339 DECREASED ANGIOGENESIS AND OSTEOCLASTOGENESIS IS ASSOCIATED WITH INCREASED TRABECULAR BONE VOLUME IN NEPHRECTOMIZED RATS GIVEN CALCIUM SUPPLEMENTATION

AbstractAnimals in space exploration studies serve both as a model for human physiology and as a means to understand the physiological effects of microgravity. To quantify the microgravity-induced changes to bone health in animals, we systematically searched Medline, Embase, Web of Science, BIOSIS, and NASA Technical reports. We selected 40 papers focusing on the bone health of 95 rats, 61 mice, and 9 rhesus monkeys from 22 space missions. The percentage difference from ground control in rodents was –24.1% [Confidence interval: −43.4, −4.9] for trabecular bone volume fraction and –5.9% [−8.0, −3.8] for the cortical area. In primates, trabecular bone volume fraction was lower by –25.2% [−35.6, −14.7] in spaceflight animals compared to GC. Bone formation indices in rodent trabecular and cortical bone were significantly lower in microgravity. In contrast, osteoclast numbers were not affected in rats and were variably affected in mice. Thus, microgravity induces bone deficits in rodents and primates likely through the suppression of bone formation.

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Prolyl Hydroxylase Domain-Containing Protein 3 Gene Expression in Chondrocytes Is Not Essential for Bone Development in Mice

Cells ◽

10.3390/cells10092200 ◽

2021 ◽

Vol 10 (9) ◽

pp. 2200

Author(s):

Weirong Xing ◽

Sheila Pourteymoor ◽

Gustavo A. Gomez ◽

Yian Chen ◽

Subburaman Mohan

Keyword(s):

Gene Expression ◽

Bone Formation ◽

Bone Mass ◽

Trabecular Bone ◽

Bone Volume ◽

Endochondral Bone Formation ◽

Chondrocyte Differentiation ◽

Trabecular Bone Volume ◽

Endochondral Bone ◽

Trabecular Bone Mass

We previously showed that conditional disruption of the Phd2 gene in chondrocytes led to a massive increase in long bone trabecular bone mass. Loss of Phd2 gene expression or inhibition of PHD2 activity by a specific inhibitor resulted in a several-fold compensatory increase in Phd3 expression in chondrocytes. To determine if expression of PHD3 plays a role in endochondral bone formation, we conditionally disrupted the Phd3 gene in chondrocytes by crossing Phd3 floxed (Phd3flox/flox) mice with Col2α1-Cre mice. Loss of Phd3 expression in the chondrocytes of Cre+; Phd3flox/flox conditional knockout (cKO) mice was confirmed by real time PCR. At 16 weeks of age, neither body weight nor body length was significantly different in the Phd3 cKO mice compared to Cre−; Phd3flox/flox wild-type (WT) mice. Areal BMD measurements of total body as well as femur, tibia, and lumbar skeletal sites were not significantly different between the cKO and WT mice at 16 weeks of age. Micro-CT measurements revealed significant gender differences in the trabecular bone volume adjusted for tissue volume at the secondary spongiosa of the femur and the tibia for both genotypes, but no genotype difference was found for any of the trabecular bone measurements of either the femur or the tibia. Trabecular bone volume of distal femur epiphysis was not different between cKO and WT mice. Histology analyses revealed Phd3 cKO mice exhibited a comparable chondrocyte differentiation and proliferation, as evidenced by no changes in cartilage thickness and area in the cKO mice as compared to WT littermates. Consistent with the in vivo data, lentiviral shRNA-mediated knockdown of Phd3 expression in chondrocytes did not affect the expression of markers of chondrocyte differentiation (Col2, Col10, Acan, Sox9). Our study found that Phd2 but not Phd3 expressed in chondrocytes regulates endochondral bone formation, and the compensatory increase in Phd3 expression in the chondrocytes of Phd2 cKO mice is not the cause for increased trabecular bone mass in Phd2 cKO mice.

