystrophy, *NEUROMUSCULAR diseases, *OSTEOPOROSIS, *DISEASE progression, *EARLY death, *LABORATORY mice

Abstract

Abstract: Duchenne muscular dystrophy (DMD) is an X-linked neuromuscular disease that has deleterious consequences in muscle and bone, leading to decreased mobility, progressive osteoporosis, and premature death. Patients with DMD experience a higher-than-average fracture rate, particularly in the proximal and distal femur and proximal tibia. The dystrophin-deficient mdx mouse is a model of DMD that demonstrates muscle degeneration and fibrosis and osteoporosis. Parathyroid hormone, an effective anabolic agent for post-menopausal and glucocorticoid-induced osteoporosis, has not been explored for DMD. Black bear parathyroid hormone (bbPTH) has been implicated in the maintenance of bone properties during extended periods of disuse (hibernation). We cloned bbPTH and found 9 amino acid residue differences from human PTH. Apoptosis was mitigated and cAMP was activated by bbPTH in osteoblast cultures. We administered 28nmol/kg of bbPTH 1–84 to 4-week old male mdx and wild type mice via daily (5×/week) subcutaneous injection for 6weeks. Vehicle-treated mdx mice had 44% lower trabecular bone volume fraction than wild type mice. No changes were found in femoral cortical bone geometry or mechanical properties with bbPTH treatment in wild type mice, and only medio-lateral moment of inertia changed with bbPTH treatment in mdx femurs. However, μCT analyses of the trabecular regions of the distal femur and proximal tibia showed marked increases in bone volume fraction with bbPTH treatment, with a greater anabolic response (7-fold increase) in mdx mice than wild type mice (2-fold increase). Trabecular number increased in mdx long bone, but not wild type bone. Additionally, greater osteoblast area and decreased osteoclast area were observed with bbPTH treatment in mdx mice. The heightened response to PTH in mdx bone compared to wild type suggests a link between dystrophin deficiency, altered calcium signaling, and bone. These findings support further investigation of PTH as an anabolic treatment for DMD-induced osteoporosis. [Copyright &y& Elsevier]

Published

2012

33. A novel homozygous mutation in the parathyroid hormone gene (PTH) in a girl with isolated hypoparathyroidism

Author

Ertl, Diana-Alexandra, Stary, Susanne, Streubel, Berthold, Raimann, Adalbert, and Haeusler, Gabriele

Subjects

*GENETIC mutation, *PARATHYROID hormone, *HYPOPARATHYROIDISM, *DISEASES in girls, *HYPOCALCEMIA, *CALCIUM carbonate

Abstract

Abstract: Case report: A female patient with consanguineous parents presented with severe symptomatic hypocalcemia (1.62mmol/l) at the age of 4months. Treatment with oral 1,25-(OH)2-vitamin D and calcium carbonate was started and serum calcium concentrations were stabilized at the lower end of the normal range. Subsequently she developed normally and had no evidence for additional abnormalities. Over the next 6years of observation, serum levels of PTH were always low but detectable (5.3–2.5pg/ml; normal: 15–65pg/ml) resulting in the diagnosis of isolated hypoparathyroidism. Disturbances in the vitamin-D metabolism, autoimmune polyendocrine syndrome (APS), chromosomal anomalies or mutations in the calcium-sensing receptor gene (CaSR) were excluded. Nucleotide sequence analysis of PTH revealed the presence of a homozygous point mutation (c.68C>A) in exon 2 that introduces a premature termination codon (p.Ser23X in the Pre- sequence of PTH) resulting in a non-functional PTH-precursor. Conclusion: A novel, homozygous PTH mutations was identified, which is obviously a very rare cause of isolated hypoparathyroidism (IHP). Although activating CaSR mutations are the most common cause of hypoparathyroidism, analysis of the PTH gene should be considered in those IHP patients in whom a CaSR has been excluded, particularly if the parents are likely to be consanguineous. [Copyright &y& Elsevier]

Published

2012

34. Pharmacodynamic Responses to combined treatment regimens with the calcium sensing receptor antagonist JTT-305/MK-5442 and alendronate in osteopenic ovariectomized rats

Author

Fisher, John E., Scott, Kevin, Wei, Nan, Zhao, Jing Z., Cusick, Tara, Tijerina, Monica, Karanam, Bindhu, Duong, Le, and Glantschnig, Helmut

Subjects

*OSTEOPOROSIS treatment, *PHARMACODYNAMICS, *ALENDRONATE, *PARATHYROID hormone, *BONE densitometry, *ORAL drug administration, *ALTERNATIVE medicine, *BONE growth, *LABORATORY rats

