Bone resorption

In the light of these arguments, an attractive hypothesis of bone turnover is that it is a peroxide-driven process of osteoclastic bone resorption, under the control of local NO production by endothelial cells and by the osteoclast 

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Calcitonin is secreted when abnormally high calcium levels occur in plasma. Although plasma concentrations are normally minute (<100 pg/mL), they increase two- to threefold after calcium infusion. Calcitonin has a short plasma half-life (ca 10 min). Certain thyroid tumors are the result of CT concentrations 50—500 times normal. The mechanism of action is a direct inhibition of bone resorption. Calcitonin is used clinically in various diseases in which hypercalcemia is present, eg, Paget s disease (46). 

Among the D vitamins, multiple fluonne substituents in the side chain of 25-hydroxy-D3 (4) markedly increases bone resorptive activity [21, 22] The enhanced activity may be due to blockade of degradation caused by the presence of fluorine in specific positions. 

RGD analogs have been shown to inhibit the attachment of osteoclasts to bone matrix and to reduce bone resotptive activity in vitro. The cell surface integrin, av 33, appears to play a role in this process. RGD analogs may rq resent a new approach to modulating osteoclast-mediated bone resorption and may be useful in the treatment of osteoporosis [9]. 

Bone metabolism comprises the processes of bone formation and bone resorption, the key actions by which skeletal mass, structure and quality are accrued and maintained throughout life. In the mature skeleton, anabolic and catabolic actions are mostly balanced due to the tight regulation of the activity of bone forming ( osteoblast) and bone resorbing ( osteoclast) cells through circulating osteotropic hormones and locally active cytokines. 

PTH is the most important regulator of bone remodelling and calcium homeostasis. PTH is an 84-amino acid polypeptide and is secreted by the parathyroid glands in response to reductions in blood levels of ionised calcium. The primary physiological effect of PTH is to increase serum calcium. To this aim, PTH acts on the kidney to decrease urine calcium, increase mine phosphate, and increase the conversion of 25-OH-vitamin D to l,25-(OH)2-vitamin D. PTH acts on bone acutely to increase bone resorption and thus release skeletal calcium into the circulation. However, due to the coupling of bone resorption and bone formation, the longer-term effect of increased PTH secretion is to increase both bone resorption and bone formation. 

The steroid hormone 1,25-dihydroxy vitamin D3 (calcitriol) slowly increases both intestinal calcium absorption and bone resorption, and is also stimulated through low calcium levels. In contrast, calcitonin rapidly inhibits osteoclast activity and thus decreases serum calcium levels. Calcitonin is secreted by the clear cells of the thyroid and inhibits osteoclast activity by increasing the intracellular cyclic AMP content via binding to a specific cell surface receptor, thus causing a contraction of the resorbing cell membrane. The biological relevance of calcitonin in human calcium homeostasis is not well established. 

Statins lower plasma cholesterol levels by inhibiting HMG-CoA reductase in the mevalonate pathway (Fig. 4). Some research has shown that certain statins (but not all) stimulate BMP-2 expression in osteoblasts, increase bone formation and mimic N-BP in that they inhibit bone resorption. The use of statins in osteoporosis is presently being investigated. 

PTH has a dual effect on bone cells, depending on the temporal mode of administration given intermittently, PTH stimulates osteoblast activity and leads to substantial increases in bone density. In contrast, when given (or secreted) continuously, PTH stimulates osteoclast-mediated bone resorption and suppresses osteoblast activity. Further to its direct effects on bone cells, PTH also enhances renal calcium re-absorption and phosphate clearance, as well as renal synthesis of 1,25-dihydroxy vitamin D. Both PTH and 1,25-dihydroxyvitamin D act synergistically on bone to increase serum calcium levels and are closely involved in the regulation of the calcium/phosphate balance. The anabolic effects of PTH on osteoblasts are probably both direct and indirect via growth factors such as IGF-1 and TGF 3. The multiple signal transduction... 

Bone Resorption The removal of mineralised bone by osteoclasts. Bone resorption, which is part of the bone remodelling process, includes the release of mineral (mostly calcium and phosphate) and subsequent proteolysis of organic matter (mostly collagen). 

Lange PF, Wartosch L, Jentsch TJ et al (2006) C1C-7 requires Ostml as a p-subunit to support bone resorption and lysosomal function. Nature 440 220-223... 

Recombinant human DL-1 receptor antagonist (Anakinra, Kineret ) blocks the biological activity of interleukin-1 by competitively inhibiting IL-1 binding to the interleukin-1 type I receptor (IL-1RI), which is expressed in a wide variety of tissues and organs. Thereby it reduces the pro-inflammatory activities of IL-1 including cartilage destiuction and bone resorption. Side effects include an increased risk of infections and neutropenia. 

Selective estrogen receptor modulators (SERMs) are synthetic compounds with partially agonistic and partially antagonistic estrogenic properties. In bone, SERMs inhibit bone resorption via the mechanisms known for estrogens. Major SERMs are tamoxifen, a triphenylethylene compound, and raloxifene. In postmenopausal women, the latter has been shown to prevent bone loss and to reduce fracture risk by 40%. 

