Contrasting anesthetic sensitivities of T-type Ca2+ channels of reticular thalamic neurons and recombinant Ca(v)3.3 channels

Reticular thalamocortical neurons express a slowly inactivating T-type Ca(2+) current that is quite similar to that recorded from recombinant Ca(v)3.3b (alpha1Ib) channels. These neurons also express abundant Ca(v)3.3 mRNA, suggesting that it underlies the native current. Here, we test this hypothes...

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Veröffentlicht in:	British journal of pharmacology 2005-01, Vol.144 (1), p.59
Hauptverfasser:	Joksovic, Pavle M, Brimelow, Barbara C, Murbartián, Janet, Perez-Reyes, Edward, Todorovic, Slobodan M
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Sprache:	eng
Schlagworte:	Anesthetics, General - pharmacology Barbiturates - pharmacology Calcium Channel Blockers - pharmacology Calcium Channels, T-Type - classification Calcium Channels, T-Type - drug effects Calcium Channels, T-Type - genetics Calcium Channels, T-Type - metabolism Calcium Channels, T-Type - physiology Cell Line Dose-Response Relationship, Drug Enflurane - pharmacology Ethanol - pharmacology Etomidate - pharmacology Humans Inhibitory Concentration 50 Isoflurane - pharmacology Kinetics Neurons, Afferent - drug effects Neurons, Afferent - physiology Nitrous Oxide - pharmacology Patch-Clamp Techniques Pentobarbital - pharmacology Propofol - pharmacology Recombinant Proteins - drug effects Thalamus - physiology
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creator	Joksovic, Pavle M Brimelow, Barbara C Murbartián, Janet Perez-Reyes, Edward Todorovic, Slobodan M
description	Reticular thalamocortical neurons express a slowly inactivating T-type Ca(2+) current that is quite similar to that recorded from recombinant Ca(v)3.3b (alpha1Ib) channels. These neurons also express abundant Ca(v)3.3 mRNA, suggesting that it underlies the native current. Here, we test this hypothesis by comparing the anesthetic sensitivities of recombinant Ca(v)3.3b channels stably expressed in HEK 293 cells to native T channels in reticular thalamic neurons (nRT) from brain slices of young rats. Barbiturates completely blocked both Ca(v)3.3 and nRT currents, with pentobarbital being about twice more potent in blocking Ca(v)3.3 currents. Isoflurane had about the same potency in blocking Ca(v)3.3 and nRT currents, but enflurane, etomidate, propofol, and ethanol exhibited 2-4 fold higher potency in blocking nRT vs Ca(v)3.3 currents. Nitrous oxide (N(2)O; laughing gas) blocked completely nRT currents with IC(50) of 20%, but did not significantly affect Ca(v)3.3 currents at four-fold higher concentrations. In addition, we observed that in lower concentration, N(2)O reversibly increased nRT but not Ca(v)3.3 currents. In conclusion, contrasting anesthetic sensitivities of Ca(v)3.3 and nRT T-type Ca(2+) channels strongly suggest that different molecular structures of Ca(2+) channels give rise to slowly inactivating T-type Ca(2+) currents. Furthermore, effects of volatile anesthetics and ethanol on slowly inactivating T-type Ca(2+) channel variants may contribute to the clinical effects of these agents.