Abstract

Abstract: Parathyroid hormone (PTH) is the anabolic standard of care for patients with severe osteoporosis. The CaSR allosteric antagonist JTT-305/MK-5442, a PTH secretagogue, could offer an oral osteoanabolic treatment alternative for postmenopausal women with osteoporosis. Here we disclose the pharmacokinetic profile of JTT-305/MK-5442 and its activity on bone remodeling in ovariectomized (OVX) osteopenic rats. Daily treatments (0.3 to 2.4mg/kg/d) for 12weeks resulted in plateaued BMD increases (3.8 to 5.3%) at axial and appendicular skeletal sites. However, treatment effects were not statistically significant, in agreement with effects seen in animals treated with low dose PTH (1–84) (5μg/kg/d). In a consecutive study we tested JTT-305/MK-5442 effects on bone formation in OVX-rats challenged with combined alendronate (ALN) treatment paradigms. At 7month, JTT-305/MK-5442 treatment significantly increased BMD in lumbar vertebrae (LV), while no change in BMD was observed in femora or tibiae. ALN add-on co-treatment produced incremental increases in LV, distal femur (DF) and proximal tibia (PT) BMD over the respective ALN control. Histological analyses confirmed modest increases in mineralized surface (MS/BS) and bone formation rate (30.5±1.9%) on trabecular surfaces by JTT-305/MK-5442. As expected, ALN administration profoundly reduced bone formation, however, JTT-305/MK-5442 significantly stimulated MS/BS and BFR in ALN treated groups. In summary, JTT-305/MK-5442 acts as a PTH secretagogue in the osteopenic OVX-rat, eliciting consistent, though modest effects on remediation of BMD due to estrogen depletion. Induction of bone formation by JTT-305/MK-5442 at trabecular bone surfaces appears to be resilient to ALN-mediated suppression of bone formation. This study provides for the first time, a mechanistic evaluation of combination treatment of a PTH secretagogue with ALN. [Copyright &y& Elsevier]

Published

2012

35. Changes in intracortical microporosities induced by pharmaceutical treatment of osteoporosis as detected by high resolution micro-CT

Author

Tommasini, Steven M., Trinward, Andrea, Acerbo, Alvin S., De Carlo, Francesco, Miller, Lisa M., and Judex, Stefan

Subjects

*OSTEOPOROSIS diagnosis, *BONE mechanics, *TOMOGRAPHY, *OSTEOCYTES, *ESTROGEN, *LABORATORY rats

Abstract

Abstract: Bone''s microporosities play important biologic and mechanical roles. Here, we quantified 3D changes in cortical osteocyte-lacunae and other small porosities induced by estrogen withdrawal and two different osteoporosis treatments. Unlike 2D measurements, these data collected via synchrotron radiation-based μCT describe the size and 3D spatial distribution of a large number of porous structures. Six-month old female Sprague–Dawley rats were separated into four groups of age-matched controls, untreated OVX, OVX treated with PTH, and OVX treated with Alendronate (ALN). Intracortical microporosity of the medial quadrant of the femoral diaphysis was quantified at endosteal, intracortical, and periosteal regions of the samples, allowing the quantification of osteocyte lacunae that were formed primarily before versus after the start of treatment. Across the overall thickness of the medial cortex, lacunar volume fraction (Lc.V/TV) was significantly lower in ALN treated rats compared to PTH. In the endosteal region, average osteocyte lacunar volume () of untreated OVX rats was significantly lower than in age-matched controls, indicating a decrease in osteocyte lacunar size in bone formed on the endosteal surface after estrogen withdrawal. The effect of treatment (OVX, ALN, PTH) on the number of lacunae per tissue volume (Lc.N/TV) was dependent on the specific location within the cortex (endosteal, intracortical, periosteal). In both the endosteal and intracortical regions, Lc.N/TV was significantly lower in ALN than in untreated OVX, suggesting a site-specific effect in osteocyte lacuna density with ALN treatment. There also were a significantly greater number of small pores (5–100μm3 in volume) in the endosteal region for PTH compared to ALN. The mechanical impact of this altered microporosity structure is unknown, but might serve to enhance, rather than deteriorate bone strength with PTH treatment, as smaller osteocyte lacunae may be better able to absorb shear forces than larger lacunae. Together, these data demonstrate that current treatments of osteoporosis can alter the number, size, and distribution of microporosities in cortical rat lamellar bone. [Copyright &y& Elsevier]

Published

2012

36. Normal epidermal growth factor receptor signaling is dispensable for bone anabolic effects of parathyroid hormone

Author

Schneider, Marlon R., Dahlhoff, Maik, Andrukhova, Olena, Grill, Jessica, Glösmann, Martin, Schüler, Christiane, Weber, Karin, Wolf, Eckhard, and Erben, Reinhold G.

Subjects

*EPIDERMAL growth factor receptors, *PARATHYROID hormone, *BONE metabolism, *CELLULAR signal transduction, *OSTEOPOROSIS treatment, *MOLECULAR biology, *BONE density, *TOMOGRAPHY

Abstract

Abstract: Although the bone anabolic properties of intermittent parathyroid hormone (PTH) have long been employed in the treatment of osteoporosis, the molecular mechanisms behind this action remain largely unknown. Previous studies showed that PTH increases the expression and the activity of epidermal growth factor receptor (EGFR) in osteoblasts, and activation of ERK1/2 by PTH in osteoblasts was demonstrated to induce the proteolytical release of EGFR ligands and EGFR transactivation. However, conclusive evidence for an important role of the EGFR system in mediating the anabolic actions of intermittent PTH on bone in vivo is lacking. Here, we evaluated the effects of intermittent PTH on bone in Waved-5 (Wa5) mice which carry an antimorphic Egfr allele whose product acts as a dominant negative receptor. Heterozygous Wa5 females and control littermates received a subcutaneous injection of PTH (80μg/kg) or buffer on 5days per week for 4weeks. Wa5 mice had slightly lower total bone mineral density (BMD), but normal cancellous bone volume and turnover in the distal femoral metaphysis. The presence of the antimorphic Egfr allele neither influenced the PTH-induced increase in serum osteocalcin nor the increases in distal femoral BMD, cortical thickness, cancellous bone volume, and cancellous bone formation rate. Similarly, the PTH-induced rise in lumbar vertebral BMD was unchanged in Wa5 relative to wild-type mice. Wa5-derived osteoblasts showed considerably lower basal extracellular signal-regulated kinase 1/2 (ERK1/2) activation as compared to control osteoblasts. Whereas activation of ERK1/2 by the EGFR ligand amphiregulin was largely blocked in Wa5 osteoblasts, treatment with PTH induced ERK1/2 activation comparable to that observed in control osteoblasts, relative to baseline levels. Our data indicate that impairment of EGFR signaling does not affect the anabolic action of intermittent PTH on cancellous and cortical bone. [Copyright &y& Elsevier]

