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Dive into the research topics where J.A. Gallagher is active.

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Featured researches published by J.A. Gallagher.


Metabolic Bone Disease and Related Research | 1984

Production of osteocalcin by human bone cells in vitro. Effects of 1,25(OH)2D3, 24,25(OH)2D3, parathyroid hormone, and glucocorticoids

J.N. Beresford; J.A. Gallagher; James William Poser; R.G.G. Russell

Cells have been cultured from human bone that possess several characteristics of osteoblasts, including the capacity to produce osteocalcin (bone Gla protein). In these cultures the production of osteocalcin is dependent on 1,25(OH)2D3 but is not affected by 24,25(OH)2D3 either alone or in combination with 1,25(OH)2D3. Two glucocorticoids, prednisolone and deflazacort, reverse the stimulation of osteocalcin synthesis by 1,25(OH)2D3 in a dose-dependent manner (10(-9) - 10(-6)M). Parathyroid hormone also inhibits osteocalcin production in a dose-dependent fashion (0.2-5 IU/ml). These results demonstrate that human bone cell cultures may be of considerable value in investigating the hormonal and pharmacologic regulation of the production of osteocalcin and other bone proteins in vitro.


Bone | 1997

Localization of Cathepsin K in Human Osteoclasts by In Situ Hybridization and Immunohistochemistry

Amanda Littlewood-Evans; Toshio Kokubo; O. Ishibashi; Tetsuya Inaoka; Brenda Wlodarski; J.A. Gallagher; Graeme Bilbe

We have recently cloned cathepsin K from a human bone cDNA library. Since cathepsins are proposed to be involved in the degradation of mineralized bone matrix, we have investigated, by in situ hybridization and immunocytochemistry, the expression of the cathepsin K mRNA transcripts and protein in sections of bone and giant cell tumor to determine which cells express this enzyme. Within all tissues studied, cathepsin K was highly expressed in osteoclasts. Furthermore, the expression of cathepsin K mRNA in giant cell tumor tissue appeared to be confined to the periphery of the osteoclast indicating a compartmentalization of the mRNA. Immunohistochemistry confirmed the specific localization of cathepsin K to the osteoclast. In actively resorbing osteoclasts, the immunostaining was localized at the ruffled border, whereas in osteoclasts in sections of giant cell tumor, staining was observed in lysosomal vacuoles, which in some cases were seen to fuse with the cell membrane. Other cells within the bone, such as osteoblasts and osteocytes, did not express either the cathepsin K transcript or protein. However, there were very low levels of cathepsin K detected in a population of mononuclear cells, possibly representing osteoclast progenitor cells, within the marrow/stromal layer. The specific localization of cathepsin K within osteoclasts would therefore indicate the potential role of this enzyme in the bone resorptive process.


Biomaterials | 2003

Quantitative assessment of the response of primary derived human osteoblasts and macrophages to a range of nanotopography surfaces in a single culture model in vitro

J.M. Rice; John A. Hunt; J.A. Gallagher; P Hanarp; Duncan S. Sutherland; Julie Gold

The effect of nanotopography on a range of Ti oxide surfaces was determined. Flat Ti, 3%, 19%, 30% and 43% topography densities of 110 nm high hemispherical protrusions were cultured in contact with primary derived human macrophages and osteoblasts in single culture models. Prior to introduction of the test substrate the phenotype and optimum conditions for in vitro cell culture were established. The cellular response was investigated and quantified by assessments of cytoskeletal development and orientation, viable cell adhesion, cytokine production and release and RT-PCR analysis of osteogenic markers. The tested nanotopographies did not have a statistically significant effect on viable cell adhesion and subsequent cytoskeletal formation. Surface chemistry was the dominant factor as established via incorporation of a tissue culture polystyrene, TCPS, control. The topography surfaces induced a release of chemotactic macrophage activation agents at 1 day in conjunction with stress fibre formation and a subsequent fibronectin network formation. Osteoblasts migrated away from the topography surfaces to the exposed TCPS within the wells during the 7-day period.