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AB0158 Anti-interleukin-6 receptor antibody suppresses loss of trabecular bone volume in mice with glucose-6-phosphate isomerase-induced arthritis

Annals of the Rheumatic Diseases ◽

10.1136/annrheumdis-2012-eular.158 ◽

2013 ◽

Vol 71 (Suppl 3) ◽

pp. 646.11-646

Author(s):

H. Yoshida ◽

M. Suzuki ◽

K. Tanaka ◽

M. Hashizume ◽

M. Shiina ◽

...

Keyword(s):

Trabecular Bone ◽

Interleukin 6 ◽

Bone Volume ◽

Trabecular Bone Volume ◽

Receptor Antibody ◽

Interleukin 6 Receptor

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Bone Formation and Resorption as the Determinants of Trabecular Bone Volume in Normal and Osteoporotic Men

Scottish Medical Journal ◽

10.1177/003693308402900307 ◽

1984 ◽

Vol 29 (3) ◽

pp. 171-175 ◽

Cited By ~ 16

Author(s):

B. E. C. Nordin ◽

J. Aaron ◽

R. Speed ◽

R. M. Francis ◽

N. Makins

Keyword(s):

Bone Formation ◽

Trabecular Bone ◽

Inverse Function ◽

Positive Function ◽

Bone Volume ◽

Trabecular Bone Volume ◽

Age Related ◽

Osteoporosis In Men ◽

Spinal Osteoporosis ◽

The Mean

Trabecular bone volume, forming surface and percent surface resorption have been determined in iliac crest samples obtained post mortem from 43 young men and 49 elderly men and in biopsies obtained from 22 males with spinal osteoporosis. The mean bone volume was significantly lower in the old than in the young controls and significantly lower again in the osteoporotic cases. Forming surfaces were significantly lower in the old than the young controls but were not different as between old controls and cases of osteoporosis. Percent surface resorption was the same in young and old controls but significantly increased in the osteoporotics. Multiple regression analysis showed that trabecular bone volume was a significant positive function of forming surface and a significant inverse function of fractional surface resorption. Age-related (simple) osteoporosis in men appears to be due to reduced bone formation whereas pathological (accelerated) osteoporosis is due to increased bone resorption.

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Effect of growth hormone on bone: Bone mineral density, trabecular bone volume, and alkaline phosphatase improve or are restored in the dwarf rat treated with growth hormone

Journal of Bone and Mineral Research ◽

10.1002/jbmr.5650100118 ◽

2009 ◽

Vol 10 (1) ◽

pp. 127-131 ◽

Cited By ~ 16

Author(s):

Nancy M. Wright ◽

Josette Renault ◽

Bruce Hollis ◽

Norman H. Bell ◽

Lyndon L. Key

Keyword(s):

Bone Mineral Density ◽

Growth Hormone ◽

Alkaline Phosphatase ◽

Trabecular Bone ◽

Bone Mineral ◽

Bone Volume ◽

Trabecular Bone Volume ◽

Mineral Density

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Glucose-dependent insulinotropic polypeptide receptor deficiency leads to modifications of trabecular bone volume and quality in mice

Bone ◽

10.1016/j.bone.2012.11.039 ◽

2013 ◽

Vol 53 (1) ◽

pp. 221-230 ◽

Cited By ~ 51

Author(s):

Christine Gaudin-Audrain ◽

Nigel Irwin ◽

Sity Mansur ◽

Peter R. Flatt ◽

Bernard Thorens ◽

...

Keyword(s):

Trabecular Bone ◽

Bone Volume ◽

Trabecular Bone Volume

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Mice Lacking β-Adrenergic Receptors Have Increased Bone Mass but Are Not Protected from Deleterious Skeletal Effects of Ovariectomy

Endocrinology ◽

10.1210/en.2008-0843 ◽

2008 ◽

Vol 150 (1) ◽

pp. 144-152 ◽

Cited By ~ 52

Author(s):

M. L. Bouxsein ◽

M. J. Devlin ◽

V. Glatt ◽

H. Dhillon ◽

D. D. Pierroz ◽

...