Published

2012

37. Effects of intermittent parathyroid hormone treatment on osteoprogenitor cells in postmenopausal women

Author

Drake, Matthew T., Srinivasan, Bhuma, Mödder, Ulrike I., Ng, Alvin C., Undale, Anita H., Roforth, Matthew M., Peterson, James M., McCready, Louise K., Riggs, B. Lawrence, and Khosla, Sundeep

Subjects

*OSTEOPOROSIS in women, *PARATHYROID hormone, *BONE growth, *TREATMENT effectiveness, *APOPTOSIS, *CELL differentiation, *BIOMARKERS, *GENE expression, *THERAPEUTICS

Abstract

Abstract: Intermittent parathyroid hormone (PTH) 1–34 treatment stimulates bone formation, but the molecular mechanisms mediating this effect have not been previously studied in humans. Thus, we used magnetic activated cell sorting to isolate hematopoietic lineage negative (lin-)/alkaline phosphatase positive (AP+) osteoprogenitor cells from bone marrow of 20 postmenopausal women treated with PTH (1–34) for 14days and 19 control subjects. Serum PINP and CTX increased in PTH-treated subjects (by 97% and 30%, respectively, P<0.001). Bone marrow lin-/AP+ cells from PTH-treated subjects showed an increase in the RANKL/OPG mRNA ratio (by 7.5-fold, P=0.011) and in the mRNAs for c-fos (a known PTH-responsive gene, by 42%, P=0.035) and VEGF-C (by 57%, P=0.046). Gene Set Enrichment Analysis (GSEA, testing for changes in pre-specified pathways) demonstrated that PTH had no effect on osteoblast proliferation, apoptosis, or differentiation markers. However, PTH treatment resulted in a significant decrease (GSEA P-value, 0.005) in a panel of BMP target genes in the lin-/AP+ cells. Our findings thus identify several future directions for studying mechanisms of PTH action in humans. First, given the increasing evidence that PTH induces angiogenesis, the role of increased VEGF-C production by bone marrow osteoprogenitor cells in mediating this effect and the anabolic response to PTH warrants further study. Second, while the observed inhibition of BMP target gene expression by PTH is not consistent with the anabolic effects of PTH on bone and requires further validation, these data do generate the hypothesis that an inhibition of BMP signaling by PTH may, over time, limit the availability of mature osteoblasts on bone surfaces and thereby contribute to the observed waning of the anabolic response to PTH. [Copyright &y& Elsevier]

Published

2011

38. Ibandronate does not reduce the anabolic effects of PTH in ovariectomized rat tibiae: A microarchitectural and mechanical study

Author

Yang, Xiao, Chan, Yong Hoow, Muthukumaran, Padmalosini, DasDe, Shamal, Teoh, Swee-Hin, and Lee, Taeyong

Subjects

*PARATHYROID hormone-related protein, *DIPHOSPHONATES, *OSTEOPOROSIS, *OSTEOCLASTS, *BIOMARKERS, *LABORATORY rats, *TOMOGRAPHY

Abstract

Abstract: Osteoporosis remains a challenging problem. Understanding the regulation on osteoclast and osteoblast by drugs has been of great interest. Both anabolic and anti-resorptive drugs yield positive results in the treatment of osteoporosis. However, whether the concurrent administration of parathyroid hormone (1–34) and ibandronate may offer an advantage over monotherapy is still unknown. This study, therefore, attempts to compare the efficacy of two therapeutical approaches and to investigate the beneficial effects in concurrent therapy in a rat model using three-point bending, pQCT and μCT analysis. A total of 60 female Sprague–Dawley rats of age 10 to 12weeks were divided into 5 groups (SHAM, OVX+VEH, OVX+PTH, OVX+IBAN, OVX+PTH+IBAN) and subjected to ovariectomy or sham surgery accordingly. Low-dose parathyroid hormone (PTH) and/or ibandronate or its vehicle were administered subcutaneously to the respective groups starting from 4th week post-surgery at weekly intervals. Three rats from each group were euthanized every 2weeks and their tibiae were harvested. The tibiae were subjected to metaphyseal three-point bending, pQCT and μCT analysis. Serum biomarkers for both bone formation (P1NP) and resorption (CTX) were studied. A total of 11 indices showed a significant difference between SHAM and OVX+VEH groups, suggesting the successful establishment of osteoporosis in the rat model. Compared to the previous studies which showed impedance from bisphosphonates in combination therapy with PTH, our study revealed that ibandronate does not block the anabolic effects of PTH in ovariectomized rat tibiae. Maximum load, strength–strain indices and serum bone formation markers of OVX+PTH+IBAN group are significantly higher than both monotherapy groups. With the proper ratio of anabolic and anti-resorptive drugs, the effect could be more pronounced. [Copyright &y& Elsevier]

Published

2011

39. Teriparatide therapy enhances devitalized femoral allograft osseointegration and biomechanics in a murine model

Author

Reynolds, David G., Takahata, Masahiko, Lerner, Amy L., O'Keefe, Regis J., Schwarz, Edward M., and Awad, Hani A.

