Essential role of histidine for rapid copper(II)-mediated disassembly of neurokinin B amyloid

Bhawantha M. Jayawardena; Lorraine Peacey; Roland Gamsjaeger; Christopher E. Jones

doi:10.3390/biom12111585

Essential role of histidine for rapid copper(II)-mediated disassembly of neurokinin B amyloid

Bhawantha M. Jayawardena, Lorraine Peacey, Roland Gamsjaeger, Christopher E. Jones

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Abstract

Neurokinin B is a tachykinin peptide involved in a diverse range of neuronal functions. It rapidly forms an amyloid, which is considered physiologically important for efficient packing into dense core secretory vesicles within hypothalamic neurons. Disassembly of the amyloid is thought to require the presence of copper ions, which interact with histidine at the third position in the peptide sequence. However, it is unclear how the histidine is involved in the amyloid structure and why copper coordination can trigger disassembly. In this work, we demonstrate that histidine contributes to the amyloid structure via π-stacking interactions with nearby phenylalanine residues. The ability of neurokinin B to form an amyloid is dependent on any aromatic residue at the third position in the sequence; however, only the presence of histidine leads to both amyloid formation and rapid copper-induced disassembly.

Original language	English
Article number	1585
Number of pages	11
Journal	Biomolecules
Volume	12
Issue number	11
DOIs	https://doi.org/10.3390/biom12111585
Publication status	Published - Nov 2022

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© 2022 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/)

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title = "Essential role of histidine for rapid copper(II)-mediated disassembly of neurokinin B amyloid",

abstract = "Neurokinin B is a tachykinin peptide involved in a diverse range of neuronal functions. It rapidly forms an amyloid, which is considered physiologically important for efficient packing into dense core secretory vesicles within hypothalamic neurons. Disassembly of the amyloid is thought to require the presence of copper ions, which interact with histidine at the third position in the peptide sequence. However, it is unclear how the histidine is involved in the amyloid structure and why copper coordination can trigger disassembly. In this work, we demonstrate that histidine contributes to the amyloid structure via π-stacking interactions with nearby phenylalanine residues. The ability of neurokinin B to form an amyloid is dependent on any aromatic residue at the third position in the sequence; however, only the presence of histidine leads to both amyloid formation and rapid copper-induced disassembly.",

author = "Jayawardena, {Bhawantha M.} and Lorraine Peacey and Roland Gamsjaeger and Jones, {Christopher E.}",

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doi = "10.3390/biom12111585",

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T1 - Essential role of histidine for rapid copper(II)-mediated disassembly of neurokinin B amyloid

AU - Jayawardena, Bhawantha M.

AU - Peacey, Lorraine

AU - Gamsjaeger, Roland

AU - Jones, Christopher E.

PY - 2022/11

Y1 - 2022/11

N2 - Neurokinin B is a tachykinin peptide involved in a diverse range of neuronal functions. It rapidly forms an amyloid, which is considered physiologically important for efficient packing into dense core secretory vesicles within hypothalamic neurons. Disassembly of the amyloid is thought to require the presence of copper ions, which interact with histidine at the third position in the peptide sequence. However, it is unclear how the histidine is involved in the amyloid structure and why copper coordination can trigger disassembly. In this work, we demonstrate that histidine contributes to the amyloid structure via π-stacking interactions with nearby phenylalanine residues. The ability of neurokinin B to form an amyloid is dependent on any aromatic residue at the third position in the sequence; however, only the presence of histidine leads to both amyloid formation and rapid copper-induced disassembly.

AB - Neurokinin B is a tachykinin peptide involved in a diverse range of neuronal functions. It rapidly forms an amyloid, which is considered physiologically important for efficient packing into dense core secretory vesicles within hypothalamic neurons. Disassembly of the amyloid is thought to require the presence of copper ions, which interact with histidine at the third position in the peptide sequence. However, it is unclear how the histidine is involved in the amyloid structure and why copper coordination can trigger disassembly. In this work, we demonstrate that histidine contributes to the amyloid structure via π-stacking interactions with nearby phenylalanine residues. The ability of neurokinin B to form an amyloid is dependent on any aromatic residue at the third position in the sequence; however, only the presence of histidine leads to both amyloid formation and rapid copper-induced disassembly.

UR - https://hdl.handle.net/1959.7/uws:67887

U2 - 10.3390/biom12111585

DO - 10.3390/biom12111585

M3 - Article

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SN - 2218-273X

VL - 12

JO - Biomolecules

JF - Biomolecules

IS - 11

M1 - 1585

ER -

Essential role of histidine for rapid copper(II)-mediated disassembly of neurokinin B amyloid

Abstract

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