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Transient Elevation (transient + elevation)
Selected AbstractsNeurone-to-astrocyte communication by endogenous ATP in mixed culture of rat hippocampal neurones and astrocytesDRUG DEVELOPMENT RESEARCH, Issue 1 2003Schuichi Koizumi ATP is recognized as an important intercellular signaling molecule in the peripheral and CNS. Glutamate is reported to be an important neurone-to-glia mediator being released from neurones and astrocytes that activates astrocytic and neuronal Ca2+ responses, respectively. We demonstrate here that endogenous ATP could be an extracellular molecule for neurone-to-astrocyte communication in cocultured rat hippocampal neurones and astrocytes. Hippocampal neurones reveal synchronized Ca2+ oscillation, which was due to glutamatergic synaptic transmission. When analyzed in a fura-2 method, a slight and very slow increase in intracellular Ca2+ concentration ([Ca2+]i) elevation was observed in some population of astrocytes. Such astrocytic [Ca2+]i elevation was dramatically inhibited by apyrase, though apyrase itself had no effect on neuronal Ca2+ oscillation. For a detail analysis, we investigated changes in [Ca2+]i in cells using a confocal microscopy. When cocultured hippocampal neurones and astrocytes were depolarized electronically in the presence of glutamate-receptor antagonists, a transient elevation in [Ca2+]i was observed in neurones, which was followed by a slowly initiated and small rise in [Ca2+]i in astrocytes. Apyrase or P2 receptor antagonists almost abolished the [Ca2+]i rises in astrocytes, suggesting that depolarization-evoked ATP release from neurones should produce astrocytic [Ca2+]i elevation via P2 receptors. Using a luciferin,luciferase bioluminescence assay, we found that neurones could release ATP in an activity-dependent manner. These findings suggest that endogenous ATP should be an important intercellular mediator between neurones and astrocytes and that functions of these cells should be fine-tuned by endogenously released ATP in situ. Drug Dev. Res. 59:88,94, 2003. © 2003 Wiley-Liss, Inc. [source] Synaptic and non-synaptic mechanisms of amygdala recruitment into temporolimbic epileptiform activitiesEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 10 2003Julia Klueva Abstract Lateral amygdala (LA) activity during synchronized-epileptiform discharges in temporolimbic circuits was investigated in rat horizontal slices containing the amygdala, hippocampus (Hip), perirhinal (Prh) and lateral entorhinal (LEnt) cortex, through multiple-site extra- and intracellular recording techniques and measurement of the extracellular K+ concentration. Application of 4-aminopyridine (50 µm) induced epileptiform discharges in all regions under study. Slow interictal-like burst discharges persisted in the Prh/LEnt/LA after disconnection of the Hip, seemed to originate in the Prh as shown from time delay analyses, and often preceded the onset of ictal-like activity. Disconnection of the amygdala resulted in de-synchronization of epileptiform discharges in the LA from those in the Prh/LEnt. Interictal-like activity was intracellularly reflected in LA projection neurons as ,-aminobutyric acid (GABA)A/B receptor-mediated synaptic responses, and depolarizing electrogenic events (spikelets) residing on the initial phase of the GABA response. Spikelets were considered antidromically conducted ectopic action potentials generated at axon terminals, as they were graded in amplitude, were not abolished through hyperpolarizing membrane responses (which effectively blocked evoked orthodromic action potentials), lacked a clear prepotential or synaptic potential, were not affected through blockers of gap junctions, and were blocked through remote application of tetrodotoxin at putative target areas of LA projection neurons. Remote application of a GABAB receptor antagonist facilitated spikelet generation. A transient elevation in the extracellular K+ level averaging 3 mm above baseline occurred in conjunction with interictal-like activity in all areas under study. We conclude that interictal-like discharges in the LA/LEnt/Prh spread in a predictable manner through the synaptic network