Journal of Bone and Mineral Research | 2001

Expression of a P2X7 Receptor by a Subpopulation of Human Osteoblasts

Alison Gartland; Robert A. Hipskind; J.A. Gallagher; W.B. Bowler

There is now conclusive evidence that extracellular nucleotides acting via cell surface P2 receptors are important local modulators of bone cell function. Multiple subtypes of P2 receptors have been localized to bone, where their activation modulates multiple processes including osteoblast proliferation, osteoblast‐mediated bone formation, and osteoclast formation and resorptive capacity. Locally released nucleotides also have been shown to sensitize surrounding cells to the action of systemic factors such as parathyroid hormone (PTH). In nonskeletal tissue recent attention has focused on one particular P2 receptor, the P2X7 receptor (previously termed P2Z), and its ability to form nonselective aqueous pores in the plasma membrane on prolonged stimulation. Expression of this receptor originally was thought to be restricted to cells of hemopoietic origin, in which it has been implicated in cell fusion, apoptosis, and release of proinflammatory cytokines. However, recent reports have indicated expression of this receptor in cells of stromal origin. In this study, we investigated the expression of the P2X7 receptor in two human osteosarcoma cell lines, as well as several populations of primary human bone‐derived cells (HBDCs) at the levels of messenger RNA (mRNA) and protein. We found that there is a subpopulation of osteoblasts that expresses the P2X7 receptor and that these receptors are functional as assessed by monitoring ethidium bromide uptake following pore formation. Inhibition of delayed lactate dehydrogenase (LDH) release in response to the specific agonist 2′,3′‐(4‐benzoyl)‐benzoyl‐adenosine triphosphate (BzATP) by the nonspecific P2X receptor antagonist PPADS confirmed a receptor‐mediated event. After treatment with BzATP SaOS‐2 cells exhibited dramatic morphological changes consistent with those observed after P2X7‐mediated apoptosis in hemopoietic cells. Dual staining with terminal deoxynucleotidyl transferase‐mediated deoxyuridine triphosphate‐biotin nick end labeling (TUNEL) and a P2X7‐specific monoclonal antibody confirmed the induction of apoptosis in osteoblasts expressing the P2X7 receptor. These data show for the first time the expression of functional P2X7 receptors in a subpopulation of osteoblasts, activation of which can result in ATP‐mediated apoptosis.


Journal of Biomechanics | 2011

Micro-computed tomography with iodine staining resolves the arrangement of muscle fibres

Nathan Jeffery; Robert S. Stephenson; J.A. Gallagher; Jonathan C. Jarvis; Philip G. Cox

We illustrate here microCT images in which contrast between muscle and connective tissue has been achieved by means of staining with iodine. Enhancement is shown to be dependent on the concentration of iodine solution (I(2)KI), time in solution and specimen size. Histological examination confirms that the arrangement of individual muscle fibres can be visualised on the enhanced microCT images, and that the iodine accumulates in the muscle fibres in preference to the surrounding connective tissues. We explore the application of this technique to describe the fibrous structure of skeletal muscle, and conclude that it has the potential to become a non-destructive and cost-effective method for investigating muscle fascicle architecture, particularly in comparative morphological studies.


