The Penetration Depth for Hanatoxin Partitioning into the Membrane Hydrocarbon Core Measured with Neutron Reflectivity.

Hsieh, M-H; Huang, P-T; Liou, H-H; Liang, P-H; Chen, P-M; Holt, SA; Yu, IF; James, M; Shiau, Y-S; Lee, M-T; Lin, T-L; Lou, K-L

The Penetration Depth for Hanatoxin Partitioning into the Membrane Hydrocarbon Core Measured with Neutron Reflectivity.

Hsieh, M-H Huang, P-T Liou, H-H Liang, P-H Chen, P-M Holt, SA Yu, IF James, M Shiau, Y-S Lee, M-T Lin, T-L Lou, K-L

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Publisher:: AMER CHEMICAL SOC
Publication Type:: Journal Article
Citation:: Langmuir, 2018, 34, (30), pp. 9036-9046
Issue Date:: 2018-07-31

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Field	Value	Language
dc.contributor.author	Hsieh, M-H
dc.contributor.author	Huang, P-T
dc.contributor.author	Liou, H-H
dc.contributor.author	Liang, P-H
dc.contributor.author	Chen, P-M
dc.contributor.author	Holt, SA
dc.contributor.author	Yu, IF
dc.contributor.author	James, M
dc.contributor.author	Shiau, Y-S
dc.contributor.author	Lee, M-T
dc.contributor.author	Lin, T-L
dc.contributor.author	Lou, K-L
dc.date.accessioned	2022-09-11T21:44:03Z
dc.date.available	2022-09-11T21:44:03Z
dc.date.issued	2018-07-31
dc.identifier.citation	Langmuir, 2018, 34, (30), pp. 9036-9046
dc.identifier.issn	0743-7463
dc.identifier.issn	1520-5827
dc.identifier.uri	http://hdl.handle.net/10453/161695
dc.description.abstract	Hanatoxin (HaTx) from spider venom works as an inhibitor of Kv2.1 channels, most likely by interacting with the voltage sensor (VS). However, the way in which this water-soluble peptide modifies the gating remains poorly understood as the VS is deeply embedded within the bilayer, although it would change its position depending on the membrane potential. To determine whether HaTx can indeed bind to the VS, the depth at which HaTx penetrates into the POPC membranes was measured with neutron reflectivity. Our results successfully demonstrate that HaTx penetrates into the membrane hydrocarbon core (∼9 Å from the membrane surface), not lying on the membrane-water interface as reported for another voltage sensor toxin (VSTx). This difference in penetration depth suggests that the two toxins fix the voltage sensors at different positions with respect to the membrane normal, thereby explaining their different inhibitory effects on the channels. In particular, results from MD simulations constrained by our penetration data clearly demonstrate an appropriate orientation for HaTx to interact with the membranes, which is in line with the biochemical information derived from stopped-flow analysis through delineation of the toxin-VS binding interface.
dc.format	Print-Electronic
dc.language	eng
dc.publisher	AMER CHEMICAL SOC
dc.relation.ispartof	Langmuir
dc.relation.isbasedon	10.1021/acs.langmuir.8b01076
dc.rights	info:eu-repo/semantics/closedAccess
dc.subject.classification	Chemical Physics
dc.title	The Penetration Depth for Hanatoxin Partitioning into the Membrane Hydrocarbon Core Measured with Neutron Reflectivity.
dc.type	Journal Article
utslib.citation.volume	34
utslib.location.activity	United States
pubs.organisational-group	/University of Technology Sydney
pubs.organisational-group	/University of Technology Sydney/Faculty of Science
pubs.organisational-group	/University of Technology Sydney/Faculty of Science/School of Life Sciences
utslib.copyright.status	closed_access	*
dc.date.updated	2022-09-11T21:43:59Z
pubs.issue	30
pubs.publication-status	Published
pubs.volume	34
utslib.citation.issue	30

Abstract:

Hanatoxin (HaTx) from spider venom works as an inhibitor of Kv2.1 channels, most likely by interacting with the voltage sensor (VS). However, the way in which this water-soluble peptide modifies the gating remains poorly understood as the VS is deeply embedded within the bilayer, although it would change its position depending on the membrane potential. To determine whether HaTx can indeed bind to the VS, the depth at which HaTx penetrates into the POPC membranes was measured with neutron reflectivity. Our results successfully demonstrate that HaTx penetrates into the membrane hydrocarbon core (∼9 Å from the membrane surface), not lying on the membrane-water interface as reported for another voltage sensor toxin (VSTx). This difference in penetration depth suggests that the two toxins fix the voltage sensors at different positions with respect to the membrane normal, thereby explaining their different inhibitory effects on the channels. In particular, results from MD simulations constrained by our penetration data clearly demonstrate an appropriate orientation for HaTx to interact with the membranes, which is in line with the biochemical information derived from stopped-flow analysis through delineation of the toxin-VS binding interface.

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http://hdl.handle.net/10453/161695