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Receptor Population (receptor + population)
Selected AbstractsThe impact of diazepam's discovery on the treatment and understanding of status epilepticusEPILEPSIA, Issue 9 2009Howard P. Goodkin Summary The fortuitous discovery of the benzodiazepines and the subsequent application of these agents to the treatment of status epilepticus (SE) heralds in the modern age of treating this neurologic emergency. More than 50 years after their discovery, the benzodiazepines remain the drugs of first choice in the treatment of SE. However, the benzodiazepines can be ineffective, especially in those patients whose seizures are the most prolonged. The benzodiazepines act by increasing the affinity of ,-aminobutyric acid (GABA) for GABAA receptors. A receptor's subunit composition affects its functional and pharmacologic properties, trafficking, and cellular localization. The GABAA receptors that mediate synaptic inhibition typically contain a ,2 subunit and are diazepam-sensitive. Among the GABAA receptors that mediate tonic inhibition are the benzodiazepine-insensitive , subunit,containing receptors. The initial studies investigating the pathogenesis of SE demonstrated that a reduction in GABA-mediated inhibition within the hippocampus was important in maintenance of SE, and this reduction correlated with a rapid modification in the postsynaptic GABAA receptor population expressed on the surface of the hippocampal principal neurons. Subsequent studies found that this rapid modification is, in part, mediated by an activity-dependent, subunit-specific trafficking of the receptors that resulted in the reduction in the surface expression of the benzodiazepine-sensitive ,2 subunit,containing receptors and the preserved surface expression of the benzodiazepine-insensitive , subunit-containing receptors. This improved understanding of the changes in the trafficking of GABAA receptors during SE partially accounts for the development of benzodiazepine-pharmacoresistance and has implications for the current and future treatment of benzodiazepine-refractory SE. [source] Hippocampal mossy fiber sprouting and elevated trkB receptor expression following systemic administration of low dose domoic acid during neonatal developmentHIPPOCAMPUS, Issue 11 2007Paul B. Bernard Abstract We have previously reported that serial systemic injections of low-dose (subconvulsive) domoic acid (DOM) during early postnatal development produces changes in both behavior and hippocampal cytoarchitecture in aged rats (17 months) that are similar to those seen in existing animal models of temporal lobe epilepsy. Herein we report further hippocampal changes, consisting of mossy fiber sprouting and associated changes in the trkB receptor population in young adult (3 months) rats, and further, report that these changes show regional variation throughout the septo-temporal axis of the hippocampus. Groups of Sprague Dawley rat pups were injected daily from postnatal day 8,14 with either saline (n = 23) or 20 ,g/kg DOM (n = 25), tested for key indicators of neonatal neurobehavioral development, and then left undisturbed until ,90 days of age, at which time brain tissue was removed, hippocampi were dissected, fixed and processed using either Timm's stain to visualize hippocampal mossy fiber sprouting (MFS) or trkB immunohistochemistry to visualize full length trkB receptors. Multiple sections from dorsal, mid, and ventral hippocampus were analyzed separately and all measures were conducted using image analysis software. The results indicate significant increases in MFS in the inner molecular layer in treated animals with corresponding changes in trkB receptor density. Further we identified significant increases in trkB receptor density in the hilus of the dentate gyrus and area CA3 and report increased mossy fiber terminal density in the stratum lucidum in treated rats. The magnitude of these changes differed between sections from dorsal, mid, and ventral hippocampus. We conclude that low dose neonatal DOM produces cytoarchitectural changes indicative of abnormal development and/or synaptic plasticity that are progressive with age and show regional variation within the hippocampal formation. © 2007 Wiley-Liss, Inc. [source] Nicotinic ,5 subunit deletion locally reduces high-affinity agonist activation without altering nicotinic receptor numbersJOURNAL OF NEUROCHEMISTRY, Issue 1 2007Robert W. B. Brown Abstract Neuronal nicotinic acetylcholine receptor subunit ,5 mRNA is widely expressed in the CNS. An ,5 gene polymorphism has been implicated in behavioral differences between mouse strains, and ,5-null mutation induces profound changes in mouse acute responses to nicotine. In this study, we have examined the distribution and prevalence of ,5* nicotinic acetylcholine receptor in mouse brain, and quantified the effects of ,5-null mutation on pre-synaptic nicotinic acetylcholine receptor function (measured using synaptosomal 86Rb+ efflux) and overall [125I]epibatidine binding site expression. ,5* nicotinic acetylcholine receptor expression was found in nine of fifteen regions examined, although < 20% of the total nicotinic acetylcholine receptor population in any region contained ,5. Deletion of