British Journal of Pharmacology | 1999

Regulation of epidermal homeostasis through P2Y2 receptors

C. Jane Dixon; W.B. Bowler; Amanda Littlewood-Evans; J.P. Dillon; Graeme Bilbe; Graham R. Sharpe; J.A. Gallagher

Previous studies have indicated a role for extracellular ATP in the regulation of epidermal homeostasis. Here we have investigated the expression of P2Y2 receptors by human keratinocytes, the cells which comprise the epidermis. Reverse transcriptase‐polymerase chain reaction (RT–PCR) revealed expression of mRNA for the G‐protein‐coupled, P2Y2 receptor in primary cultured human keratinocytes. In situ hybridization studies of skin sections revealed that P2Y2 receptor transcripts were expressed in the native tissue. These studies demonstrated a striking pattern of localization of P2Y2 receptor transcripts to the basal layer of the epidermis, the site of cell proliferation. Increases in intracellular free Ca2+ concentration ([Ca2+]i) in keratinocytes stimulated with ATP or UTP demonstrated the presence of functional P2Y receptors. In proliferation studies based on the incorporation of bromodeoxyuridine (BrdU), ATP, UTP and ATPγS were found to stimulate the proliferation of keratinocytes. Using a real‐time firefly luciferase and luciferin assay we have shown that under static conditions cultured human keratinocytes release ATP. These findings indicate that P2Y2 receptors play a major role in epidermal homeostasis, and may provide novel targets for therapy of proliferative disorders of the epidermis, including psoriasis.


Bone | 2001

Extracellular nucleotide signaling : A mechanism for integrating local and systemic responses in the activation of bone remodeling

W.B. Bowler; Katherine A. Buckley; Alison Gartland; Robert A. Hipskind; Graeme Bilbe; J.A. Gallagher

Bone turnover occurs at discreet sites in the remodeling skeleton. The focal nature of this process indicates that local cues may facilitate the activation of bone cells by systemic factors. Nucleotides such as adenosine triphosphate (ATP) are locally released, short-lived, yet potent extracellular signaling molecules. These ligands act at a large family of receptors-the P2 receptors, which are subdivided into P2Y and P2X subtypes based on mechanism of signal transduction. Nucleotides enter the extracellular milieu via non-lytic and lytic mechanisms where they activate multiple P2 receptor types expressed by both osteoblasts and osteoclasts. In this review the release of ATP by bone cells is discussed in the context of activation of bone remodeling. We provide compelling evidence that nucleotides, acting via P2Y receptors, are potent potentiators of parathyroid hormone-induced signaling and transcriptional activation in osteoblasts. The provision of a mechanism to induce activation of osteoblasts above a threshold attained by systemic factors alone may facilitate focal remodeling and address the paradox of why systemic regulators like PTH exert effects at discreet sites.


Journal of Biological Chemistry | 1999

Signaling in Human Osteoblasts by Extracellular Nucleotides THEIR WEAK INDUCTION OF THE c-fos PROTO-ONCOGENE VIA Ca2+ MOBILIZATION IS STRONGLY POTENTIATED BY A PARATHYROID HORMONE/cAMP-DEPENDENT PROTEIN KINASE PATHWAY INDEPENDENTLY OF MITOGEN-ACTIVATED PROTEIN KINASE

W.B. Bowler; Catherine J. Dixon; Christine Halleux; Rainer Maier; G. Bilbe; William D. Fraser; J.A. Gallagher; R.A. Hipskind

Extracellular nucleotides acting through specific P2 receptors activate intracellular signaling cascades. Consistent with the expression of G protein-coupled P2Y receptors in skeletal tissue, the human osteosarcoma cell line SaOS-2 and primary osteoblasts express P2Y1 and P2Y2 receptors, respectively. Their activation by nucleotide agonists (ADP and ATP for P2Y1; ATP and UTP for P2Y2) elevates [Ca2+] i and moderately induces expression of the c-fos proto-oncogene. A synergistic effect on c-fos induction is observed by combining ATP and parathyroid hormone, a key bone cell regulator. Parathyroid hormone elevates intracellular cAMP levels and correspondingly activates a stably integrated reporter gene driven by the Ca2+/cAMP-responsive element of the human c-fospromoter. Nucleotides have little effect on either cAMP levels or this reporter, instead activating luciferase controlled by the full c-fos promoter. This induction is reproduced by a stably integrated serum response element reporter independently of mitogen-activated protein kinase activation and ternary complex factor phosphorylation. This novel example of synergy between the cAMP-dependent protein kinase/CaCRE signaling module and a non-mitogen-activated protein kinase/ternary complex factor pathway that targets the serum response element shows that extracellular ATP, via P2Y receptors, can potentiate strong responses to ubiquitous growth and differentiative factors.


British Journal of Cancer | 1997

Extracellular nucleotides stimulate proliferation in MCF-7 breast cancer cells via P2-purinoceptors.