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In conclusion, contrasting anesthetic sensitivities of Ca(v)3.3 and nRT T-type Ca(2+) channels strongly suggest that different molecular structures of Ca(2+) channels give rise to slowly inactivating T-type Ca(2+) currents. 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These neurons also express abundant Ca(v)3.3 mRNA, suggesting that it underlies the native current. Here, we test this hypothesis by comparing the anesthetic sensitivities of recombinant Ca(v)3.3b channels stably expressed in HEK 293 cells to native T channels in reticular thalamic neurons (nRT) from brain slices of young rats. Barbiturates completely blocked both Ca(v)3.3 and nRT currents, with pentobarbital being about twice more potent in blocking Ca(v)3.3 currents. Isoflurane had about the same potency in blocking Ca(v)3.3 and nRT currents, but enflurane, etomidate, propofol, and ethanol exhibited 2-4 fold higher potency in blocking nRT vs Ca(v)3.3 currents. Nitrous oxide (N(2)O; laughing gas) blocked completely nRT currents with IC(50) of 20%, but did not significantly affect Ca(v)3.3 currents at four-fold higher concentrations. In addition, we observed that in lower concentration, N(2)O reversibly increased nRT but not Ca(v)3.3 currents. In conclusion, contrasting anesthetic sensitivities of Ca(v)3.3 and nRT T-type Ca(2+) channels strongly suggest that different molecular structures of Ca(2+) channels give rise to slowly inactivating T-type Ca(2+) currents. Furthermore, effects of volatile anesthetics and ethanol on slowly inactivating T-type Ca(2+) channel variants may contribute to the clinical effects of these agents.</description><subject>Anesthetics, General - pharmacology</subject><subject>Barbiturates - pharmacology</subject><subject>Calcium Channel Blockers - pharmacology</subject><subject>Calcium Channels, T-Type - classification</subject><subject>Calcium Channels, T-Type - drug effects</subject><subject>Calcium Channels, T-Type - genetics</subject><subject>Calcium Channels, T-Type - metabolism</subject><subject>Calcium Channels, T-Type - physiology</subject><subject>Cell Line</subject><subject>Dose-Response Relationship, Drug</subject><subject>Enflurane - pharmacology</subject><subject>Ethanol - pharmacology</subject><subject>Etomidate - pharmacology</subject><subject>Humans</subject><subject>Inhibitory Concentration 50</subject><subject>Isoflurane - pharmacology</subject><subject>Kinetics</subject><subject>Neurons, Afferent - drug effects</subject><subject>Neurons, Afferent - physiology</subject><subject>Nitrous Oxide - pharmacology</subject><subject>Patch-Clamp Techniques</subject><subject>Pentobarbital - pharmacology</subject><subject>Propofol - pharmacology</subject><subject>Recombinant Proteins - drug effects</subject><subject>Thalamus - physiology</subject><issn>0007-1188</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2005</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNo9kD1rwzAQhjW0NGnatWPR2FLsniRbksdi0g8IdEnncLKlxsGWjaUEAv3xdT-H4-De93mGI-SKQcpA6PuwS81uSEGBBA4nZA4AKmFM6xk5D2EHwDKl8jMyY7nMMi2LOfkoex9HDLHx7xS9DXFrY1PRYH1oYnOYxgbaO7pO4nGwtER-R6stem_b7_v4Vd-3ONK4xRa7ifV2P_Y-TLp6iqu-M41HHyf25nArUvHPX5BTh22wl797Qd4el-vyOVm9Pr2UD6tkYKKIiUOpNDc8K3ghhWLOCaMQCpFBIfOcGyFdhTUHZrhRRQVai5o7KUWNVW5qsSDXP95hbzpbb4ax6XA8bv7eID4BbtRe9Q</recordid><startdate>200501</startdate><enddate>200501</enddate><creator>Joksovic, Pavle M</creator><creator>Brimelow, Barbara C</creator><creator>Murbartián, Janet</creator><creator>Perez-Reyes, Edward</creator><creator>Todorovic, Slobodan M</creator><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope></search><sort><creationdate>200501</creationdate><title>Contrasting anesthetic sensitivities of T-type Ca2+ channels of reticular thalamic neurons and recombinant Ca(v)3.3 channels</title><author>Joksovic, Pavle M ; Brimelow, Barbara C ; Murbartián, Janet ; Perez-Reyes, Edward ; Todorovic, Slobodan M</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-p139t-fa6782b249296371ff3b7a0934096552b36fcad201b2b79c0883d2f663dac5bd3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2005</creationdate><topic>Anesthetics, General - pharmacology</topic><topic>Barbiturates - pharmacology</topic><topic>Calcium Channel Blockers - pharmacology</topic><topic>Calcium Channels, T-Type - classification</topic><topic>Calcium Channels, T-Type - drug