the ,5 subunit gene resulted in localized loss of function (thalamus, striatum), which was itself confined to the DH,E-sensitive receptor population. No changes in receptor expression were seen. Consequently, functional changes must occur as a result of altered function per unit of receptor. The selective depletion of high agonist activation affinity sites results in overall nicotinic function being reduced, and increases the overall agonist activation affinity. Together, these results describe the receptor-level changes underlying altered behavioral responses to nicotine in nicotinic acetylcholine receptor ,5 subunit-null mutants. [source] AT1 -receptor blockade and sympathetic neurotransmission in cardiovascular diseaseAUTONOMIC & AUTACOID PHARMACOLOGY, Issue 5-6 2003A. Nap Summary 1 The present survey is dealing with the interactions between the renin,angiotensin,aldosterone system (RAAS) and the sympathetic nervous system (SNS) in various organs and tissues, with an emphasis on the angiotensin AT-receptors located at the sympathetic nerve endings. 2 Angiotensin II, the main effector of the RAAS is known to stimulate sympathetic nerve traffic and its sequelae in numerous organs and tissues, such as the central nervous system, the adrenal medulla, the sympathetic ganglia and the sympathetic nerve endings. These stimulatory effects are mediated by AT1 -receptors and counteracted by AT1 -receptor antagonists. 3 Sympatho-inhibition at the level of the sympathetic nerve ending appears to be a class effect of the AT1 -receptor blockers, mediated by presynaptic AT1 -receptors. With respect to the ratio pre-/postsynaptic AT1 -receptor antagonism important quantitative differences between the various compounds were found. 4 Both the pre- and postjunctional receptors at the sympathetic nerve endings belong to the AT1 -receptor population. However, the presynaptic receptors belong to the AT1B -subtype, whereas the postjunctional receptors probably belong to a different AT1 -receptor subpopulation. 5 Sympatho-inhibition is a class effect of the AT1 -receptor antagonists. In conditions in which the SNS plays a pathophysiological role, such as hypertension and congestive heart failure, this property may well be of therapeutic relevance. [source] Effects of natural tachykinins on ovine lower urinary tract smooth muscleAUTONOMIC & AUTACOID PHARMACOLOGY, Issue 2 2001P. Tucci 1,Numerous studies have demonstrated that the urinary bladder is particularly sensitive to tachykinins; rat, rabbit and guinea pig bladders, besides human detrusor, have been the most extensively studied, whereas very little is known about most large animal detrusors. The aim of this work was to study natural tachykinin activity on the lower urinary tract of ovine to make a comparison with data obtained in laboratory animals. 2,As in other animal species, tachykinins are also able to contract ovine bladder smooth muscle. 3,The results reported in this study indicate that in ovine bladder, neurokinin 2 (NK2) receptors are expressed most. In fact, on lamb and sheep bladder neurokinin A (NKA), a NK2- almost selective peptide, was shown to be > 100% more active than the natural tachykinins kassinin (KASS) and eledoisin (ELED). Eledoisin was shown to be 50% less active than KASS, which is typical behaviour for an almost exclusively NK2 receptor population. Moreover, NK1- preferential peptides, namely substance P (SP) and physalaemin (PHYS), showed a lack of activity even when applied at high concentrations. 4,The results reported in this study show that lamb and sheep detrusor represent a good alternative model for the characterization of NK2-selective tachykinins. [source] Contribution of specific binding to the central benzodiazepine site to the brain concentrations of two novel benzodiazepine site ligandsBIOPHARMACEUTICS AND DRUG DISPOSITION, Issue 6 2007Andrew Pike Abstract The in vivo occupancy of brain benzodiazepine binding sites by compounds A and B was measured using a [3H]Ro 15-1788 binding assay and related to plasma and brain drug concentrations. The plasma concentration associated with 50% occupancy was higher for compound A than compound B (73 and 3.7 nM, respectively), however, there was little difference in the brain concentrations required (73 and 63 nM). Both compounds showed a non-linear relationship between plasma and brain concentrations such that above brain concentrations of ,100 nM increasing plasma concentrations did not result in a concomitant increase in brain concentrations. This is consistent with brain concentrations being dependent on a saturable compartment which was postulated to be the benzodiazepine binding site-containing GABAA receptors. This hypothesis was tested in ,1H101R mice, in which the ,1 subunit of the GABAA receptor is rendered insensitive to benzodiazepine binding resulting in an approximate 50% reduction in the total benzodiazepine-containing GABAA receptor population. It was shown that the Occ50 brain concentrations in the ,1H101R animals was lower (17 nM) than in wild type mice (63 nM), as was the plateau concentration in the brain (105 and 195 nM, respectively). These data suggest measured concentrations of compounds A and B in brain tissue are dependent on receptor expression with