Subjects

*BONE grafting, *TOMOGRAPHY, *BIOMECHANICS, *PARATHYROID hormone, *OSSEOINTEGRATION, *LABORATORY mice

Abstract

Abstract: Despite the remarkable healing potential of long bone fractures, traumatic injuries that result in critical defects require challenging reconstructive limb sparing surgery. While devitalized allografts are the gold standard for these procedures, they are prone to failure due to their limited osseointegration with the host. Thus, the quest for adjuvants to enhance allograft healing remains a priority for this unmet clinical need. To address this, we investigated the effects of daily systemic injections of 40μg/kg teriparatide (recombinant human parathyroid hormone) on the healing of devitalized allografts used to reconstruct critical femoral defects (4mm) in C57Bl/6 mice. The femurs were evaluated at 4 and 6weeks using micro CT, histology, and torsion testing. Our findings demonstrated that teriparatide induced prolonged cartilage formation at the graft-host junction at 4weeks, which led to enhanced trabeculated bone callus formation and remarkable graft-host integration at 6-weeks. Moreover, we observed a significant 2-fold increase in normalized callus volume (1.04±0.3 vs. 0.54±0.14mm3/mm; p<0.005), and Union Ratio (0.28±0.07 vs. 0.13±0.09; p<0.005), compared to saline treated controls at 6-weeks. Teriparatide treatment significantly increased the torsional rigidity (1175±311 versus 585±408N.mm2) and yield torque (10.5±4.2 versus 6.8±5.5N.mm) compared to controls. Interestingly, the Union Ratio correlated significantly with the yield torque and torsional rigidity (R2 =0.59 and R2 =0.77, p<0.001, respectively). These results illustrate the remarkable potential of teriparatide as an adjuvant therapy for allograft repair in a mouse model of massive femoral defect reconstruction, and warrant further investigation in a larger animal model at longer time intervals to justify future clinical trials for PTH therapy in limb sparing reconstructive procedures. [Copyright &y& Elsevier]

Published

2011

40. Regulation of PTH secretion by 25-hydroxyvitamin D and ionized calcium depends on vitamin D status: A study in a large cohort of healthy subjects

Author

Carnevale, Vincenzo, Nieddu, Luciano, Romagnoli, Elisabetta, Battista, Claudia, Mascia, Maria Lucia, Chiodini, Iacopo, Eller-Vainicher, Cristina, Frusciante, Vincenzo, Santini, Stefano Angelo, La Porta, Michele, Minisola, Salvatore, and Scillitani, Alfredo

Subjects

*PARATHYROID hormone, *VITAMIN D, *COHORT analysis, *REGRESSION analysis, *CALCIUM, *CROSS-sectional method

Abstract

Abstract: Introduction: Previous papers investigating vitamin D status have often outlined the significant relationships between serum parathyroid hormone (PTH) and 25-hydroxyvitamin D (25OHD), but the influence of ionized calcium levels has not been concomitantly considered. Design: Cross-sectional. Materials and methods: In 1050 healthy men (547) and women (503), serum ionized calcium (iCa), creatinine (Cr), albumin, 25OHD, and PTH were measured. After conventional analysis, a regression tree was fitted on the data set. Results: 25OHD and PTH values showed significant opposite seasonal changes. 25OHD levels negatively correlated with PTH, which in turn negatively correlated with iCa. A regression tree was fitted to the whole data set using PTH as the response variable and 25OHD and iCa as covariates. PTH concentration depended on that of iCa only in subjects with 25OHD levels>16.35ng/mL, while for 25OHD<16.35ng/mL it depended on 25OHD values. Conclusions: Our results indicated that PTH levels were highly conditioned by those of 25OHD in subjects with 25OHD values lower than 16.35ng/mL and by those of iCa only for higher 25OHD concentration. [ABSTRACT FROM AUTHOR]

Published

2010

41. T cells: Critical bone regulators in health and disease

Author

Pacifici, Roberto

Subjects

*T cells, *HYPERPARATHYROIDISM, *BONE mechanics, *CELLULAR control mechanisms, *HYPOTHESIS, *ESTROGEN, *PARATHYROID hormone

Abstract

Abstract: Postmenopausal osteoporosis and hyperparathyroidism are to two common forms of bone loss caused primarily by an expansion of the osteoclastic pool only partially compensated by a stimulation of bone formation. The intimate mechanisms by which estrogen deficiency and excessive production of PTH cause bone loss remain to be determined in part because in vitro studies do not provide the means to adequately reproduce the effects of ovx and PTH overproduction observed in vivo. This article examines the connection between T cells and bone in health and disease and reviews the evidence in favor of the hypothesis that T cells play an unexpected critical role in the mechanism of action of estrogen and PTH in bone. [ABSTRACT FROM AUTHOR]