with the Prh playing a leading role. The rise in extracellular K+ may provide a depolarizing mechanism for recruitment of interneurons and generation of ectopic action potentials at axon terminals of LA projection neurons. Antidromically conducted ectopic action potentials may provide a spreading mechanism of seizure activity mediated by diffuse axonal projections of LA neurons. [source] Multiple P2 Receptors Contribute to a Transient Increase in Intracellular Ca2+ Concentration in Atp-Stimulated Rat Brown AdipocytesEXPERIMENTAL PHYSIOLOGY, Issue 6 2002Mariko Omatsu-Kanbe Extracellular ATP in micromolar concentrations evokes a transient elevation in intracellular free Ca2+ concentration ([Ca2+]i), which arises primarily from a release of Ca2+ from intracellular stores in rat brown adipocytes. We investigated the mechanisms underlying this transient nature of [Ca2+]i elevation during exposure to ATP by using fura-2 fluorescence measurements together with the P2 receptor antagonists pyridoxal-phosphate-6-azophenyl-2,,4,-disulfonic acid (PPADS) and suramin. Extracellular ATP (10 ,M) almost completely depressed the thapsigargin (100 nM)-evoked [Ca2+]i elevation mediated through store-operated Ca2+ entry. The inhibitory effect of ATP was antagonized by PPADS with IC50 of 0.7 ,M. In the presence of PPADS at concentrations of more than 5 ,M, the ATP-induced [Ca2+]i elevation became sustained during the entire duration of the agonist application, although the magnitude of the sustained [Ca2+]i elevation was reduced in a concentration-dependent manner by PPADS with an IC50 of 200 ,M. In contrast, the ATP-induced [Ca2+]i elevation was blocked by suramin in a concentration range similar to that required to antagonize the inhibitory effect of ATP on the store-operated pathway. These results suggest that the [Ca2+]i responses to extracellular ATP in rat brown adipocytes are mediated through the activation of at least two distinct P2 receptors exhibiting different sensitivities to PPADS but similar sensitivities to suramin. Extracellular ATP stimulates the PPADS-resistant P2 receptor to mobilize intracellular Ca2+ stores, which is probably followed by the activation of store-operated Ca2+ entry. Extracellular ATP, however, would inhibit this Ca2+ entry process through the stimulation of the PPADS-sensitive P2-receptor, which may underlie the transient nature of [Ca2+]i elevation in response to extracellular ATP. [source] Exercise-induced cholangitis and pancreatitisHPB, Issue 2 2005JOHN G. TOUZIOS Abstract Background. Cholangitis requires bactibilia and increased biliary pressure. Pancreatitis may be initiated by elevated intraductal pressure. The sphincter of Oddi regulates pancreatobiliary pressures and prevents reflux of duodenal contents. However, following biliary bypass or pancreatoduodenectomy, increased intra-abdominal pressure may be transmitted into the bile ducts and/or pancreas. The aim of this analysis is to document that cholangitis or pancreatitis may be exercise-induced. Methods. The records of patients with one or more episodes of cholangitis or pancreatitis precipitated by exercise and documented to have patent hepatico- or pancreatojejunostomies were reviewed. Cholangitis was defined as fever with or without abdominal pain and transiently abnormal liver tests. Pancreatitis was defined as abdominal pain, with transient elevation of serum amylase and documented by peripancreatic inflammation on computerized tomography. Results. Twelve episodes of cholangitis occurred in six patients who had undergone hepaticojejunostomy for biliary stricture (N=3), Type I choledochal cyst (N=2), or pancreatoduodenectomy for renal cell carcinoma metastatic to the pancreas (N=1). Four episodes of pancreatitis occurred in two patients who had undergone pancreatoduodenectomy for ampullary carcinoma or chronic pancreatitis. Workup and subsequent follow-up for a median of 21 months have not documented anastomotic stricture. Each episode of cholangitis and pancreatitis was brought on by heavy exercise and avoidance of this level of exercise has prevented future episodes. Conclusion. Following biliary bypass or pancreatoduodenectomy, significant exercise may increase