The proposed work is devoted to studies of the regulation of endosteal bone volume. Such studies are essential to our overall long-term goal, which is to cure and prevent osteoporosis. Our position is that in osteoporosis, endosteal bone volume is lost, that faulty endosteal bone volume regulation accounts for this bone loss, and that this defect may involve our putative coupling factor. Studies of the effects of calcium regulating hormones at the endosteum led to the concept that the coupled increase in formation subsequent to an increase in resorption was an endosteal counter-regulatory measure mediated by a coupling factor and functioning to maintain endosteal bone volume in opposition to calcium regulating hormones. We will test our hypothesis, by means of in vitro studies, that during bone resorption a coupling factor is liberated either from bone matrix or from endosteal bone cells. The factor(s) will then be purified; its secretion, specificity and action will be studied. In addition, we will study the regulatory interactions among the four bone cell populations (committed and mature osteoblasts and osteoclasts) in response to a perturbation of only one of these cell populations. The latter will include studies of the ia rat in which the activity of the osteoclast population is probably exclusively impaired, and studies of treatment with cis-hydroxyproline, an agent that may exclusively inhibit the activity of the osteoblast population. For these studies we will develop a tritiated thymidine kinetic method to measure cell production rates of osteoblasts and osteoclasts which will be measures of the committed osteoblast and committed osteoclast populations respectively. This method also will be applied to the studies of the W/Wv mouse which has a stem cell defect and which may provide a means to determine if the coupling of osteoblast number to osteoclast number, a finding which we have documented, operates at the stem cell level.

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
5R01AR031062-06
Application #
3155959
Study Section
General Medicine B Study Section (GMB)
Project Start
1981-08-01
Project End
1988-11-30
Budget Start
1987-12-01
Budget End
1988-11-30
Support Year
6
Fiscal Year
1988
Total Cost
Indirect Cost
Name
Loma Linda University
Department
Type
Schools of Medicine
DUNS #
City
Loma Linda
State
CA
Country
United States
Zip Code
92350
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Simon, Nathan C; Barbieri, Joseph T (2014) Bacillus cereus Certhrax ADP-ribosylates vinculin to disrupt focal adhesion complexes and cell adhesion. J Biol Chem 289:10650-9
Alshbool, Fatima Z; Mohan, Subburaman (2014) Differential expression of claudin family members during osteoblast and osteoclast differentiation: Cldn-1 is a novel positive regulator of osteoblastogenesis. PLoS One 9:e114357
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Kim, Ha-Young; Alarcon, Catrina; Pourteymour, Sheila et al. (2013) Disruption of claudin-18 diminishes ovariectomy-induced bone loss in mice. Am J Physiol Endocrinol Metab 304:E531-7
Xing, Weirong; Liu, Jeff; Cheng, Shaohong et al. (2013) Targeted disruption of leucine-rich repeat kinase 1 but not leucine-rich repeat kinase 2 in mice causes severe osteopetrosis. J Bone Miner Res 28:1962-74
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Kiepe, Daniela; Rüth, Eva-Maria; Blum, Werner F et al. (2010) The IGF/IGFBP system in relation to macroscopic bone architecture in pediatric renal transplant patients. Pediatr Nephrol 25:659-67
Ohlsson, Claes; Mohan, Subburaman; Sjögren, Klara et al. (2009) The role of liver-derived insulin-like growth factor-I. Endocr Rev 30:494-535
Linares, Gabriel R; Xing, Weirong; Govoni, Kristen E et al. (2009) Glutaredoxin 5 regulates osteoblast apoptosis by protecting against oxidative stress. Bone 44:795-804

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