Published

2010

42. Age but not gender modulates the relationship between PTH and vitamin D

Author

Arabi, Asma, Baddoura, Rafic, El-Rassi, Rola, and El-Hajj Fuleihan, Ghada

Subjects

*PARATHYROID hormone, *VITAMIN D, *AGE differences, *ADOLESCENT health, *HEALTH of older people, *STATISTICAL correlation, SEX differences (Biology)

Abstract

Abstract: Context: It is unclear whether the relationship between 25-OHD and PTH is modulated by age or gender. Objective: To assess the 25-OHD–PTH relationship in 340 adolescents (10–17years) and 443 elderly (65–85years) of the same ethnic group, and living in the same sunny country. Assessments: Calcium intake was estimated. Serum calcium, phosphorus, 25-OHD and PTH were measured. Body fat was determined by DXA. Results: 25-OHD levels were lower in the elderly in the overall group (p <0.001) and within genders. 25-OHD levels were lower in females in the overall group and within age subgroups (p <0.05). PTH levels were higher in the elderly in the overall population and in both genders (p <0.001). There were no gender differences in PTH levels within age subgroups. For the same 25-OHD level, PTH levels were comparable across genders but were 1.5–2 folds higher in the elderly compared to adolescents (p <0.001). PTH correlated positively with age (p <0.001), body fat (p =0.02), and negatively with calcium intake (p <0.001), and 25-OHD (p <0.001). The magnitude of the correlation with 25-OHD decreased after adjustment for age but not for gender. In multivariate analyses, age, 25-OHD and fat mass were independent predictors for PTH. In the elderly, after adjustment for serum creatinine, only 25-OHD and creatinine were independent predictors of PTH. Conclusion: The negative relationship between 25-OHD and PTH is modulated by age but not gender. Desirable 25-OHD levels derived from examining the 25-OHD–PTH relationship should therefore take into account the age of the population of interest. [Copyright &y& Elsevier]

Published

2010

43. Hip fracture type: Important role of parathyroid hormone (PTH) response to hypovitaminosis D

Author

Fisher, Alexander, Srikusalanukul, Wichat, Davis, Michael, and Smith, Paul

Subjects

*BONE fractures, *HIP joint injuries, *PARATHYROID hormone, *VITAMIN deficiency, *BONE metabolism, *MINERAL metabolism, *VITAMIN D deficiency, *MULTIVARIATE analysis

Abstract

Abstract: Objective: To investigate whether clinical and laboratory characteristics, including serum 25-hydroxyvitamin D (25(OH) D), PTH and parameters of mineral and bone metabolism, differ by hip fracture (HF) type. Patients and methods: We studied prospectively 761 consecutively admitted older patients (mean age 82.3+8.8(SD) years; 74.9% women) with low trauma non-pathological HF. A detailed clinical examination was performed, haematologic, renal, liver and thyroid function tests, serum 25(OH)D, PTH, calcium, phosphate, magnesium, C-reactive protein (CRP) and cardiac troponin I (cTnI) measured. In a subset of 294 patients'' markers of bone formation (serum osteocalcin, OC; bone specific alkaline phosphatase, BAP) and bone resorption (urinary deoxypyridinoline, DPD/Cr; N-terminal cross-linked telopeptide of type 1 collagen, NTx/Cr; both corrected to urinary creatinine, Cr) were also measured. Results: In the trochanteric compared to the cervical group, females were older than males and the prevalence of Parkinson''s disease, mean haemoglobin and albumin levels were lower. Incidence and degree of myocardial injury (cTnl rise) and inflammatory reaction (CRP elevation) as well as length of hospital stay, need of institutionalisation or in-hospital mortality were similar in both groups. Hypovitaminosis D (25(OH)D <50mmol/L) was present in 77.8% of patients with cervical and in 82.1% with trochanteric HF, elevated PTH (>6.8pmol/L) in 30.2% and 41.3%, respectively. The associations between 25(OH)D, PTH, and parameters of mineral metabolism and bone turnover were site-specific. In multivariate analyses, PTH (both as a continuous or categorical variable) response to hypovitaminosis D was a strong independent predictor of HF type. Coexistence of vitamin D deficiency (25(OH) D< 25nmol/L) and elevated PTH predicts trochanteric HF while blunted PTH response predicts cervical HF (OR=3.5; 95% CI 1.5–80; p =0.005). PTH response and phosphate status (above or below median level) correctly discriminated HF type in 73.8% of patients with vitamin D deficiency. Conclusions: HF type is significantly associated with PTH response to hypovitaminosis D and impaired phosphate homeostasis. We detected only minor differences between two main HF types with regard to a wide range of clinical and routine laboratory variables as well as short-term outcomes. [Copyright &y& Elsevier]

Published

2010

44. Calcitonin impairs the anabolic effect of PTH in young rats and stimulates expression of sclerostin by osteocytes

Author

Gooi, J.H., Pompolo, S., Karsdal, M.A., Kulkarni, N.H., Kalajzic, I., McAhren, S.H.M., Han, B., Onyia, J.E., Ho, P.W.M., Gillespie, M.T., Walsh, N.C., Chia, L.Y., Quinn, J.M.W., Martin, T.J., and Sims, N.A.