intra-abdominal pressure and cause cholangitis or pancreatitis. Awareness of this entity and behavior modification will avoid unnecessary procedures in these patients. [source] 2-Arachidonoylglycerol, an endogenous cannabinoid receptor ligand in the nervous tissueJOURNAL OF NEUROCHEMISTRY, Issue 2003K. Waku 2-Arachidonoylglycerol (2-AG) is a unique molecular species of monoacylglycerol identified as an endogenous cannabinoid receptor ligand by us and Mechoulam and co-workers (1). We found that 2-AG possesses binding activity toward the cannabinoid receptor in rat brain. We also found that 2-AG induces transient elevation of the intracellular Ca2+ concentration in NG108-15 cells. The response induced by 2-AG was blocked by pretreatment of cells with a cannabinoid CB1 receptor-specific antagonist SR141716A, indicating that CB1 receptor is involved in the response. Based on the results of structure,activity relationship experiments, we concluded that the cannabinoid CB1 receptor in the nervous system is originally and primary a 2-AG receptor. 2-AG was produced and released from nervous tissues following various types of stimulation through enhanced breakdown of arachidonic acid-containing phospholipids such as inositol phospholipids. Physiological and pathophysiological roles of 2-AG in the nervous system will be discussed. [source] Elevation of cyclin D1 following trimethyltin induced hippocampal neurodegenerationJOURNAL OF NEUROCHEMISTRY, Issue 2002R. N. Wine Previous work has suggested that a major contributor to neuronal cell death is the aberrant induction of the cell cycle process, as indicated by an up-regulation of cyclin D. In order to examine the temporal and spatial relationship of cyclin D in a model of acute neurodegeneration, the hippocampal toxicant, trimethyltin (TMT; 2.0 mg/kg), was administered to 21-day old CD,1 male mice and the level and cellular localization of cyclin D1 examined. Within 24 h following TMT, dentate granule cells of the hippocampus showed evidence of neuronal necrosis resulting in severe cell loss over a 3-day period. The pyramidal cell layer was spared with only sparse punctate neuronal necrosis. Microglia response was seen at 72 h with ameboid microglia present in the dentate and ramified microglia present in the pyramidal cell layer, contributing to the elevation seen in TNF-alpha mRNA levels. A transient elevation was seen in mRNA levels for cyclin D1 over 48,72 h post-TMT. Immunohistochemistry demonstrated a transient increase in staining for cyclin D1 in CA1 pyramidal neurons as early as 24 h. Punctate staining occurred in neurons throughout the dentate at 48 h. BrdU positive cells were present along the inner blades of the dentate in control animals. Following TMT exposure, an increase was seen in both the number of neurons stained and a diffusion of the staining pattern into the full dentate region. Thus, in TMT-induced neurodegeneration, cyclin D1 is not expressed in the vulnerable neurons but rather in neurons spared from degeneration. This expression pattern appears to not be linked to an increase in the cellular processes for proliferation as the majority of BrdU positive cells were present in the region of neuronal damage. [source] Cyclic ADP-ribose as a potential second messenger for neuronal Ca2+ signalingJOURNAL OF NEUROCHEMISTRY, Issue 2 2001Haruhiro Higashida Cyclic ADP-ribose (cADPR), a known endogenous modulator of ryanodine receptor Ca2+ releasing channels, is found in the nervous system. Injection of cADPR into neuronal cells primarily induces a transient elevation of intracellular Ca2+ concentration ([Ca2+]i), and/or secondarily potentiates [Ca2+]i increases that are the result of depolarization-induced Ca2+ influx. Acetylcholine release from cholinergic neurons is facilitated by cADPR. cADPR modifies K+ currents or elicits Ca2+ -dependent inward currents. cADPR is synthesized by both membrane-bound and cytosolic forms of ADP-ribosyl cyclase in neuronal cells. cADPR hydrolase activity is weak in the membrane fraction, but high in the cytoplasm. Cytosolic ADP-ribosyl cyclase activity is upregulated by nitric oxide/cyclic GMP-dependent phosphorylation. Stimulation of muscarinic and ,-adrenergic receptors