effects</topic><topic>Calcium Channels, T-Type - genetics</topic><topic>Calcium Channels, T-Type - metabolism</topic><topic>Calcium Channels, T-Type - physiology</topic><topic>Cell Line</topic><topic>Dose-Response Relationship, Drug</topic><topic>Enflurane - pharmacology</topic><topic>Ethanol - pharmacology</topic><topic>Etomidate - pharmacology</topic><topic>Humans</topic><topic>Inhibitory Concentration 50</topic><topic>Isoflurane - pharmacology</topic><topic>Kinetics</topic><topic>Neurons, Afferent - drug effects</topic><topic>Neurons, Afferent - physiology</topic><topic>Nitrous Oxide - pharmacology</topic><topic>Patch-Clamp Techniques</topic><topic>Pentobarbital - pharmacology</topic><topic>Propofol - pharmacology</topic><topic>Recombinant Proteins - drug effects</topic><topic>Thalamus - physiology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Joksovic, Pavle M</creatorcontrib><creatorcontrib>Brimelow, Barbara C</creatorcontrib><creatorcontrib>Murbartián, Janet</creatorcontrib><creatorcontrib>Perez-Reyes, Edward</creatorcontrib><creatorcontrib>Todorovic, Slobodan M</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><jtitle>British journal of pharmacology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Joksovic, Pavle M</au><au>Brimelow, Barbara C</au><au>Murbartián, Janet</au><au>Perez-Reyes, Edward</au><au>Todorovic, Slobodan M</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Contrasting anesthetic sensitivities of T-type Ca2+ channels of reticular thalamic neurons and recombinant Ca(v)3.3 channels</atitle><jtitle>British journal of pharmacology</jtitle><addtitle>Br J Pharmacol</addtitle><date>2005-01</date><risdate>2005</risdate><volume>144</volume><issue>1</issue><spage>59</spage><pages>59-</pages><issn>0007-1188</issn><abstract>Reticular thalamocortical neurons express a slowly inactivating T-type Ca(2+) current that is quite similar to that recorded from recombinant Ca(v)3.3b (alpha1Ib) channels. These neurons also express abundant Ca(v)3.3 mRNA, suggesting that it underlies the native current. Here, we test this hypothesis by comparing the anesthetic sensitivities of recombinant Ca(v)3.3b channels stably expressed in HEK 293 cells to native T channels in reticular thalamic neurons (nRT) from brain slices of young rats. Barbiturates completely blocked both Ca(v)3.3 and nRT currents, with pentobarbital being about twice more potent in blocking Ca(v)3.3 currents. Isoflurane had about the same potency in blocking Ca(v)3.3 and nRT currents, but enflurane, etomidate, propofol, and ethanol exhibited 2-4 fold higher potency in blocking nRT vs Ca(v)3.3 currents. Nitrous oxide (N(2)O; laughing gas) blocked completely nRT currents with IC(50) of 20%, but did not significantly affect Ca(v)3.3 currents at four-fold higher concentrations. In addition, we observed that in lower concentration, N(2)O reversibly increased nRT but not Ca(v)3.3 currents. In conclusion, contrasting anesthetic sensitivities of Ca(v)3.3 and nRT T-type Ca(2+) channels strongly suggest that different molecular structures of Ca(2+) channels give rise to slowly inactivating T-type Ca(2+) currents. Furthermore, effects of volatile anesthetics and ethanol on slowly inactivating T-type Ca(2+) channel variants may contribute to the clinical effects of these agents.</abstract><cop>England</cop><pmid>15644869</pmid><doi>10.1038/sj.bjp.0706020</doi><oa>free_for_read</oa></addata></record>
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subjects	Anesthetics, General - pharmacology Barbiturates - pharmacology Calcium Channel Blockers - pharmacology Calcium Channels, T-Type - classification Calcium Channels, T-Type - drug effects Calcium Channels, T-Type - genetics Calcium Channels, T-Type - metabolism Calcium Channels, T-Type - physiology Cell Line Dose-Response Relationship, Drug Enflurane - pharmacology Ethanol - pharmacology Etomidate - pharmacology Humans Inhibitory Concentration 50 Isoflurane - pharmacology Kinetics Neurons, Afferent - drug effects Neurons, Afferent - physiology Nitrous Oxide - pharmacology Patch-Clamp Techniques Pentobarbital - pharmacology Propofol - pharmacology Recombinant Proteins - drug effects Thalamus - physiology
title	Contrasting anesthetic sensitivities of T-type Ca2+ channels of reticular thalamic neurons and recombinant Ca(v)3.3 channels
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