Subjects

*CALCITONIN, *PARATHYROID hormone, *GENE expression, *OSTEOCYTES, *OSTEOCLAST inhibition, *BONE morphogenetic proteins, *LABORATORY rats

Abstract

Abstract: The therapeutic goal of increasing bone mass by co-treatment of parathyroid hormone (PTH) and an osteoclast inhibitor has been complicated by the undefined contribution of osteoclasts to the anabolic activity of PTH. To determine whether active osteoclasts are required at the time of PTH administration, we administered a low dose of the transient osteoclast inhibitor salmon calcitonin (sCT) to young rats receiving an anabolic PTH regimen. Co-administration of sCT significantly blunted the anabolic effect of PTH as measured by peripheral quantitative computer tomography (pQCT) and histomorphometry in the femur and tibia, respectively. To determine gene targets of sCT, we carried out quantitative real time PCR and microarray analysis of metaphyseal samples 1.5, 4 and 6.5h after administration of a single injection of PTH, sCT or PTH+sCT. Known targets of PTH action, IL-6, ephrinB2 and RANKL, were not modified by co-administration with sCT. Surprisingly, at all time points, we noted a significant upregulation of sclerostin mRNA by sCT treatment, as well as down-regulation of two other osteocyte gene products, MEPE and DMP1. Immunohistochemistry confirmed that sCT administration increased the percentage of osteocytes expressing sclerostin, suggesting a mechanism by which sCT reduced the anabolic effect of PTH. Neither mRNA for CT receptor (Calcr) nor labeled CT binding could be detected in sclerostin-enriched cells differentiated from primary calvarial osteoblasts. In contrast, osteocytes freshly isolated from calvariae expressed a high level of Calcr mRNA. Furthermore immunohistochemistry revealed co-localization of CT receptor (CTR) and sclerostin in some osteocytes in calvarial sections. Taken together these data indicate that co-treatment with sCT can blunt the anabolic effect of PTH and this may involve direct stimulation of sclerostin production by osteocytes. These data directly implicate calcitonin as a negative regulator of bone formation through a previously unsuspected mechanism. [Copyright &y& Elsevier]

Published

2010

45. Contribution of the intra-specimen variations in tissue mineralization to PTH- and raloxifene-induced changes in stiffness of rat vertebrae

Author

Easley, Sarah K., Jekir, Michael G., Burghardt, Andrew J., Li, Mei, and Keaveny, Tony M.

Subjects

*BIOMINERALIZATION, *BIOLOGICAL variation, *BONE cells, *PARATHYROID hormone, *RALOXIFENE, *VERTEBRAE, *BIOMECHANICS, *LABORATORY rats

Abstract

Abstract: The intra-specimen spatial variation in mineralization of bone tissue can be changed by drug treatments that alter bone remodeling. However, the contribution of such changes to the overall biomechanical effect of a treatment on bone strength is not known. To provide insight into this issue, we used a rat model to determine the effects of ovariectomy, parathyroid hormone, and raloxifene (vs. sham) on the contribution of spatial variations in mineralization to treatment-induced changes in vertebral stiffness. Mineral density was measured from 6-µm voxel-sized quantitative micro-CT scans. Whole-vertebral and trabecular stiffness values were estimated using finite element analysis of these micro-CT scans, first including all intra-specimen variations in mineral density in the model and then excluding such variations by using a specimen-specific average density throughout each specimen. As expected, we found appreciable effects of treatment on overall bone stiffness, the effect being greater for the trabecular compartment (up to 52% reduction vs. sham, p <0.0001) than the whole vertebra (p =0.055). Intra-specimen mean mineralization was not changed with treatment but the intra-specimen variation in mineralization was, although the effect was small (4%). Intra-specimen spatial variations in mineralization accounted for 10–12% and 5–6% of overall stiffness of the trabecular compartment and whole vertebral body, respectively. However, after accounting for all treatment effects on bone geometry and trabecular microstructure, any treatment effects due to changes in mineralization were negligible (<2%), although statistically detectable (p <0.02). We conclude that, despite a role in the general biomechanical behavior of bone, the spatial variations in tissue mineralization, as measured by quantitative micro-CT, did not appreciably contribute to ovariectomy-, PTH-, or raloxifene-induced changes in stiffness of the whole bone or the trabecular compartment in these rat vertebrae. [Copyright &y& Elsevier]

Published

2010

46. Insulin-like growth factor-1 is associated with bone formation markers, PTH and bone mineral density in healthy premenopausal women

Author

Adami, Silvano, Zivelonghi, Alessandra, Braga, Vania, Fracassi, Elena, Gatti, Davide, Rossini, Maurizio, Ulivieri, Fabio M., and Viapiana, Ombretta

Subjects

*SOMATOMEDIN, *BONE growth, *BONE density, *PERIMENOPAUSE, *WOMEN'S health, *PHYSICAL activity, *BIOMARKERS, *BODY mass index