activates membrane-bound ADP-ribosyl cyclase via G proteins within membranes of neuronal tumor cells and cortical astrocytes. These findings strongly suggest that cADPR is a second messenger in Ca2+ signaling in the nervous system, although many intriguing issues remain to be addressed before this identity is confirmed. [source] von Willebrand factor stimulates thrombin-induced exposure of procoagulant phospholipids on the surface of fibrin-adherent plateletsJOURNAL OF THROMBOSIS AND HAEMOSTASIS, Issue 3 2003J. J. Briedé Summary., Studies from our laboratory have demonstrated that von Willebrand factor (VWF) stimulates thrombin generation in platelet-rich plasma. The precise role of VWF and fibrin in this reaction, however, remained to be clarified. In the present study we utilized thrombin-free planar fibrin layers and washed platelets to examine the relationship between platelet,fibrin interaction and exposure of coagulation-stimulating phosphatidylserine (PS) under conditions of low and high shear stress. Our study confirms that platelet adhesion to fibrin at a shear rate of 1000 s,1 requires fibrin-bound VWF. The cytosolic calcium concentration ([Ca2+]i) of stationary platelets was not elevated and PS exposing platelets were virtually absent (2 ± 2%). However, thrombin activation resulted in a marked increase in the number of PS exposing platelets (up to 85 ± 14%) along with a transient elevation in [Ca2+]i from 0.05 µmol L,1 up to 1.1 ± 0.2 µmol L,1. Platelet adhesion to fibrin at a shear rate of 50 s,1 is mediated by thrombin but not by fibrin-bound VWF. The [Ca2+]i of these thrombin-activated platelets was elevated (0.2 ± 0.1 µmol L,1), but only a minority of the platelets (11 ± 8%) exposed PS. The essential role of VWF in this thrombin-induced procoagulant response became apparent from low shear rate perfusion studies over fibrin that was incubated with VWF and botrocetin. After treatment with thrombin, the majority of the adherent platelets (57 ± 23%) exposed PS and had peak values of [Ca2+]i of about 0.6 µmol L,1. Taken together, these results demonstrate that thrombin-induced exposure of PS and high calcium response on fibrin-adherent platelets depends on shear- or botrocetin-induced VWF,platelet interaction. [source] Differential action of bradykinin on intrarenal regional perfusion in the rat: waning effect in the cortex and major impact in the medullaTHE JOURNAL OF PHYSIOLOGY, Issue 15 2009ena B The renal kallikrein,kinin system is involved in the control of the intrarenal circulation and arterial pressure but bradykinin (Bk) effects on perfusion of individual kidney zones have not been examined in detail. Effects of Bk infused into renal artery, renal cortex or medulla on perfusion of whole kidney (RBF, renal artery probe) and of the cortex, outer- and inner medulla (CBF, OMBF, IMBF: laser-Doppler fluxes), were examined in anaesthetized rats. Renal artery infusion of Bk, 0.3,0.6 mg kg,1 h,1, induced no sustained increase in RBF or CBF. OMBF and IMBF increased initially 6 or 16%, respectively; only the IMBF increase (+10%) was sustained. Pre-treatment with l -NAME, 2.4 mg kg,1i.v., prevented the sustained but not initial transient elevation of medullary perfusion. Intracortical Bk infusion, 0.75,1.5 mg kg,1 h,1, did not alter RBF or CBF but caused a sustained 33% increase in IMBF. Intramedullary Bk, 0.3 mg kg,1 h,1, did not alter RBF or CBF but caused sustained increases in OMBF (+10%) and IMBF (+23%). These responses were not altered by pre-treatment with 1-aminobenzotriazole, 10 mg kg,1i.v., a cytochrome P-450 (CYP450) inhibitor, but were prevented or significantly attenuated by l -NAME or intramedullary clotrimazole, 3.9 mg kg,1 h,1, an inhibitor of CYP450 epoxygenase and of calcium-dependent K+ channels (KCa). Thus, cortical vasodilatation induced by Bk is only transient so that the agent is unlikely to control perfusion of the cortex. Bk selectively increases perfusion of the medulla, especially of its inner layer, via activation of the NO system and of KCa channels. [source] Bimodal role of conventional protein kinase C in insulin secretion from rat pancreatic , cellsTHE JOURNAL OF PHYSIOLOGY, Issue 1 2004Hui Zhang The present study