scholarly journals Bone Response to Intermittent Parathyroid Hormone Is Altered in Mice Null for β-Arrestin2

Endocrinology ◽  
2005 ◽  
Vol 146 (4) ◽  
pp. 1854-1862 ◽  
Author(s):  
S. L. Ferrari ◽  
D. D. Pierroz ◽  
V. Glatt ◽  
D. S. Goddard ◽  
E. N. Bianchi ◽  
...  
Keyword(s):  
Bone Mass ◽  
Trabecular Bone ◽  
Molecular Mechanisms ◽  
Regulatory Protein ◽  
Intracellular Camp ◽  
Bone Response ◽  
Total Body ◽  
Intermittent Pth ◽  
Body Bone

Abstract Intermittent PTH administration increases bone turnover, resulting in net anabolic effects on bone. These effects are primarily mediated by intracellular cAMP signaling. However, the molecular mechanisms that regulate PTH activity in bone remain incompletely understood. β-Arrestin2, a G protein-coupled receptor regulatory protein, inhibits PTH-stimulated cAMP accumulation in vitro. Using β-arrestin2−/− (KO) and wild-type (WT) mice, we investigated the response to PTH in primary osteoblasts (POB) and the effects of intermittent PTH administration on bone mass and microarchitecture in vivo. Compared with that in WT mice, PTH-stimulated intracellular cAMP was increased and sustained in KO POB. Intermittent exposure of POB to PTH significantly decreased the ratio of osteoprotegerin (OPG) receptor activator of nuclear factor-κB ligand (RANKL) mRNA expression in KO POB, whereas it increased this ratio in WT POB. Total body bone mass and cortical and trabecular bone parameters were 5–10% lower in male KO mice compared with WT, and these differences were magnified upon in vivo administration of intermittent PTH (80 μg/kg·d) for 1 month. Thus, PTH significantly increased total body bone mineral content as well as vertebral trabecular bone volume and thickness in WT, but not KO mice. The anabolic response to PTH in cortical bone was also slightly more pronounced in WT than KO mice. Histomorphometry indicated that PTH prominently stimulated indexes of bone formation in both WT and KO mice, whereas it significantly increased indexes of bone resorption (i.e. osteoclast number and surface) in KO mice only. In conclusion, these results suggest that β-arrestins may specify the activity of intermittent PTH on the skeleton by limiting PTH-induced osteoclastogenesis.

The effect of diet-induced weight loss on total body bone mass

1992 ◽  
Vol 17 ◽  
pp. 173 ◽  
Author(s):  
JE Compston ◽  
PI Croucher ◽  
MA Laskey ◽  
A Coxon ◽  
S Kreitzman
Keyword(s):  
Weight Loss ◽  
Bone Mass ◽  
Total Body ◽  
Body Bone

Lean Body Mass, Not Total Body Size, is a Stronger Determinant of Total Body Bone Mass in Boys

Bone ◽  
2010 ◽  
Vol 46 ◽  
pp. S80
Author(s):  
Tom Sanchez ◽  
Jingmei Wang ◽  
Chad Dudzek ◽  
George Ekker ◽  
Kathy Dudzek
Keyword(s):  
Body Size ◽  
Bone Mass ◽  
Lean Body Mass ◽  
Body Mass ◽  
Total Body ◽  
Body Bone

scholarly journals The bone-sparing effects of estrogen and WNT16 are independent of each other

2015 ◽  
Vol 112 (48) ◽  
pp. 14972-14977 ◽  
Author(s):  
Sofia Movérare-Skrtic ◽  
Jianyao Wu ◽  
Petra Henning ◽  
Karin L. Gustafsson ◽  
Klara Sjögren ◽  
...  
Keyword(s):  
Bone Loss ◽  
Bone Mass ◽  
Trabecular Bone ◽  
Cortical Bone ◽  
Integration Site ◽  
Mineral Density ◽  
Trabecular Bone Mass ◽  
Sparing Effect ◽  
Total Body ◽  
Cortical Bone Mass

Wingless-type MMTV integration site family (WNT)16 is a key regulator of bone mass with high expression in cortical bone, and Wnt16−/− mice have reduced cortical bone mass. As Wnt16 expression is enhanced by estradiol treatment, we hypothesized that the bone-sparing effect of estrogen in females is WNT16-dependent. This hypothesis was tested in mechanistic studies using two genetically modified mouse models with either constantly high osteoblastic Wnt16 expression or no Wnt16 expression. We developed a mouse model with osteoblast-specific Wnt16 overexpression (Obl-Wnt16). These mice had several-fold elevated Wnt16 expression in both trabecular and cortical bone compared with wild type (WT) mice. Obl-Wnt16 mice displayed increased total body bone mineral density (BMD), surprisingly caused mainly by a substantial increase in trabecular bone mass, resulting in improved bone strength of vertebrae L3. Ovariectomy (ovx) reduced the total body BMD and the trabecular bone mass to the same degree in Obl-Wnt16 mice and WT mice, suggesting that the bone-sparing effect of estrogen is WNT16-independent. However, these bone parameters were similar in ovx Obl-Wnt16 mice and sham operated WT mice. The role of WNT16 for the bone-sparing effect of estrogen was also evaluated in Wnt16−/− mice. Treatment with estradiol increased the trabecular and cortical bone mass to a similar extent in both Wnt16−/− and WT mice. In conclusion, the bone-sparing effects of estrogen and WNT16 are independent of each other. Furthermore, loss of endogenous WNT16 results specifically in cortical bone loss, whereas overexpression of WNT16 surprisingly increases mainly trabecular bone mass. WNT16-targeted therapies might be useful for treatment of postmenopausal trabecular bone loss.