Abstract

Abstract: Bone turnover markers (BTM) progressively decrease in young adult women. This might be linked to changes in insulin-like growth factor-1 (IGF-I). Four serum BTMs [serum C-telopeptide of type 1 collagen (CTX), osteocalcin (OC), N-terminal propeptide of type 1 procollagen (P1NP), and bone alkaline phosphatase (bone AP)], serum calcium (sCa), phosphate (sPO4), magnesium, 25-hydroxyvitamin D [25(OH)D], intact parathyroid hormone (PTH) and IGF-I were measured in 531 young healthy premenopausal women aged 20–50 years participating in the BONTURNO study. In all subjects bone mineral density (BMD) was measured at the spine and at the hip by dual-energy X-ray densitometry. Hip BMD, IGF-I, the four BTMs, sCa and sPO4 progressively decreased with advancing age and this was associated with proportional increases in PTH. IGF-I levels were significantly and positively correlated with sCa, sPO4, CTX, OC, P1NP, bone AP, spine BMD, femoral neck BMD and total hip BMD and negatively with age, BMI and serum PTH. When the IGF-I levels were adjusted for age and BMI, the only correlations maintaining a statistical significance were those with serum PTH, P1NP and bone AP. These associations were weak and IGF-I accounted for a only a small proportion of the BTM variance. The mean, age-adjusted IGF-I values were significantly higher in women practicing physical exercises for more then 60 min per week than in sedentary women. In conclusion, in this study we provide evidence of an association between the age-related decline in IGF-I with the progressive decrease in bone formation markers in premenopausal women. [Copyright &y& Elsevier]

Published

2010

47. β-arrestin2 regulates parathyroid hormone effects on a p38 MAPK and NFκB gene expression network in osteoblasts

Author

Bianchi, Estelle N. and Ferrari, Serge L.

Subjects

*PARATHYROID hormone, *BONE cells, *GENETIC regulation, *CELL receptors, *CYTOGENETICS, *MITOGEN-activated protein kinases, *NF-kappa B, *GENE expression

Abstract

Abstract: Interaction of the cytoplasmic adaptor molecule β-arrestin2 with the activated parathyroid hormone (PTH)/PTHrP receptor inhibits G protein mediated signaling and triggers MAPKs signaling. In turn, the effects of both intermittent (i.) and continuous (c.) PTH on bone are altered in β-arrestin2-deficient (Arrb2−/−) mice. To elucidate the expression profile of bone genes responsive to PTH and targeted for regulation by β-arrestin2, we performed microarray analysis using total RNA from primary osteoblastic cells isolated from wild-type (WT) and Arrb2−/− mice. By comparing gene expression profiles in cells exposed to i.PTH, c.PTH or vehicle (Veh) for 2 weeks, we found that i.PTH specifically up-regulated 215 sequences (including β-arrestin2) and down-regulated 200 sequences in WT cells, about two-thirds of them being under the control of β-arrestin2. In addition, β-arrestin2 appeared necessary to the down-regulation of a genomic cluster coding for small leucin-rich proteins (SLRPs) including osteoglycin, osteomodulin and asporin. Pathway analyses identified a main gene network centered on p38 MAPK and NFκB that requires β-arrestin2 for up- or down-regulation by i.PTH, and a smaller network of PTH-regulated genes centered on TGFB1, that is normally repressed by β-arrestin2. In contrast the expression of some known PTH gene targets regulated by the cAMP/PKA pathway was not affected by the presence or absence of β-arrestin2 in osteoblasts. These results indicate that β-arrestin2 targets prominently p38 MAPK- and NFκB-dependent expression in osteoblasts exposed to i.PTH, and delineates new molecular mechanisms to explain the anabolic and catabolic effects of PTH on bone. [Copyright &y& Elsevier]

Published

2009

48. The anabolic action of intermittent PTH in combination with cathepsin K Inhibitor or alendronate differs depending on the remodeling status in bone in ovariectomized mice

Author

Yamane, Hirotoshi, Sakai, Akinori, Mori, Toshiharu, Tanaka, Shinya, Moridera, Kuniaki, and Nakamura, Toshitaka

Subjects

*BONE metabolism, *PARATHYROID hormone, *BONE remodeling, *ENZYME inhibitors, *OSTEOPOROSIS drugs, *OVARIECTOMY, *LABORATORY rats

Abstract

Abstract: We hypothesized that the anabolic action of parathyroid hormone (PTH) with the anti-catabolic agents cathepsin K inhibitor and alendronate differs depending on the remodeling status in the bone. C57/BL/6J mice, 8 weeks of age, were subjected to ovariectomized (OVX) or sham surgery. At 6 weeks after surgery, the mice were treated with cathepsin K inhibitor, alendronate, or a vehicle (daily, for 8 weeks), with or without PTH (1–34) (5 times/week, for the last 4 weeks). We assessed the bone chemical markers of the serum and urine, bone mineral density (BMD), histomorphomery in the primary and secondary spongiosa of the proximal tibia after fluorescence labeling, primary cell culture, and mRNA expressions in bone marrow cells. Cathepsin K inhibitor and alendronate significantly increased the BMD and the bone volume of the primary and secondary spongiosa, with a reduction of the urinary C-telopeptide of type I collagen that was increased by OVX, respectively. Cathepsin K inhibitor augmented the anabolic action of PTH on the BMD and bone volume at both the primary and secondary spongiosa, while alendronate had the same effect on the BMD and bone volume only at the primary spongiosa. Cathepsin K inhibitor did not decrease serum osteocalcin with or without PTH, while alendronate did decrease it. Cathepsin K inhibitor did not decrease the values of osteoclast number or bone formation rate with or without PTH, while alendronate decreased those values and increased osteoclast apoptosis. The combination of PTH and cathepsin K inhibitor increased alkaline phosphatase-positive CFU-f formation and c-fos, osterix, and osteocalcin mRNA expressions of bone marrow cells as well as PTH alone, while the combination of PTH and alendronate decreased those values. This study demonstrated that alendronate enhances the anabolic action of PTH at the primary spongiosa, but blunts it in the remodeling trabecular bone, while cathepsin K inhibitor enhances the action at both sites in OVX mice. In conclusion, the anabolic action of intermittent PTH in combination with cathepsin K inhibitor or alendronate differs depending on the remodeling status of bone in OVX mice. [Copyright &y& Elsevier]