was conducted to evaluate the role of conventional protein kinase C (PKC) in calcium-evoked insulin secretion. In rat , cells transfected with green fluorescent protein-tagged PKC-, (PKC-,,EGFP), a depolarizing concentration of potassium induced transient elevation of cytoplasmic free calcium ([Ca2+]c), which was accompanied by transient translocation of PKC-,,EGFP from the cytosol to the plasma membrane. Potassium also induced transient translocation of PKC-,,EGFP, the C1 domain of PKC-, and PKC-,,GFP. A high concentration of glucose induced repetitive elevation of [Ca2+]c and repetitive translocation of PKC-,,EGFP. Diazoxide completely blocked both elevation of [Ca2+]c and translocation of PKC-,,EGFP. We then studied the role of conventional PKC in calcium-evoked insulin secretion using rat islets. When islets were incubated for 10 min with high potassium, Gö-6976, an inhibitor of conventional PKC, and PKC-, pseudosubstrate fused to antennapedia peptide (Antp-PKC19,31) increased potassium induced secretion. Similarly, insulin release induced by high glucose for 10 min was enhanced by Gö-6976 and Antp-PKC19,31. However, when islets were stimulated for 60 min with high glucose, both Gö-6976 and Antp-PKC19,31 reduced glucose-induced insulin secretion. Similar results were obtained by transfection of dominant-negative PKC-, using adenovirus vector. Taken together, PKC-, is activated when cells are depolarized by a high concentration of potassium or glucose. Conventional PKC is inhibitory on depolarization-induced insulin secretion per se, but it also augments glucose-induced secretion. [source] Relation Between Echinocytosis and Erythrocyte Calcium Content in Hemodialyzed Uremic PatientsARTIFICIAL ORGANS, Issue 6 2001B. Agroyannis Abstract: A rise in intracellular calcium concentration in erythrocytes has multiple effects on these cells. The purpose of this study was to determine the changes of calcium content in red blood cells (RBCs) and of echinocyte percentages in uremic patients during hemodialysis sessions. In 30 uremic patients under hemodialysis, the calcium content of RBCs and echinocyte percentages were determined in 3 blood samples collected at 0 min hemodialysis (prehemodialysis), 45 min hemodialysis, and 240 min hemodialysis (end hemodialysis) for a 4 h hemodialysis session. Calcium content of RBCs and echinocytes were also determined in 22 normal subjects (controls). The findings of the present study were that the mean values (±SD) of calcium content of RBCs in patients at 0 min hemodialysis, 45 min hemodialysis, and 240 min hemodialysis were 2.00 ± 1.0, 2.66 ± 0.87, and 1.62 ± 0.66 ,g/ml respectively and 0.65 ± 0.07 ,g/ml in controls. These values show that the calcium content of RBCs in uremic patients at 0 min hemodialysis, 45 min hemodialysis, and 240 hemodialysis was significantly higher than in controls (p < 0.0001), and that RBC calcium content at 45 min hemodialysis was significantly higher in comparison to that at 0 min hemodialysis (p < 0.001) and to that at 240 min hemodialysis (p < 0.0001), while that at 240 min hemodialysis was significantly lower than at 0 min hemodialysis (p < 0.05). The mean values (±SD) of echinocyte percentages in patients at 0 min hemodialysis, 45 min hemodialysis, and 240 hemodialysis were 11.93 ± 6.18, 17.23 ± 4.1, and 7.96 ± 5.67% respectively, and in controls ranged from 0 to 1%. The values in uremic patients show a transient increase of echinocyte percentages at 45 min hemodialysis, which is significant in comparison to that at 0 min hemodialysis (p < 0.001) and to that at 240 min hemodialysis (p < 0.0001). Echinocyte percentages at 240 min hemodialysis were significantly lower to those at 0 min hemodialysis (p < 0.001). Correlation between calcium content of erythrocytes and echinocyte percentages shows a significantly positive relationship at 45 min hemodialysis (r = 0.368, p < 0.05) but no significant relationship at 0 min hemodialysis and 240 min hemodialysis. In conclusion, uremic patients under hemodialysis present with high calcium content in erythrocytes and abnormal erythrocytes like echinocytes. A rapid and transient increase of erythrocyte calcium is also accompanied by transient elevation