Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling

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Zeitschriftentitel:	Journal of General Physiology
Personen und Körperschaften:	Bannister, Roger A., Papadopoulos, Symeon, Haarmann, Claudia S., Beam, Kurt G.
In:	Journal of General Physiology, 134, 2009, 1, S. 35-51
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	Rockefeller University Press
Schlagwörter:	Physiology

author_facet	Bannister, Roger A. Papadopoulos, Symeon Haarmann, Claudia S. Beam, Kurt G. Bannister, Roger A. Papadopoulos, Symeon Haarmann, Claudia S. Beam, Kurt G.
author	Bannister, Roger A. Papadopoulos, Symeon Haarmann, Claudia S. Beam, Kurt G.
spellingShingle	Bannister, Roger A. Papadopoulos, Symeon Haarmann, Claudia S. Beam, Kurt G. Journal of General Physiology Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling Physiology
author_sort	bannister, roger a.
spelling	Bannister, Roger A. Papadopoulos, Symeon Haarmann, Claudia S. Beam, Kurt G. 1540-7748 0022-1295 Rockefeller University Press Physiology http://dx.doi.org/10.1085/jgp.200910241 <jats:p>In skeletal muscle, intermolecular communication between the 1,4-dihydropyridine receptor (DHPR) and RYR1 is bidirectional: orthograde coupling (skeletal excitation–contraction coupling) is observed as depolarization-induced Ca2+ release via RYR1, and retrograde coupling is manifested by increased L-type Ca2+ current via DHPR. A critical domain (residues 720–765) of the DHPR α1S II–III loop plays an important but poorly understood role in bidirectional coupling with RYR1. In this study, we examine the consequences of fluorescent protein insertion into different positions within the α1S II–III loop. In four constructs, a cyan fluorescent protein (CFP)–yellow fluorescent protein (YFP) tandem was introduced in place of residues 672–685 (the peptide A region). All four constructs supported efficient bidirectional coupling as determined by the measurement of L-type current and myoplasmic Ca2+ transients. In contrast, insertion of a CFP–YFP tandem within the N-terminal portion of the critical domain (between residues 726 and 727) abolished bidirectional signaling. Bidirectional coupling was partially preserved when only a single YFP was inserted between residues 726 and 727. However, insertion of YFP near the C-terminal boundary of the critical domain (between residues 760 and 761) or in the conserved C-terminal portion of the α1S II–III loop (between residues 785 and 786) eliminated bidirectional coupling. None of the fluorescent protein insertions, even those that interfered with signaling, significantly altered membrane expression or targeting. Thus, bidirectional signaling is ablated by insertions at two different sites in the C-terminal portion of the α1S II–III loop. Significantly, our results indicate that the conserved portion of the α1S II–III loop C terminal to the critical domain plays an important role in bidirectional coupling either by conveying conformational changes to the critical domain from other regions of the DHPR or by serving as a site of interaction with other junctional proteins such as RYR1.</jats:p> Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling Journal of General Physiology
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title	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
title_unstemmed	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
title_full	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
title_fullStr	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
title_full_unstemmed	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
title_short	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
title_sort	effects of inserting fluorescent proteins into the α1s ii–iii loop: insights into excitation–contraction coupling
topic	Physiology
url	http://dx.doi.org/10.1085/jgp.200910241
publishDate	2009
physical	35-51
description	<jats:p>In skeletal muscle, intermolecular communication between the 1,4-dihydropyridine receptor (DHPR) and RYR1 is bidirectional: orthograde coupling (skeletal excitation–contraction coupling) is observed as depolarization-induced Ca2+ release via RYR1, and retrograde coupling is manifested by increased L-type Ca2+ current via DHPR. A critical domain (residues 720–765) of the DHPR α1S II–III loop plays an important but poorly understood role in bidirectional coupling with RYR1. In this study, we examine the consequences of fluorescent protein insertion into different positions within the α1S II–III loop. In four constructs, a cyan fluorescent protein (CFP)–yellow fluorescent protein (YFP) tandem was introduced in place of residues 672–685 (the peptide A region). All four constructs supported efficient bidirectional coupling as determined by the measurement of L-type current and myoplasmic Ca2+ transients. In contrast, insertion of a CFP–YFP tandem within the N-terminal portion of the critical domain (between residues 726 and 727) abolished bidirectional signaling. Bidirectional coupling was partially preserved when only a single YFP was inserted between residues 726 and 727. However, insertion of YFP near the C-terminal boundary of the critical domain (between residues 760 and 761) or in the conserved C-terminal portion of the α1S II–III loop (between residues 785 and 786) eliminated bidirectional coupling. None of the fluorescent protein insertions, even those that interfered with signaling, significantly altered membrane expression or targeting. Thus, bidirectional signaling is ablated by insertions at two different sites in the C-terminal portion of the α1S II–III loop. Significantly, our results indicate that the conserved portion of the α1S II–III loop C terminal to the critical domain plays an important role in bidirectional coupling either by conveying conformational changes to the critical domain from other regions of the DHPR or by serving as a site of interaction with other junctional proteins such as RYR1.</jats:p>
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author	Bannister, Roger A., Papadopoulos, Symeon, Haarmann, Claudia S., Beam, Kurt G.
author_facet	Bannister, Roger A., Papadopoulos, Symeon, Haarmann, Claudia S., Beam, Kurt G., Bannister, Roger A., Papadopoulos, Symeon, Haarmann, Claudia S., Beam, Kurt G.
author_sort	bannister, roger a.
