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201.
Human macrophages contain a stretch-sensitive potassium channel that is activated by adherence and cytokines 总被引:6,自引:0,他引:6
D. K. Martin M. R. Bootcov T. J. Campbell P. W. French S. N. Breit 《The Journal of membrane biology》1995,147(3):305-315
A variety of stimuli, including cytokines and adhesion to surfaces and matrix proteins, can regulate macrophage function, in part through changes in Ca2+-dependent second messengers. While fluctuation in in-tracellular Ca2+ is an important modulator of cellular activation, little attention has been paid to the roles of other ions whose cytoplasmic concentrations can be rapidly regulated by ion channels. To examine the role of ion channels in macrophage function, we undertook patch clamp studies of human culture-derived macrophages grown under serum-free conditions. The major ionic current in these cells was carried by an outwardly rectifying K+ channel, which had a single-channel conductance of 229 pS in symmetrical K+-rich solution and macroscopic whole-cell conductance of 9.8 nS. These channels opened infrequently in resting cells but were activated immediately by (i) adhesion of mobile cells onto a substrate, (ii) stretch applied to isolated membrane patches in Ca2+-free buffers, (iii) intracellular Ca2+ (EC50 of 0.4 m), and (iv) the cytokine IL-2. Furthermore, barium and 4-aminopyridine, blockers of this channel, altered the organization and structure of the cytoskeletal proteins actin, tubulin and vimentin. These cytoskeletal changes were associated with reversible alteration to the morphology of the cells. Thus, we have identified an outwardly rectifying K+ channel that appeared to be involved in cytokine and adherence-mediated macrophage activation, and in the maintenance of cytoskeletal integrity and cell shape.We thank Ken Wyse and Sue Bennett for excellent technical assistance. This work was supported by the National Health & Medical Research Council of Australia, the National Heart Foundation of Australia, the Clive & Vera Ramaciotti Foundation of Australia, the St Vincent's Hospital Clinic Foundation and a St Vincent's Hospital Research Grant. 相似文献
202.
203.
R. C. Burghardt R. Barhoumi T. C. Sewall J. A. Bowen 《The Journal of membrane biology》1995,148(3):243-253
The rapid effects of cAMP on gap junction-mediated intercellular communication were examined in several cell types which express different levels of the gap junction protein, connexin43 (Cx43), including immortalized rat hepatocyte and granulosa cells, bovine coronary venular endothelial cells, primary rat myometrial and equine uterine epithelial cells. Functional analysis of changes in junctional communication induced by 8-bromo-cAMP was monitored by a fluorescence recovery after photobleaching assay in subconfluent cultures in the presence or absence of 1.0 mm 1-octanol (an agent which uncouples cells by closing gap junction channels). Communicating cells treated with 1.0 mm 8-bromo-cAMP alone exhibited significant increases in the percent of fluorescence recovery which were detected within 1–3 min depending on cell type, and junctional communication remained significantly elevated for up to 24 hr. Addition of 1.0 mm 8-bromo-cAMP to cultured cells, which were uncoupled with 1.0 mm octanol for 1 min, exhibited partial restoration of gap junctional permeability beginning within 3–5 min. Identical treatments were performed on cultures that were subsequently processed for indirect immunofluorescence to monitor Cx43 distribution. The changes in junctional permeability of cells correlated with changes in the distribution of immunoreactive Cx43. Cells treated for 2 hr with 10 m monensin exhibited a reduced communication rate which was accompanied by increased vesicular cytoplasmic Cx43 staining and reduced punctate surface staining of junctional plaques. Addition of 1.0 mm 8-bromo-cAMP to these cultures had no effect on the rate of communication or the distribution of Cx43 compared to cultures treated with monensin alone. These data suggest that an effect of cyclic AMP on Cx43 gap junctions is to promote increases in gap junctional permeability by increasing trafficking and/or assembly of Cx43 to plasma membrane gap junctional plaques.We acknowledge the technical assistance of Richard Lewis and Meghan Abella. We thank Dr. Hugh Dookwah for contributions to the myometrial cell isolation protocol and Drs. Stephen H. Safe, Timothy D. Phillips, and Evelyn Tiffany-Castiglioni for helpful discussions. This work was funded by NIH (HD-26182, P42-ES04917, ES05871-01A1), the March of Dimes Birth Defects Foundation Basic Research grant #1-0796, and USDA 92-37203-7952. 相似文献
204.