Published

2009

49. Intermittent PTH stimulates periosteal bone formation by actions on post-mitotic preosteoblasts

Author

Jilka, Robert L., O'Brien, Charles A., Ali, A. Afshan, Roberson, Paula K., Weinstein, Robert S., and Manolagas, Stavros C.

Subjects

*PARATHYROID hormone, *PERIOSTEUM, *BONE remodeling, *LUMBAR vertebrae, *CELL proliferation, *DRUG administration, *HORMONE therapy, *APOPTOSIS

Abstract

Abstract: Intermittent administration of parathyroid hormone (PTH) stimulates bone formation on the surface of cancellous and periosteal bone by increasing the number of osteoblasts. Previous studies of ours in mice demonstrated that intermittent PTH increases cancellous osteoblast number at least in part by attenuating osteoblast apoptosis, but the mechanism responsible for the anabolic effect of the hormone on periosteal bone is unknown. We report that daily injections of 100 ng/g of PTH(1–34) to 4–6 month old mice increased the number of osteoblasts on the periosteum of lumbar vertebrae by 2–3 fold as early as after 2 days. However, the prevalence of apoptotic periosteal osteoblasts was only 0.2% in vehicle treated animals, which is ∼20-fold lower than is the case for cancellous osteoblasts. Moreover, PTH did not have a discernable effect on periosteal osteoblast apoptosis. Administration of BrdU for 4 days failed to label periosteal osteoblasts under either basal conditions or following administration of PTH. Cancellous osteoblasts, on the other hand, were labeled under basal conditions, but PTH did not increase the percentage of BrdU-positive cells. Thus, intermittent PTH does not increase cancellous or periosteal osteoblast number by stimulating the proliferation of osteoblast progenitors. Consistent with high turnover of cancellous osteoblasts as compared to that of periosteal osteoblasts, ganciclovir-induced ablation of replicating osteoblast progenitors in mice expressing thymidine kinase under the control of the 3.6 kb rat Col1A1 promoter resulted in disappearance of osteoblasts from cancellous bone over a 7–14 day period, whereas periosteal osteoblasts were unaffected. However, 14 days of pre-treatment with ganciclovir prevented PTH anabolism on periosteal bone. We conclude that in cancellous bone, attenuation of osteoblast apoptosis by PTH increases osteoblast number because their rate of apoptosis is high, making this effect of the hormone profound. However, in periosteal bone where the rate of osteoblast apoptosis is low, PTH must exert pro-differentiating and/or pro-survival effects on post-mitotic pre-osteoblasts. Targeting the latter cells is an effective mechanism for increasing osteoblast number in periosteal bone where the production of osteoblasts from replicating progenitors is slow. [Copyright &y& Elsevier]

Published

2009

50. Alkaline mineral water lowers bone resorption even in calcium sufficiency:: Alkaline mineral water and bone metabolism

Author

Wynn, Emma, Krieg, Marc-Antoine, Aeschlimann, Jean-Marc, and Burckhardt, Peter

Subjects

*MINERAL water biology, *BONE resorption, *CALCIUM in the body, *BONE metabolism, *BICARBONATE ions, *DIET therapy

Abstract

Abstract: Background: Dietary acid charge enhances bone loss. Bicarbonate or alkali diet decreases bone resorption in humans. We compared the effect of an alkaline mineral water, rich in bicarbonate, with that of an acid one, rich in calcium only, on bone markers, in young women with a normal calcium intake. Methods: This study compared water A (per litre: 520 mg Ca, 291 mg HCO3 −, 1160 mg SO4 −, Potential Renal Acid load (PRAL) +9.2 mEq) with water B (per litre: 547 mg Ca, 2172 mg HCO3 −, 9 mg SO4 −, PRAL −11.2 mEq). 30 female dieticians aged 26.3 yrs (SD 7.3) were randomized into two groups, followed an identical weighed, balanced diet (965 mg Ca) and drank 1.5 l/d of the assigned water. Changes in blood and urine electrolytes, C-telopeptides (CTX), urinary pH and bicarbonate, and serum PTH were measured after 2 and 4 weeks. Results: The two groups were not different at baseline, and showed a similar increase in urinary calcium excretion. Urinary pH and bicarbonate excretion increased with water B, but not with water A. PTH (p =0.022) and S-CTX (p =0.023) decreased with water B but not with water A. Conclusion: In calcium sufficiency, the acid calcium-rich water had no effect on bone resorption, while the alkaline water rich in bicarbonate led to a significant decrease of PTH and of S-CTX. [Copyright &y& Elsevier]

Published

2009