The cytosensor microphysiometer: biological applications of silicon technology

McConnell, H. M.; Owicki, John C.; Parce, J W; Dl, Miller; Baxter, Gregory T.; Wada, Hiroo; Pitchford, Simon

doi:10.1126/science.1329199

Cited by 614 publications

(377 citation statements)

References 9 publications

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“…Energy production and intracellular metabolic processes lead to the production and excretion of protons. The EAR is detected as a change in potential across a silicon light-addressable sensor during periods of cessation of¯ow of medium (McConnell et al, 1992). Cells were seeded into 12 mm transwell inserts (3 mm pore size) (Costar) at 5610 5 cells per cup in media lacking FBS, and left to adhere overnight.…”

Section: Cytosensor Microphysiometer Studiesmentioning

confidence: 99%

Mouse β_3a‐ and β_3b‐adrenoceptors expressed in Chinese hamster ovary cells display identical pharmacology but utilize distinct signalling pathways

Hutchinson

Bengtsson

Evans

et al. 2002

British J Pharmacology

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1 This study characterizes the mouse b 3a -adrenoceptor (AR) and the splice variant of the b 3 -AR (b 3b -AR) expressed in Chinese hamster ovary cells (CHO-K1). 2 Stable clones with high (*1200), medium (*500) or low receptor expression (*100 fmol mg protein 71 ) were determined by saturation binding with [ 125 I]-(7)-cyanopindolol. Competition binding studies showed no signi®cant di erences in a nity of b-AR ligands for either receptor. 3 Several functional responses of each receptor were measured, namely extracellular acidi®cation rate (EAR; cytosensor microphysiometer), cyclic AMP accumulation, and Erk1/2 phosphorylation. The b 3 -AR agonists BRL37344, CL316243, GR265162X, L755507, SB251023, the non-conventional partial b-AR agonist CGP12177 and the b-AR agonist (7)-isoprenaline caused concentrationdependent increases in EAR in cells expressing either splice variant. CL316243 caused concentrationdependent increases in cyclic AMP accumulation and Erk1/2 phosphorylation in cells expressing either receptor. 4 PTX treatment increased maximum EAR and cyclic AMP responses to CL316243 in cells expressing the b 3b -AR but not in cells expressing the b 3a -AR at all levels of receptor expression. 5 CL316243 increased Erk1/2 phosphorylation with pEC 50 values and maximum responses that were not signi®cantly di erent in cells expressing either splice variant. Erk1/2 phosphorylation was insensitive to PTX or H89 (PKA inhibitor) but was inhibited by LY294002 (PI3Kg inhibitor), PP2 (c-Src inhibitor), genistein (tyrosine kinase inhibitor) and PD98059 (MEK inhibitor). 6 The adenylate cyclase activators forskolin or cholera toxin failed to increase Erk1/2 levels although both treatments markedly increased cyclic AMP accumulation in both b 3a -or b 3b -AR transfected cells. 7 These results suggest that in CHO-K1 cells, the b 3b -AR, can couple to both G s and G i to stimulate and inhibit cyclic AMP production respectively, while the b 3a -AR, couples solely to G s to increase cyclic AMP levels. However, the increase in Erk1/2 phosphorylation following receptor activation is not dependent upon coupling of the receptors to G i or the generation of cyclic AMP.

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Section: Cytosensor Microphysiometer Studiesmentioning

confidence: 99%

Mouse β_3a‐ and β_3b‐adrenoceptors expressed in Chinese hamster ovary cells display identical pharmacology but utilize distinct signalling pathways

Hutchinson

Bengtsson

Evans

et al. 2002

British J Pharmacology

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“…This instrument continuously monitors the extracellular pH surrounding cells in culture, and reports cell activation by measuring the increases in extracellular acidification rate occurring in response to agonist stimulation (McConnell et al 1992). The isolated parasites was resuspended in DMEM (GIBCO) plus 30% agarose to improve parasites adherence onto the polycarbonate membrane of the transwell capsules (3 µm pore size) at a density of 2.5 × 10 5 cells.…”

Section: Methodsmentioning

confidence: 99%

Antimalarial drugs disrupt ion homeostasis in malarial parasites

Gazarini

Sigolo

Markus

et al. 2007

Mem. Inst. Oswaldo Cruz

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“…Cells acidify the environment via ion exchangers and pumps such as the Na ϩ /H ϩ antiporter and the H ϩ -ATPase and by transporting metabolites such as lactic acid across the plasma membrane (19). Several seven-transmembrane G protein-coupled receptors such as adrenergic, dopamine, and muscarinic receptors elicit concentration-dependent increases in ECAR in response to agonist binding (17,18,20); however, the physiological significance of receptor-mediated stimulation of extracellular acidification in these cell systems is not clear. In contrast, acidification of the bone microenvironment is known to be functionally important in skeletal metabolism and Ca 2ϩ /P i homeostasis (13).…”