a minimal contribution from unbound and non-specifically bound compound. Copyright © 2007 John Wiley & Sons, Ltd. [source] Multiple P2Y receptor subtypes in the apical membranes of polarized epithelial cellsBRITISH JOURNAL OF PHARMACOLOGY, Issue 8 2000H L McAlroy Apical ATP, ATP, UTP and UDP evoked transient increases in short circuit current (ISC, a direct measure of transepithelial ion transport) in confluent Caco-2 cells grown on permeable supports. These responses were mediated by a population of at least three pharmacologically distinct receptors. Experiments using cells grown on glass coverslips showed that ATP and UTP consistently increased intracellular free calcium ([Ca2+]i) whilst sensitivity to UDP was variable. Cross desensitization experiments suggested that the responses to UTP and ATP were mediated by a common receptor population. Messenger RNA transcripts corresponding to the P2Y2, P2Y4 and P2Y6 receptors genes were detected in cells grown on Transwell membranes by the reverse transcriptase,polymerase chain reaction. Identical results were obtained for cells grown on glass. Experiments in which ISC and [Ca2+]i were monitored simultaneously in cells on Transwell membranes, confirmed that apical ATP and UTP increased both parameters and showed that the UDP-evoked increase in ISC was accompanied by a [Ca2+]i -signal. Ionomycin consistently increased [Ca2+]i in such polarized cells but caused no discernible change in ISC. However, subsequent application of apical ATP or UTP evoked a small rise in ISC but no rise in [Ca2+]i. UDP evoked no such response. As well as evoking increases in [Ca2+]i, the ATP/UTP-sensitive receptors present in Caco-2 cells thus allow direct control over ion channels in the apical membrane. The UDP-sensitive receptors, however, appear to simply evoke a rise in [Ca2+]i. British Journal of Pharmacology (2000) 131, 1651,1658; doi:10.1038/sj.bjp.0703743 [source] In vivo recordings from rat geniculate ganglia: taste response properties of individual greater superficial petrosal and chorda tympani neuronesTHE JOURNAL OF PHYSIOLOGY, Issue 3 2005Suzanne I. Sollars Coding of gustatory information is complex and unique among sensory systems; information is received by multiple receptor populations located throughout the oral cavity and carried to a single central relay by four separate nerves. The geniculate ganglion is the location of the somata of two of these nerves, the greater superficial petrosal (GSP) and the chorda tympani (CT). The GSP innervates taste buds on the palate and the CT innervates taste buds on the anterior tongue. To obtain requisite taste response profiles of GSP neurones, we recorded neurophysiological responses to taste stimuli of individual geniculate ganglion neurones in vivo in the rat and compared them to those from the CT. GSP neurones had a distinct pattern of responding compared to CT neurones. For example, a small subset of GSP neurones had high response frequencies to sucrose stimulation, whereas no CT neurones had high response frequencies to sucrose. In contrast, NaCl elicited high response frequencies in a small subset of CT neurones and elicited moderate response frequencies in a relatively large proportion of GSP neurones. The robust whole-nerve response to sucrose in the GSP may be attributable to relatively few, narrowly tuned neurones, whereas the response to NaCl in the GSP may relate to proportionately more, widely tuned neurones. These results demonstrate the diversity in the initial stages of sensory coding for two separate gustatory nerves involved in the ingestion or rejection of taste solutions, and may have implications for central coding of gustatory quality and concentration as well as coding of information used in controlling energy, fluid and electrolyte homeostasis. [source] H. pylori selectively blocks EGFR endocytosis via the non-receptor kinase c-Abl and CagACELLULAR MICROBIOLOGY, Issue 1 2009Bianca Bauer Summary Helicobacter pylori infection is a primary cause of peptic ulcers and is associated with gastric carcinogenesis. The H. pylori -induced pathophysiology may be linked to the deregulation of EGFR signalling. Elevated mucosal levels of EGF and the EGFR have been found in antral gastric biopsies of H. pylori -infected patients. A critical mechanism for regulating EGFR signalling is ligand-induced endocytosis. The internalized receptor recycles back to the plasma membrane for continued signalling or is targeted for degradation terminating receptor signalling. Here, we show that H. pylori blocks EGFR endocytosis and receptor degradation upon prolonged infection of gastric epithelial cells. Moreover, this inhibition occurs via a CagA-dependent, but CagA phosphorylation-independent activation of the non-receptor kinase c-Abl, which in turn phosphorylates the EGFR target site pY1173. This suggests a novel CagA-induced host cell response that is independent of CagA tyrosine phosphorylation. Our data indicate an intriguing strategy of H. pylori in host cell manipulations by altering selective receptor populations via a CagA-dependent endocytic mechanism. Furthermore, we identified a new role for c-Abl in phosphorylation of the EGFR target site pY1173 during H. pylori infection. [source] | |||||||||||||