Effect of diet-induced weight loss on total body bone mass

1992 ◽  
Vol 82 (4) ◽  
pp. 429-432 ◽  
Author(s):  
J. E. Compston ◽  
M. A. Laskey ◽  
P. I. Croucher ◽  
A. Coxon ◽  
S. Kreitzman
Keyword(s):  
Bone Mineral Density ◽  
Weight Loss ◽  
Bone Loss ◽  
Bone Mass ◽  
Bone Mineral ◽  
Areal Bone Mineral Density ◽  
Mineral Density ◽  
Total Body ◽  
Total Body Bone Mineral ◽  
Body Bone

1. Total body areal bone mineral density was measured by dual-energy X-ray absorptiometry in eight women before and 10 weeks after a very-low-calorie diet [405 kcal (1701 kJ)/day]. 2. The mean weight loss of 15.6 kg was accompanied by a statistically significant reduction in total body bone mineral density from 1.205 ± 0.056 to 1.175 ± 0.058 g/cm2 (mean ± sd, P < 0.005). 3. After cessation of the diet, weight gradually increased and by 10 months was similar to baseline values. Total body bone mineral density also increased after stopping the diet and mean values obtained 10 months after the diet did not differ significantly from initial values. Throughout the study total body bone mineral density values in all subjects were well within the range reported for normal subjects. 4. These data indicate that diet-induced weight loss is associated with rapid bone loss, subsequent weight gain being accompanied by increases in bone mass. Further studies are required to establish the clinical significance of these findings and, in particular, the skeletal distribution of bone loss.

scholarly journals Bone mass in Chinese premenarcheal girls: the roles of body composition, calcium intake and physical activity

2004 ◽  
Vol 92 (6) ◽  
pp. 985-993 ◽  
Author(s):  
Kun Zhu ◽  
Xueqin Du ◽  
Heather Greenfield ◽  
Qian Zhang ◽  
Guansheng Ma ◽  
...  
Keyword(s):  
Physical Activity ◽  
Bone Mass ◽  
Bone Mineral ◽  
Fat Mass ◽  
Bone Age ◽  
Dietary Intakes ◽  
Food Record ◽  
Total Body ◽  
Proximal Forearm ◽  
Body Bone

The association of growth and anthropometric characteristics and lifestyle factors with bone mass and second metacarpal radiogrammetry parameters was evaluated in 373 healthy Chinese premenarcheal girls aged 9–11 years. Bone mineral content (BMC) and density (BMD) and bone area (BA) of distal forearm, proximal forearm and total body, bone mineral-free lean (BMFL) mass and fat mass were measured by dual-energy X-ray absorptiometry. Metacarpal bone periosteal and medullary diameters were measured. Dietary intakes were assessed by 7d food record and physical activity (PA) by questionnaire. BMFL and fat mass together explained 6·3 and 51·6% of the variation in total body BMC and BMD, respectively. BMFL mass contributed to a substantial proportion of the variation in forearm BMC and BMD and periosteal diameter (10·4–41·0%). The corresponding BA explained 14·8–80·4% of the variation in BMC. Other minor but significant predictors of total body bone mass were Ca intake, height, age and PA score (BMD only), and of forearm bone mass were PA score, bone age, height and fat mass. Nevertheless, after adjusting for bone and body size and for age or bone age, subjects with Ca intake above the median (417mg/d) had 1·8% greater total body BMC (P<0·001), and subjects with PA scores above the median had 2·4–2·5% greater distal and proximal forearm BMC (P<0·05) than those below. Vitamin D intake negatively associated with medullary diameter (partialR21·7%). The results indicate that premenarcheal girls should be encouraged to optimise nutrition and Ca intake and exercise regularly to achieve maximum peak bone mass.

scholarly journals Paupar LncRNA Promotes KAP1 Dependent Chromatin Changes And Regulates Subventricular Zone Neurogenesis

2017 ◽  
Author(s):  
Ioanna Pavlaki ◽  
Farah Alammari ◽  
Bin Sun ◽  
Neil Clark ◽  
Tamara Sirey ◽  
...  
Keyword(s):  
Subventricular Zone ◽  
Molecular Mechanisms ◽  
Target Genes ◽  
Neuroblastoma Cell ◽  
Regulatory Protein ◽  
Regulatory Elements ◽  
Loss Of Function ◽  
Transcriptional Regulatory Elements ◽  
Genome Wide

ABSTRACTMany long non-coding RNAs (lncRNAs) are expressed during central nervous system (CNS) development, yet their in vivo roles and molecular mechanisms of action remain poorly understood. Paupar, a CNS expressed lncRNA, controls neuroblastoma cell growth by binding and modulating the activity of genome-wide transcriptional regulatory elements. We show here that Paupar transcript directly binds KAP1, an essential epigenetic regulatory protein, and thereby regulates the expression of shared target genes important for proliferation and neuronal differentiation. Paupar promotes KAP1 chromatin occupancy and H3K9me3 deposition at a subset of distal targets, through formation of a DNA binding ribonucleoprotein complex containing Paupar, KAP1 and the PAX6 transcription factor. Paupar-KAP1 genome-wide co-occupancy reveals a 4-fold enrichment of overlap between Paupar and KAP1 bound sequences. Furthermore, both Paupar and Kap1 loss of function in vivo accelerates lineage progression in the mouse postnatal subventricular zone (SVZ) stem cell niche and disrupts olfactory bulb neurogenesis. These observations provide important conceptual insights into the trans-acting modes of lncRNA-mediated epigenetic regulation, the mechanisms of KAP1 genomic recruitment and identify Paupar and Kap1 as regulators of SVZ neurogenesis.

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