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confidence: 99%

“…Microphysiometry is a novel method for monitoring cellular metabolism (16) and has been effectively adapted to monitor acid secretion and metabolic rates in small populations of cultured cells in real time (17,18). Because local pH homeostasis is physiologically important in mineral ion metabolism, and PTH-stimulated bone resorption has been linked to acid production by osteoclasts (13), we utilized microphysiometry to monitor the effect of PTH on extracellular acidification in osteoblasts, the primary target cell for PTH in bone.…”

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confidence: 99%

A New Action of Parathyroid Hormone

Barrett

Belinsky

Tashjian

1997

Journal of Biological Chemistry

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The major physiological function of parathyroid hormone (PTH) is the maintenance of Ca 2؉ /P i homeostasis via the parathyroid hormone/parathyroid hormone-related protein receptor (PTHR) in kidney and bone. An important consequence of PTHR activation in bone is enhanced local acidification of the extracellular space. Agonist activation of some seven transmembrane-domain receptors increases the extracellular acidification rate (ECAR). We utilized microphysiometry to investigate PTH-stimulated, receptor-mediated increases in ECAR in human osteoblast-like SaOS-2 cells. PTH-(1-34) elicited a large, acute, dose-dependent increase in ECAR with an EC 50 of about 2 nM. The PTH-induced increase in ECAR was specific to cells expressing the PTHR and was inhibited by PTHR antagonists. Rapid, partial, homologous desensitization of the PTH-induced increase in ECAR was observed. Incubation of SaOS-2 cells with 8-bromo-cyclic AMP neither mimicked nor abrogated the PTH effect, and PTH stimulated an acute increase in ECAR in cAMP-resistant SaOS-2 Ca#4A cells. Stimulation of ECAR by PTH was independent of transient increases in cytosolic free calcium. Both inhibition and down-regulation of PKC reduced the PTH-induced increase in ECAR. Inhibition of Na ؉ /H ؉ exchange did not affect the PTH-induced ECAR response. We conclude that PTH caused a receptor-mediated, concentration-dependent, increase in ECAR, which was not dependent on the cAMP/PKA signaling pathway or the Na ؉ /H ؉ exchanger but involved the action of PKC. Thus, acid production in bone, a physiologically important action of PTH, is not confined to osteoclasts as previously considered but is also mediated by osteoblasts.The parathyroid hormone/parathyroid hormone-related protein receptor (PTHR) 1 is a member of the G protein-coupled, seven-transmembrane domain superfamily of receptors (1). The principal physiological action of PTH is on the regulation of Ca 2ϩ /P i homeostasis, which is mediated by the PTHR in kidney and bone. The biochemical and molecular mechanisms of the receptor-mediated actions of PTH are not completely understood. PTH stimulates osteoclast-mediated bone resorption indirectly via the activation of the PTHR on osteoblasts (2); however, the mechanism coupling these events is not known. Additionally, PTH has an anabolic effect on bone when administered intermittently (3). It has been proposed that the diverse actions of PTH may be a consequence of activation of both the cAMP/PKA and inositol lipid/Ca 2ϩ /PKC signaling pathways by the PTHR in osteoblasts (4). Receptor regulation is also important in the action of PTH on osteoblasts (4 -9). Homologous desensitization of PTH-stimulated increases in intracellular cAMP accumulation ([cAMP] i ) and in cytosolic free calcium concentration ([Ca 2ϩ ] i ) and down-regulation of the PTHR have been described in several target cell systems (4 -9).Previous investigations of the physiological actions of PTH have largely used animal and whole bone experimental systems (10 -14), while studies of PTHR signaling have co...

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The cytosensor microphysiometer: biological applications of silicon technology

Cited by 614 publications

References 9 publications

Mouse β_3a‐ and β_3b‐adrenoceptors expressed in Chinese hamster ovary cells display identical pharmacology but utilize distinct signalling pathways

Mouse β_3a‐ and β_3b‐adrenoceptors expressed in Chinese hamster ovary cells display identical pharmacology but utilize distinct signalling pathways

Antimalarial drugs disrupt ion homeostasis in malarial parasites

A New Action of Parathyroid Hormone

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The cytosensor microphysiometer: biological applications of silicon technology

Cited by 614 publications

References 9 publications

Mouse β3a‐ and β3b‐adrenoceptors expressed in Chinese hamster ovary cells display identical pharmacology but utilize distinct signalling pathways

Mouse β3a‐ and β3b‐adrenoceptors expressed in Chinese hamster ovary cells display identical pharmacology but utilize distinct signalling pathways

Antimalarial drugs disrupt ion homeostasis in malarial parasites

A New Action of Parathyroid Hormone

Contact Info

Product

Resources

About

Mouse β_3a‐ and β_3b‐adrenoceptors expressed in Chinese hamster ovary cells display identical pharmacology but utilize distinct signalling pathways

Mouse β_3a‐ and β_3b‐adrenoceptors expressed in Chinese hamster ovary cells display identical pharmacology but utilize distinct signalling pathways