Osteoclast resorptive activity occurs despite the presence of extremely high levels of ionized calcium ([Ca2؉]) within the osteoclast hemivacuole, which is generated as a by-product of its resorptive activity. ] i within the osteoclast, where elevated calcium may have an inhibitory, excitatory, or no effect on the overall osteoclast activity while exerting a selective effect on different functional modalities. These observations lead to the conclusion that far from being inhibited by Ca 2؉ generated, the osteoclast by virtue of the observed functional compartmentalization is highly adapted at carrying out its activity even when the level of
Osteoclast activity is thought to be regulated by calcitonin, as well as by the level of ionised calcium generated locally as a result of bone resorption. The exposure of isolated osteoclasts to elevated ambient calcium levels has been shown to lower resorptive activity and to reduce rates of enzyme release. We have attempted to determine whether these effects are mediated by a divalent cation-sensitive "calcium receptor," as has been reported for the parathyroid chief cells. Thus, we compared the effect of alkaline earth metal cations on osteoclast function using a morphometric measure of bone resorption and a spectrophotometric method for measuring the activity of the released enzyme, acid phosphatase. The exposure of resorbing osteoclasts to between 5 and 20 mM extracellular ionised calcium ([Ca2+]e) inhibited bone resorption and enzyme release to an extent similar to that seen with 0.1 to 10 microM ionomycin. The effect of combining submaximal concentrations of [Ca2+]e (15 mM) and ionomycin (0.1 microM) resulted in additivity, suggesting that the influence of [Ca2+]e on bone resorption was mediated by elevated intracellular calcium levels ([Ca2+]i). The other cations studied (Mg2+, Ba2+) were effective and elicited similar effects, although some required higher concentrations. Thus, whilst Ca2+ and Mg2+ were effective at 10 to 15 mM levels, Ba2+ was effective only at high (20 mM) concentrations. These findings are consistent with an influence of [Ca2+]e on osteoclast activity through an action on a surface membrane "calcium receptor" that can also bind other divalent cations, rather than by passive changes of [Ca2+]i with [Ca2+]e elevation.
We have shown that superoxide anion (O2-) production by the osteoclast can be used as an index of the osteoclast activity since the agents that inhibit and stimulate the osteoclast also diminish and stimulate O2- production respectively. Therefore, we have investigated the mechanism of parathyroid hormone (PTH)-mediated stimulation of osteoclast function in terms of its effect on O2- generation. The determination of O2- generation was carried out by employing cytochrome c immobilised on a surface-modified gold electrode. The basal level of free radical production by the osteoblast-like cells (ROS 17/2.8) was 10(4)-fold lower than by osteoclasts cultured on bone. PTH had no acute effect on free radical production by the osteoblasts. The exposure of the osteoclasts cultured on bone to PTH led to a dramatic and immediate stimulation of O2- generation which was unaffected by the presence of ROS 17/2.8 cells. The osteoclasts co-cultured with ROS 17/2.8 cells and exposed to PTH for 3 h were also found to produce greater stimulation of O2- than the osteoclasts exposed to PTH alone. A competitive leukotriene D4 antagonist REV 5901, which also inhibits 5-lipoxygenase, did not block O2- generation by osteoclasts cultured alone or in the presence of osteoblasts. Therefore, we conclude that PTH directly stimulates osteoclasts to produce O2-; this may be the main mode of activation of the osteoclasts, although an osteoblast-mediated effect of the hormone cannot be ruled out.
Background-It has been suggested that the accumulation of damage to mitochondrial DNA is a major cause of age related, degenerative disease. Aging is known to cause bone loss leading to a fall in bone mineral density and disruption of bone microarchitecture. However, despite the evidence of age related bone loss, no attempt has been made to detect specific deletions of mitochondrial DNA in the bone of aged individuals. Aims-To detect bone specific, age related deletions in mitochondrial DNA. Method-Blood leucocytes and bone biopsies from patients who had undergone orthopaedic surgery were used as a source of mitochondrial DNA and screened for deletions using the polymerase chain reaction. Results-Although no deletions were detected in the blood mitochondrial DNA, specific deletions in bone mitochondrial DNA were found in three of five elderly subjects. Conclusion-The findings of this study suggest that there could be a link between mitochondrial DNA deletions and free radical induced apoptosis of bone cells in the development of age related bone loss. (J Clin Pathol 1998;51:117-120)
SUMMARYThe electrochemical determination of superoxide anion generation by isolated mammalian osteoclasts was carried out by employing cytochrome c, immobilized at a surface-modified gold electrode. Osteoclasts cultured on bone generated 15-fold more superoxide anions than cells plated on plastic. Superoxide anion production by osteoclasts cultured on bone was almost completely abolished by salmon calcitonin, and partially abolished following exposure to elevated extracellular calcium. We therefore conclude that osteoclast activity is influenced substantially by the extracellular matrix.
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