of echinocytes in the first hour of hemodialysis (45 min hemodialysis), which returns after hemodialysis to lower than prehemodialysis levels. [source] Intracellular Calcium Increase in Epileptiform Activity: Modulation by Levetiracetam and LamotrigineEPILEPSIA, Issue 7 2004Antonio Pisani Summary:,Purpose: Alterations in neuronal calcium (Ca2+) homeostasis are believed to play an essential role in the generation and propagation of epileptiform events. Levetiracetam (LEV) and lamotrigine (LTG), novel antiepileptic drugs (AEDs), were tested on epileptiform events and the corresponding elevations in intracellular Ca2+ concentration ([Ca2+]i) recorded from rat neocortical slices. Methods: Electrophysiological recordings were performed from single pyramidal neurons from a slice preparation. Spontaneous epileptiform events consisting of long-lasting, repetitive paroxysmal depolarization shifts (PDSs) and interictal spike activity were induced by reducing the magnesium concentration from the solution and by adding bicuculline and 4-aminopyridine. Simultaneously, microfluorimetric measurements of [Ca2+]i were performed. Optical imaging with Ca2+ indicators revealed a close correlation between Ca2+ transients and epileptiform events. Results: Both LEV and LTG were able to reduce both amplitude and duration of PDSs, as well as the concomitant elevation in [Ca2+]i, in a dose-dependent fashion. Whole-cell patch-clamp recordings from isolated neocortical neurons revealed that LEV significantly reduced N-, and partially P/Q-type high-voltage-activated (HVA) Ca2+ currents, whereas sodium currents were unaffected. Interestingly, the inhibitory effects of LEV were mimicked and occluded by LTG or by a combination of ,-conotoxin GVIA and ,-agatoxin IVA, selective blockers of N- and P/Q-type HVA channels, respectively, suggesting a common site of action for these AEDs. Conclusions: These results demonstrate that large, transient elevations in neuronal [Ca2+]i correlate to epileptiform discharges. The antagonistic effects of LEV and LTG on [Ca2+]i overload might represent the basis for their anticonvulsant efficacy and could preserve neuronal viability. [source] Pharmacodynamic interactions between recombinant mouse interleukin-10 and prednisolone using a mouse endotoxemia modelJOURNAL OF PHARMACEUTICAL SCIENCES, Issue 3 2005Abhijit Chakraborty Abstract The pharmacodynamic interactions between recombinant mouse interleukin-10 (IL-10) and prednisolone were examined in lipopolysaccharide (LPS)-induced experimental endotoxemia in Balb/c mice. Treatment phases consists of single doses of IL-10 (10 ,g/kg i.p.), prednisolone (25 (mg/kg i.p.), IL-10 (2.5 ,g/kg i.p.) with prednisolone (6.25 mg/kg i.p.), or placebo (saline). Measurements included plasma steroid kinetics and IL-10 concentrations and responses to LPS including proinflammatory cytokines (TNF-,, IFN-,) and circulatory NO measured as plasma nitrate/nitrite concentrations. The intraperitoneal dosing of LPS produced large and transient elevations of plasma TNF-,, IFN-,, and NO concentrations. Noncompartmental and model fitting using extended indirect response models based on drug inhibition of multiphase stimulation of biomarkers by LPS were used to describe the in vivo pharmacodynamics and drug interactions. Dosing with prednisolone, IL-10, or their combinations produced strong inhibition of cytokine and NO production. The IC50 values of prednisolone ranged from 54 to 171 ng/mL, and IC50 values for IL-10 ranged from 0.06 to 0.69 ng/mL. The production of NO was described as a cascading consequence of the TNF-, and IFN-, plasma concentrations. The joint dosing of IL-10 with prednisolone produces moderately synergistic immunosuppressive effects in this system. Both drugs were sufficiently protective in suppressing the inflammatory mediators when administered prior to the LPS trigger, while such effects were modest when administered after the inflammatory stimulus was provoked. The integrated and complex pharmacokinetic/pharmacodynamic models well capture the in vivo processes, drug potencies, and interactions of IL-10 and prednisolone. © 2005 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 94:590,603, 2005 [source] |