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description	<jats:p>In skeletal muscle, intermolecular communication between the 1,4-dihydropyridine receptor (DHPR) and RYR1 is bidirectional: orthograde coupling (skeletal excitation–contraction coupling) is observed as depolarization-induced Ca2+ release via RYR1, and retrograde coupling is manifested by increased L-type Ca2+ current via DHPR. A critical domain (residues 720–765) of the DHPR α1S II–III loop plays an important but poorly understood role in bidirectional coupling with RYR1. In this study, we examine the consequences of fluorescent protein insertion into different positions within the α1S II–III loop. In four constructs, a cyan fluorescent protein (CFP)–yellow fluorescent protein (YFP) tandem was introduced in place of residues 672–685 (the peptide A region). All four constructs supported efficient bidirectional coupling as determined by the measurement of L-type current and myoplasmic Ca2+ transients. In contrast, insertion of a CFP–YFP tandem within the N-terminal portion of the critical domain (between residues 726 and 727) abolished bidirectional signaling. Bidirectional coupling was partially preserved when only a single YFP was inserted between residues 726 and 727. However, insertion of YFP near the C-terminal boundary of the critical domain (between residues 760 and 761) or in the conserved C-terminal portion of the α1S II–III loop (between residues 785 and 786) eliminated bidirectional coupling. None of the fluorescent protein insertions, even those that interfered with signaling, significantly altered membrane expression or targeting. Thus, bidirectional signaling is ablated by insertions at two different sites in the C-terminal portion of the α1S II–III loop. Significantly, our results indicate that the conserved portion of the α1S II–III loop C terminal to the critical domain plays an important role in bidirectional coupling either by conveying conformational changes to the critical domain from other regions of the DHPR or by serving as a site of interaction with other junctional proteins such as RYR1.</jats:p>
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spelling	Bannister, Roger A. Papadopoulos, Symeon Haarmann, Claudia S. Beam, Kurt G. 1540-7748 0022-1295 Rockefeller University Press Physiology http://dx.doi.org/10.1085/jgp.200910241 <jats:p>In skeletal muscle, intermolecular communication between the 1,4-dihydropyridine receptor (DHPR) and RYR1 is bidirectional: orthograde coupling (skeletal excitation–contraction coupling) is observed as depolarization-induced Ca2+ release via RYR1, and retrograde coupling is manifested by increased L-type Ca2+ current via DHPR. A critical domain (residues 720–765) of the DHPR α1S II–III loop plays an important but poorly understood role in bidirectional coupling with RYR1. In this study, we examine the consequences of fluorescent protein insertion into different positions within the α1S II–III loop. In four constructs, a cyan fluorescent protein (CFP)–yellow fluorescent protein (YFP) tandem was introduced in place of residues 672–685 (the peptide A region). All four constructs supported efficient bidirectional coupling as determined by the measurement of L-type current and myoplasmic Ca2+ transients. In contrast, insertion of a CFP–YFP tandem within the N-terminal portion of the critical domain (between residues 726 and 727) abolished bidirectional signaling. Bidirectional coupling was partially preserved when only a single YFP was inserted between residues 726 and 727. However, insertion of YFP near the C-terminal boundary of the critical domain (between residues 760 and 761) or in the conserved C-terminal portion of the α1S II–III loop (between residues 785 and 786) eliminated bidirectional coupling. None of the fluorescent protein insertions, even those that interfered with signaling, significantly altered membrane expression or targeting. Thus, bidirectional signaling is ablated by insertions at two different sites in the C-terminal portion of the α1S II–III loop. Significantly, our results indicate that the conserved portion of the α1S II–III loop C terminal to the critical domain plays an important role in bidirectional coupling either by conveying conformational changes to the critical domain from other regions of the DHPR or by serving as a site of interaction with other junctional proteins such as RYR1.</jats:p> Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling Journal of General Physiology
spellingShingle	Bannister, Roger A., Papadopoulos, Symeon, Haarmann, Claudia S., Beam, Kurt G., Journal of General Physiology, Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling, Physiology
title	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
title_full	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
title_fullStr	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
title_full_unstemmed	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
title_short	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
title_sort	effects of inserting fluorescent proteins into the α1s ii–iii loop: insights into excitation–contraction coupling
title_unstemmed	Effects of inserting fluorescent proteins into the α1S II–III loop: insights into excitation–contraction coupling
topic	Physiology
url	http://dx.doi.org/10.1085/jgp.200910241