Firas M. Kara scite author profile

Adenosine is generated in increased concentrations at sites of injury/hypoxia and mediates a variety of physiological and pharmacological effects via G protein-coupled receptors (A(1), A(2A), A(2B), and A(3)). Because all adenosine receptors are expressed on osteoclasts, we determined the role of A(2A) receptor in the regulation of osteoclast differentiation. Differentiation and bone resorption were studied as the macrophage colony-stimulating factor-1-receptor activator of NF-κB ligand formation of multinucleated tartrate-resistant acid phosphatase (TRAP)-positive cells from primary murine bone marrow-derived precursors. A(2A) receptor and osteoclast marker expression levels were studied by RT-PCR. Cytokine secretion was assayed by enzyme-linked immunosorbent assay. In vivo examination of A(2A) knockout (KO)/control bones was determined by TRAP staining, micro-computed tomography, and electron microscopy. The A(2A) receptor agonist, CGS21680, inhibited osteoclast differentiation and function (half maximal inhibitory concentration, 50 nmol/L), increased the percentage of immature osteoclast precursors, and decreased IL-1β and tumor necrosis factor-α secretion, an effect that was reversed by the A(2A) antagonist, ZM241385. Cathepsin K and osteopontin mRNA expression increased in control and ZM241385-pretreated osteoclasts, and this was blocked by CGS21680. Micro-computed tomography of A(2A)KO mouse femurs showed a significantly decreased bone volume/trabecular bone volume ratio, decreased trabecular number, and increased trabecular space. A(2A)KO femurs showed an increased TRAP-positive osteoclast. Electron microscopy in A(2A)KO femurs showed marked osteoclast membrane folding and increased bone resorption. Thus, adenosine, acting via the A(2A) receptor, inhibits macrophage colony-stimulating factor-1-receptor activator of NF-κB ligand-stimulated osteoclast differentiation and may regulate bone turnover under conditions in which adenosine levels are elevated.

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Adenosine A₁receptors (A₁Rs) play a critical role in osteoclast formation and function

Kara

Chiţu

Sloane

et al. 2010

FASEB j.

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Adenosine regulates a wide variety of physiological processes via interaction with one or more G-protein-coupled receptors (A(1)R, A(2A)R, A(2B)R, and A(3)R). Because A(1)R occupancy promotes fusion of human monocytes to form giant cells in vitro, we determined whether A(1)R occupancy similarly promotes osteoclast function and formation. Bone marrow cells (BMCs) were harvested from C57Bl/6 female mice or A(1)R-knockout mice and their wild-type (WT) littermates and differentiated into osteoclasts in the presence of colony stimulating factor-1 and receptor activator of NF-kappaB ligand in the presence or absence of the A(1)R antagonist 1,3-dipropyl-8-cyclopentyl xanthine (DPCPX). Osteoclast morphology was analyzed in tartrate-resistant acid phosphatase or F-actin-stained samples, and bone resorption was evaluated by toluidine blue staining of dentin. BMCs from A(1)R-knockout mice form fewer osteoclasts than BMCs from WT mice, and the A(1)R antagonist DPCPX inhibits osteoclast formation (IC(50)=1 nM), with altered morphology and reduced ability to resorb bone. A(1)R blockade increased ubiquitination and degradation of TRAF6 in RAW264.7 cells induced to differentiate into osteoclasts. These studies suggest a critical role for adenosine in bone homeostasis via interaction with adenosine A(1)R and further suggest that A(1)R may be a novel pharmacologic target to prevent the bone loss associated with inflammatory diseases and menopause.

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Adenosine A₁ receptors regulate bone resorption in mice: Adenosine A₁ receptor blockade or deletion increases bone density and prevents ovariectomy‐induced bone loss in adenosine A₁ receptor–knockout mice

Kara¹,

Doty²,

Boskey³

et al. 2010

Arthritis & Rheumatism

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Objective. Accelerated osteoclastic bone resorption plays a central role in the pathogenesis of osteoporosis and other bone diseases. Because identifying the molecular pathways that regulate osteoclast activity provides a key to understanding the causes of these diseases and developing new treatments, we studied the effect of adenosine A 1 receptor blockade or deletion on bone density.Methods. The bone mineral density (BMD) in adenosine A 1 receptor-knockout (A 1 R-knockout) mice was analyzed by dual x-ray absorptiometry (DXA) scanning, and the trabecular and cortical bone volume was determined by microfocal computed tomography (micro-CT). The mice were ovariectomized or shamoperated, and 5 weeks after surgery, when osteopenia had developed, several parameters were analyzed by DXA scanning and micro-CT. A histologic examination of bones obtained from A 1 R-knockout and wild-type mice was carried out. Visualization of osteoblast function (bone formation) after tetracycline double-labeling was performed by fluorescence microscopy.Results. Micro-CT analysis of bones from A 1 Rknockout mice showed significantly increased bone volume. Electron microscopy of bones from A 1 R-knockout mice showed the absence of ruffled borders of osteoclasts and osteoclast bone resorption. Immunohistologic analysis demonstrated that although osteoclasts were present in the A 1 R-knockout mice, they were smaller and often not associated with bone. No morphologic changes in osteoblasts were observed, and bonelabeling studies revealed no change in the bone formation rates in A 1 R-knockout mice.Conclusion. These results suggest that the adenosine A 1 receptor may be a useful target in treating diseases characterized by excessive bone turnover, such as osteoporosis and prosthetic joint loosening.Homeostasis in bone relies on the balance between bone formation by osteoblasts and bone resorption by osteoclasts; these processes are tightly linked (1).

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Detection of Asymptomatic Ileal Carcinoid Tumors During Screening Colonoscopy With Surgical Follow-Up

Kara¹,

Dunzendorfer²

2010

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P132. Epsilon Aminocaproic and Transexamic Acid Decrease Osteoblast Differentiation and Mineralization in Vitro: Could this Influence Spinal Fusion Rates Clinically?

et al. 2009

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Firas M. Kara

Adenosine A2A Receptor Ligation Inhibits Osteoclast Formation

Adenosine A₁receptors (A₁Rs) play a critical role in osteoclast formation and function

Adenosine A₁ receptors regulate bone resorption in mice: Adenosine A₁ receptor blockade or deletion increases bone density and prevents ovariectomy‐induced bone loss in adenosine A₁ receptor–knockout mice

Detection of Asymptomatic Ileal Carcinoid Tumors During Screening Colonoscopy With Surgical Follow-Up

P132. Epsilon Aminocaproic and Transexamic Acid Decrease Osteoblast Differentiation and Mineralization in Vitro: Could this Influence Spinal Fusion Rates Clinically?

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Firas M. Kara

Adenosine A2A Receptor Ligation Inhibits Osteoclast Formation

Adenosine A1receptors (A1Rs) play a critical role in osteoclast formation and function

Adenosine A1 receptors regulate bone resorption in mice: Adenosine A1 receptor blockade or deletion increases bone density and prevents ovariectomy‐induced bone loss in adenosine A1 receptor–knockout mice

Detection of Asymptomatic Ileal Carcinoid Tumors During Screening Colonoscopy With Surgical Follow-Up

P132. Epsilon Aminocaproic and Transexamic Acid Decrease Osteoblast Differentiation and Mineralization in Vitro: Could this Influence Spinal Fusion Rates Clinically?

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Product

Resources

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Adenosine A₁receptors (A₁Rs) play a critical role in osteoclast formation and function

Adenosine A₁ receptors regulate bone resorption in mice: Adenosine A₁ receptor blockade or deletion increases bone density and prevents ovariectomy‐induced bone loss in adenosine A₁ receptor–knockout mice