Keyword(s):

Bone Mineral Density ◽

Body Weight ◽

Bone Mass ◽

Trabecular Bone ◽

Adrenergic Receptors ◽

Bone Volume ◽

Trabecular Bone Volume ◽

Mineral Density ◽

Adrenergic Signaling ◽

Β Adrenergic Receptors

Activation of β2-adrenergic receptors inhibits osteoblastic bone formation and enhances osteoclastic bone resorption. Whether β-blockers inhibit ovariectomy-induced bone loss and decrease fracture risk remains controversial. To further explore the role of β-adrenergic signaling in skeletal acquisition and response to estrogen deficiency, we evaluated mice lacking the three known β-adrenergic receptors (β-less). Body weight, percent fat, and bone mineral density were significantly higher in male β-less than wild-type (WT) mice, more so with increasing age. Consistent with their greater fat mass, serum leptin was significantly higher in β-less than WT mice. Mid-femoral cross-sectional area and cortical thickness were significantly higher in adult β-less than WT mice, as were femoral biomechanical properties (+28 to +49%, P < 0.01). Young male β-less had higher vertebral (1.3-fold) and distal femoral (3.5-fold) trabecular bone volume than WT (P < 0.001 for both) and lower osteoclast surface. With aging, these differences lessened, with histological evidence of increased osteoclast surface and decreased bone formation rate at the distal femur in β-less vs. WT mice. Serum tartrate-resistance alkaline phosphatase-5B was elevated in β-less compared with WT mice from 8–16 wk of age (P < 0.01). Ovariectomy inhibited bone mass gain and decreased trabecular bone volume/total volume similarly in β-less and WT mice. Altogether, these data indicate that absence of β-adrenergic signaling results in obesity and increased cortical bone mass in males but does not prevent deleterious effects of estrogen deficiency on trabecular bone microarchitecture. Our findings also suggest direct positive effects of weight and/or leptin on bone turnover and cortical bone structure, independent of adrenergic signaling. Mice lacking ß-adrenergic receptors have increased body weight, bone mineral density, and bone turnover versus controls, but are not protected from bone loss due to deficiency of estrogens..

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Loss of Gsα in the Postnatal Skeleton Leads to Low Bone Mass and a Blunted Response to Anabolic Parathyroid Hormone Therapy

Journal of Biological Chemistry ◽

10.1074/jbc.m115.679753 ◽

2015 ◽

Vol 291 (4) ◽

pp. 1631-1642 ◽

Cited By ~ 23

Author(s):

Partha Sinha ◽

Piia Aarnisalo ◽

Rhiannon Chubb ◽

Ingrid J. Poulton ◽

Jun Guo ◽

...

Keyword(s):

Parathyroid Hormone ◽

Bone Formation ◽

Bone Mass ◽

Trabecular Bone ◽

Phospholipase C ◽

Osteoblast Differentiation ◽

Bone Volume ◽

Trabecular Bone Volume ◽

Male And Female ◽

Osteoblast Lineage

Parathyroid hormone (PTH) is an important regulator of osteoblast function and is the only anabolic therapy currently approved for treatment of osteoporosis. The PTH receptor (PTH1R) is a G protein-coupled receptor that signals via multiple G proteins including Gsα. Mice expressing a constitutively active mutant PTH1R exhibited a dramatic increase in trabecular bone that was dependent upon expression of Gsα in the osteoblast lineage. Postnatal removal of Gsα in the osteoblast lineage (P-GsαOsxKO mice) yielded markedly reduced trabecular and cortical bone mass. Treatment with anabolic PTH(1–34) (80 μg/kg/day) for 4 weeks failed to increase trabecular bone volume or cortical thickness in male and female P-GsαOsxKO mice. Surprisingly, in both male and female mice, PTH administration significantly increased osteoblast numbers and bone formation rate in both control and P-GsαOsxKO mice. In mice that express a mutated PTH1R that activates adenylyl cyclase and protein kinase A (PKA) via Gsα but not phospholipase C via Gq/11 (D/D mice), PTH significantly enhanced bone formation, indicating that phospholipase C activation is not required for increased bone turnover in response to PTH. Therefore, although the anabolic effect of intermittent PTH treatment on trabecular bone volume is blunted by deletion of Gsα in osteoblasts, PTH can stimulate osteoblast differentiation and bone formation. Together these findings suggest that alternative signaling pathways beyond Gsα and Gq/11 act downstream of PTH on osteoblast differentiation.

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