C.J. Dixon; W.B. Bowler; P. Fleetwood; Andrew F. Ginty; J.A. Gallagher; John A. Carron

Nucleotides such as ATP can act as extracellular effector molecules by interaction with specific cellular receptors known as P2-purinoceptors. Recently, we cloned the human P2U purinoceptor from osteoclastoma and demonstrated its expression in skeletal tissues. In the current study we have investigated the expression of P2U purinoceptors in human breast tumour cell lines and examined functional effects of extracellular nucleotides on these cells. By reverse transcription-linked polymerase chain reaction (RT-PCR) the expression of mRNA for P2U purinoceptors was demonstrated in four human breast cancer cell lines, Hs578T, MCF-7, SK-Br3 and T47-D. In MCF-7 cells, extracellular ATP (1-100 microM) elevated intracellular free calcium concentration [Ca2+]i, indicating that these cells express functional P2-purinoceptors. UTP elevated [Ca2+]i in an identical manner to ATP, whereas 2-methylthioATP was completely ineffective, and ADP only partially effective. This pharmacological profile suggests that the P2U subtype may be the only P2-purinoceptor expressed by these cells. The functional significance of P2U purinoceptor expression by MCF-7 cells was investigated by analysing the effects of extracellular ATP on cell proliferation. The slowly hydrolysed analogue of ATP, ATPgammaS (which was also shown to elevate [Ca2+]i), induced proliferation of MCF-7 cells when added daily to serum-free cultures over a period of 3 days. ATPgammaS-induced proliferation was demonstrated by three separate methods, detection by scintillation counting of [3H]thymidine incorporation, immunocytochemical detection of 5-bromo-2-deoxyuridine incorporation and direct counting of cell numbers. These data suggest that ATP, possibly released at sites of tissue injury or inflammation, may be capable of growth factor action in promotion of tumour proliferation or progression.


Journal of Biological Chemistry | 2005

Human Keratinocytes Release ATP and Utilize Three Mechanisms for Nucleotide Interconversion at the Cell Surface

Helen E. Burrell; Brenda Wlodarski; B. Foster; Katherine A. Buckley; Graham R. Sharpe; John M. Quayle; Alec W.M. Simpson; J.A. Gallagher

Nucleotide activation of P2 receptors is important in autocrine and paracrine regulation in many tissues. In the epidermis, nucleotides are involved in proliferation, differentiation, and apoptosis. In this study, we have used a combination of luciferin-luciferase luminometry, pharmacological inhibitors, and confocal microscopy to demonstrate that HaCaT keratinocytes release ATP into the culture medium, and that there are three mechanisms for nucleotide interconversion, resulting in ATP generation at the cell surface. Addition of ADP, GTP, or UTP to culture medium elevated the ATP concentration. ADP to ATP conversion was inhibited by diadenosine pentaphosphate, oligomycin, and UDP, suggesting the involvement of cell surface adenylate kinase, F1F0 ATP synthase, and nucleoside diphosphokinase (NDPK), respectively, which was supported by immunohistochemistry. Simultaneous addition of ADP and GTP elevated ATP above that for each nucleotide alone indicating that GTP acts as a phosphate donor. However, the activity of NDPK, F1F0 ATP synthase or the forward reaction of adenylate kinase could not fully account for the culture medium ATP content. We postulate that this discrepancy is due to the reverse reaction of adenylate kinase utilizing AMP. In normal human skin, F1F0 ATP synthase and NDPK were differentially localized, with mitochondrial expression in the basal layer, and cell surface expression in the differentiated layers. We and others have previously demonstrated that keratinocytes express multiple P2 receptors. In this study we now identify the potential sources of extracellular ATP required to activate these receptors and provide better understanding of the role of nucleotides in normal epidermal homeostasis and wound healing.

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W.B. Bowler

University of Liverpool

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Jonathan C. Jarvis

Liverpool John Moores University

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J.P. Dillon

University of Liverpool

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M.A. Birch

University of Liverpool

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A. Boyde

Queen Mary University of London

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