Furthermore, peptidomimetic SH2 domain inhibitors for Src, such as AP-22408 have been designed that interfere with effector binding and thereby disrupt signal transduction. AP-22408 decreases bone resorption in animal studies and may be a promising drug to treat osteoporosis and other bone diseases, such as Paget s disease and osteolytic bone metastasis. 

Several other inhibitors of nonreceptor PTKs are currently in development but only a few of them are studied in clinical trials. Noteworthy, Dasatinib does not only inhibit c-Abl, but also potently blocks Src activity, a property that may contribute to its beneficial clinical effects in CML. Other kinase inhibitors being developed that inhibit c-Abl and/or Src are AZD-0530, AP-23994, PD-0183805, SU-6656, and Bosutinib (SKI-606). Furthermore, peptidomimetic SH2 domain inhibitors for Src, such as AP-22408 have been designed that decrease bone resorption and may be promising drugs to treat osteoporosis and other bone diseases, such as Paget s disease and osteolytic bone metastasis. 

Summary term for a number of steroid hormones and their precursors with differentiation-inducing activity in many tissues. As regards bone, three components are relevant cholecalciferol ( vitamin D ) 25-hydroxyvi-taminD3 (calcidiol) and 1,25-dihydroxy vitamin D3 (calcitriol). The latter is the biologically active form and increases both intestinal calcium absoiption and bone resorption. Vitamin D preparations are widely used for the treatment of osteoporosis. Daily supplementation with vitamin D reduces bone loss in postmenopausal women and hip fractures in elderly subjects. 

Alendronate, etidronate, and risedronate act primarily on the bone by inhibiting normal and abnormal bone resorption. This results in increased bone mineral density, reversing the progression of osteoporosis. 

In both procedures, a concern is the extent to which the poly(ethylene) undergoes wear within the artificial joint. The constant rubbing of metal on polymer is capable of generating particles of wear debris, and these can collect around the joint. In extreme cases, this debris can interfere with the metabolic processes in the remaining bone, leading to bone resorption and... 

Wolfe, M.S., Klein, L. 1996 Sex differences in absolute rates of bone resorption in young rats appendicular versus axial bones. Calcified Tissue International 59 51-57. 

The major cell types involved in bone resorption and deposition are osteoclasts and osteoblasts (Figure 48-11). The former are associated with resorption and the latter with deposition of bone. Osteocytes are descended from osteoblasts they also appear to be involved in maintenance of bone matrix but will not be discussed further here. 

Osteoclasts are multinucleated cells derived from pluripotent hematopoietic stem cells. Osteoclasts possess an apical membrane domain, exhibiting a ruffled border that plays a key role in bone resorption (Figure 48-12). A proton-translocating ATPase expels protons across the ruffled border into the resorption area, which is the microenvironment of low pH shown in the figure. This lowers the local pH to 4.0 or less, thus increasing the solubility of hydroxyapatite and allowing demineralization to occur. Lysosomal acid proteases are released that digest the now accessible matrix proteins. 

Figure 48-12. Schematic illustration of some aspects of the role of the osteoclast in bone resorption. Lysosomal enzymes and hydrogen ions are released into the confined microenvironment created by the attachment between bone matrix and the peripheral clear zone of the osteoclast. The acidification of this confined space facilitates the dissolution of calcium phosphate from bone and is the optimal pH for the activity of lysosomal hydrolases. Bone matrix is thus removed, and the products of bone resorption are taken up into the cytoplasm of the osteoclast, probably digested further, and transferred into capillaries. The chemical equation shown in the figure refers to the action of carbonic anhydrase II, described in the text. (Reproduced, with permission, from Jun-queira LC, Carneiro J BasicHistology. Text Atlas, 10th ed. McGraw-Hill, 2003.)...

Hyperparathyroidism Excess parathormone causes bone resorption. 

Reaction II is spontaneous. In osteoclasts involved in bone resorption, CA II apparently provides protons to neutralize the OH ions left inside the cell when... 

Studies have demonstrated that treatment with soy or phytoestrogen enriched diets is effective in conserving bone in rodent models of osteoporosis (Anderson and Gamer, 1998 Ishimi et al, 2000 Draper et al, 1997). The mechanism of action of phytoestrogens on bone health is unclear but several mechanisms including inhibition of bone resorption and stimulation of bone formation maybe involved (Fanti etal, 1998 Ishimi e/a/., 1999 Picherit eta/., 2000). Limited data from studies in postmenopausal women have indicated that phytoestrogen supplements have a small, beneficial effect on bone loss in the lumbar spine (Alekel et al, 2000 Potter et al, 1998 Somekawa et al, 2001). 

Horiuchi et al., 2000 Japanese postmenopause n = 85 Women with a high soy protein intake showed less bone loss and higher BMD at the lumbar spine Biomarkers urinary deoxypyridinoline (bone resorption) decreased... 

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