The permeation of K+ and Na+ through the pore of a K+ channel from the plasma membrane of rye roots was studied in planar 1-palmitoyl-2-oleoyl phosphatidylethanolamine bilayers. The pore contains at least two ion-binding sites which can be occupied simultaneously. This was indicated by: (i) biphasic relationships with increasing cation concentration of both channel conductance at the zero-current (reversal) potential of the channel (E
rev) and unitary-current at a specified voltage and (ii) a decline in E
rev in the presence of equimolar Na+ (cis):K+ (trans) as the cation concentration was increased. To determine the spatial characteristics and energy profiles for K+ and Na+ permeation, unitary-current/ voltage data for the channel were fitted to a three energy-barrier, two ion-binding site (3B2S) model. The model allowed for simultaneous occupancy of binding sites and ionic repulsion within the pore, as well as surface potential effects. Results suggested that energy peaks and energy wells (ion binding sites) were situated asymmetrically within the electrical distance of the pore, the trans energy-well being closer to the center of the pore than its cis counterpart; that the energy profile for K+ permeation differed significantly from that of Na+ in having a higher cis energy peak and a deeper cis energy well; that cations repelled each other within the pore and that vestibule surface charge was negligible. The model successfully simulated various aspects of K+ and Na+ permeation including: (i) the complexities in current rectification over a wide range of contrasting ionic conditions; (ii) the biphasic relationships with increasing cation concentration of both channel conductance at E
rev and unitary-current at a specified voltage; (iii) the decline in E
rev in equimolar Na+ (cis):K+ (trans) as cation concentrations were increased and (iv) the complex relationships between mole fraction and E
rev at total cation concentrations of 100 and 300 mm.We thank Prof. O. Alvarez (Universidad de Chile, Santiago, Chile) for supplying the computer program AJUSTE and Prof. D. Sanders (University of York, UK), Prof. D. Gradmann and Dr. G. Thiel (University of Göttingen, Germany) for stimulating ideas. This work was supported by the Agricultural and Food Research Council. 相似文献
205.
Gap junctions, collections of membrane channels responsible for intercellular communication, contain two paired hemichannels (also called connexons). We have investigated conditions for splitting the membrane pair using urea. We have developed a protocol which consistently splits the gap junction samples with 60–90% efficiency. Our results indicate that hydrophobic forces are important in holding the two connexons together but that Ca2+ ions are also important in the assembly of the membrane pair. Greater yields and better structural integrity of split junctions were obtained with a starting preparation of gap junctions which had been detergent treated. Image analysis of edge views of single connexon layers reveal an asymmetry in the appearance of the cytoplasmic and extracellular surface. Cryo-electron microscopy and image analysis of split junctions show that the packing and structural detail of membranes containing arrays of single connexons are the same as for intact junctions, and that the urea treatment causes no gross structural changes in the connexon assembly.The antibodies used to analyze the protein composition in our samples were the generous gift of Dr. David Paul. We thank Dr. Camillo Peracchia for sending us a preprint of his chapter on molecular mechanisms of connexon gating and docking which helped guide our thinking about interconnexon forces and John Badger for information on divalent cation sites in protein structure. We thank Amani Thomas-Yusuf for technical assistance. The photographic expertise of Marie Craig is gratefully acknowledged. This work was funded by National Institutes of Health GM43217 to G.E.S. and GM18974 to D.A.G. 相似文献
206.
James R. Bunzow Ge Zhang Claudia Bouvier Carmen Saez Oline K. Ronnekleiv Martin J. Kelly David K. Grandy 《Journal of neurochemistry》1995,64(1):14-24
Abstract: We have cloned and expressed a rat brain cDNA, TS11, that encodes a μ-opioid receptor based on pharmacological, physiological, and anatomical criteria. Membranes were prepared from COS-7 cells transiently expressing TS11 bound [3H]diprenorphine with high affinity (KD = 0.23 ± 0.04 nM). The rank order potency of drugs competing with [3H]diprenorphine was as follows: levorphanol (Ki = 0.6 ± 0.2 nM) ≈β-endorphin (Ki = 0.7 ± 0.5 nM) ≈ morphine (Ki = 0.8 ± 0.5 nM) ≈ [d -Ala2, N-Me-Phe4,Gly-ol5]-enkephalin (DAMGO; Ki = 1.6 ± 0.5 nM) ? U50,488 (Ki = 910 ± 0.78 nM) > [d -Pen2,5]-enkephalin (Ki = 3,170 ± 98 nM) > dextrorphan (Ki = 4,100 ± 68 nM). The rank order potencies of these ligands, the stereospecificity of levorphanol, and morphine's subnanomolar Ki are consistent with a μ-opioid binding site. Two additional experiments provided evidence that this opioid-binding site is functionally coupled to G proteins: (a) In COS-7 cells 50 µM 5′-guanylylimidodiphosphate shifted a fraction of receptors with high affinity for DAMGO (IC50 = 3.4 ± 0.5 nM) to a lower-affinity state (IC50 = 89.0 ± 19.0 nM), and (b) exposure of Chinese hamster ovary cells stably expressing the cloned μ-opioid receptor to DAMGO resulted in a dose-dependent, naloxone-sensitive inhibition of forskolin-stimulated cyclic AMP production. The distribution of mRNA corresponding to the μ-opioid receptor encoded by TS11 was determined by in situ hybridization to brain sections prepared from adult female rats. The highest levels of μ-receptor mRNA were detected in the thalamus, medial habenula, and the caudate putamen; however, significant hybridization was also observed in many other brain regions, including the hypothalamus. 相似文献
207.
Abstract: Treatment of rat cerebellar astrocyte-enriched primary cultures with dexamethasone enhances the nitric oxide-dependent cyclic GMP formation induced by noradrenaline in a time-(>6 h) and concentration-dependent manner (half-maximal effect at 1 n M ). Stimulation of cyclic GMP formation by the calcium ionophore A23187 is similarly enhanced. In contrast, cyclic GMP accumulation in cells treated with lipopolysaccharide is inhibited by dexamethasone. The potentiating effect of dexamethasone is prevented by the protein synthesis inhibitor cycloheximide and is not due to increased soluble guanylate cyclase activity. Agonist stimulation of [3 H]arginine to [3 H]citrulline conversion is enhanced by dexamethasone in astrocytes but not in cerebellar granule cells. These results indicate that glucocorticoids may up-regulate astroglial calcium-dependent nitric oxide synthase while preventing expression of inducible nitric oxide synthase and are the first report of a differential long-term regulation of the expression of neuronal and astroglial constitutive nitric oxide synthase activities. 相似文献
208.
Modulation of Intracellular Cyclic AMP Levels by Different Human Dopamine D4 Receptor Variants 总被引:15,自引:0,他引:15
Vida Asghari Suparna Sanyal Saskia Buchwaldt rew Paterson Vera Jovanovic Hubert H. M. Van Tol 《Journal of neurochemistry》1995,65(3):1157-1165
Abstract: To investigate whether polymorphic forms of the human dopamine D4 receptor have different functional characteristics, we have stably expressed cDNAs of the D4.2, D4.4, and D4.7 isoforms in several cell lines. Chinese hamster ovary CHO-K1 cell lines expressing D4 receptor variants displayed pharmacological profiles that were in close agreement with previous data from transiently expressed D4 receptors in COS-7 cells. Dopamine stimulation of the D4 receptors resulted in a concentration-dependent inhibition of the forskolin-stimulated cyclic AMP (cAMP) levels. The potency of dopamine to inhibit cAMP formation was about twofold reduced for D4.7 (EC50 of ∼37 n M ) compared with the D4.2 and D4.4 variants (EC50 of ∼16 n M ). Antagonists block the dopamine-mediated inhibition of cAMP formation with a rank order of potency of emonapride > haloperidol = clozapine ≫ raclopride. There was no obvious correlation between the efficacy of inhibition of forskolin-stimulated cAMP levels and the D4 subtypes. Dopamine could completely reverse prostaglandin E2 -stimulated cAMP levels for all three D4 receptor variants. Deletion of the repeat sequence does not affect functional activity of the receptor. The data presented indicate that the polymorphic repeat sequence causes only small changes in the ability of the D4 receptor to block cAMP production in CHO cells. 相似文献
209.
Kazuhiko Yoshida Junko Imaki Hidehiko Matsuda † Masatoshi Hagiwara 《Journal of neurochemistry》1995,65(4):1499-1504
Abstract: The signal pathway for light-induced expression of c- fos and the neuropeptide somatostatin (SS) in rat retinal cells was investigated. Flashing light induced c- fos and SS mRNA in the inner nuclear layer and the ganglion cell layer. As both c- fos and SS genes have a cyclic AMP response element (CRE) in their promoters, CRE-binding protein (CREB) phosphorylation in retinal cells was examined with a phospho-CREB-specific antibody. Both flashing light and administration of the L-type Ca2+ channel activator Bay K 8644 induced phosphorylation of CREB in the nuclei of the amacrine cells and the ganglion cells where c- fos /SS mRNAs were expressed. These cells could be double-stained with anti-calmodulin kinase II (anti-CaM kinase II) monoclonal antibody and phospho-CREB-specific polyclonal antiserum after Bay K 8644 administration, indicating the colocalization of phosphorylated CREB at Ser133 and CaM kinase II in the neural retina. 相似文献
210.
Lesley D. Morrison Laurence Becker †Lee C. Ang Stephen J. Kish 《Journal of neurochemistry》1995,65(2):636-642
Abstract: Depolarization of adult rat forebrain slices with veratrine induced the release of excitatory amino acids (glutamate and aspartate), the synthesis of nitric oxide (NO), and increases in cyclic GMP (cGMP). The NO synthase inhibitors N ω -monomethyl- l -arginine and N ω -nitro- l -arginine methyl ester decreased the release of NO and the levels of cGMP without affecting the release of excitatory amino acids. In contrast, the antiepileptic drug lamotrigine inhibited the release of excitatory amino acids and of NO, and decreased the levels of cGMP without causing a significant direct inhibition of the NO synthase. Furthermore, the synthesis of NO and the increases in cGMP induced by veratrine were partially blocked by the N -methyl- d -aspartate (NMDA) receptor antagonist MK-801 but not by 6-nitro-7-sulphamobenzo( f )quinoxaline-2,3-dione, a non-NMDA receptor antagonist. Neither of these compounds inhibited directly the NO synthase or the release of excitatory amino acids. Thus, these three types of compound act as an inhibitor of voltage-sensitive sodium channels (lamotrigine), as a receptor antagonist (MK-801), or as direct inhibitors of the NO synthase, to block the pathway leading to increased cGMP after veratrine depolarization. It is likely that some of the pharmacological and therapeutic actions shared by these three types of compound are, at least in part, a consequence of inhibition of the synthesis of NO. 相似文献