Conopeptides promote itch through human itch receptor hMgprX1

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Conopeptides promote itch through human itch receptor hMgprX1. / Espino, Samuel S; Robinson, Samuel D; Safavi-Hemami, Helena; Gajewiak, Joanna; Yang, Weishan; Olivera, Baldomero M; Liu, Qin.

I: Toxicon, Bind 154, 2018, s. 28-34.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Espino, SS, Robinson, SD, Safavi-Hemami, H, Gajewiak, J, Yang, W, Olivera, BM & Liu, Q 2018, 'Conopeptides promote itch through human itch receptor hMgprX1', Toxicon, bind 154, s. 28-34. https://doi.org/10.1016/j.toxicon.2018.09.002

APA

Espino, S. S., Robinson, S. D., Safavi-Hemami, H., Gajewiak, J., Yang, W., Olivera, B. M., & Liu, Q. (2018). Conopeptides promote itch through human itch receptor hMgprX1. Toxicon, 154, 28-34. https://doi.org/10.1016/j.toxicon.2018.09.002

Vancouver

Espino SS, Robinson SD, Safavi-Hemami H, Gajewiak J, Yang W, Olivera BM o.a. Conopeptides promote itch through human itch receptor hMgprX1. Toxicon. 2018;154:28-34. https://doi.org/10.1016/j.toxicon.2018.09.002

Author

Espino, Samuel S ; Robinson, Samuel D ; Safavi-Hemami, Helena ; Gajewiak, Joanna ; Yang, Weishan ; Olivera, Baldomero M ; Liu, Qin. / Conopeptides promote itch through human itch receptor hMgprX1. I: Toxicon. 2018 ; Bind 154. s. 28-34.

Bibtex

@article{077921282b50422f95b046744af5fcd9,
title = "Conopeptides promote itch through human itch receptor hMgprX1",
abstract = "Members of Mas related G-protein coupled receptors (Mrgpr) are known to mediate itch. To date, several compounds have been shown to activate these receptors, including chloroquine, a common antimalarial drug, and peptides of the RF-amide family. However, specific ligands for these receptors are still lacking and there is a need for novel compounds that can be used to modulate the receptors in order to understand the cellular and molecular mechanism in which they mediate itch. Some cone snail venoms were previously shown to induce itch in mice. Here, we show that the venom of Conus textile induces itch through activation of itch-sensing sensory neurons, marked by their sensitivity to chloroquine. Two RF-amide peptides, CNF-Tx1 and CNF-Tx2, were identified in a C. textile venom gland transcriptome. These belong to the conorfamide family of peptides which includes previously described peptides from the venoms of Conus victoriae (CNF-Vc1) and Conus spurius (CNF-Sr1 and CNF-Sr2). We show that CNF-Vc1 and CNF-Sr1 activate MrgprC11 whereas CNF-Vc1 and CNF-Tx2 activate the human MrgprX1 (hMrgprX1). The peptides CNF-Tx1 and CNF-Sr2 do not activate MrgprC11 or hMrgprX1. Intradermal injection of CNF-Vc1 and CNF-Tx2 into the cheek of a transgenic mouse expressing hMrgprX1 instead of endogenous mouse Mrgprs resulted in itch-related scratching thus demonstrating the in vivo activity of these peptides. Using truncated analogues of CNF-Vc1, we identified amino acids at positions 7-14 as important for activity against hMrgprX1. The conopeptides reported here are tools that can be used to advance our understanding of the cellular and molecular mechanism of itch mediated by Mrgprs.",
keywords = "Amino Acid Sequence, Animals, Cells, Cultured, Conotoxins/pharmacology, Male, Mice, Mollusk Venoms/pharmacology, Neuropeptides/pharmacology, Peptides, Pruritus/chemically induced, Receptors, G-Protein-Coupled/agonists, Sensory Receptor Cells/drug effects, Transcriptome",
author = "Espino, {Samuel S} and Robinson, {Samuel D} and Helena Safavi-Hemami and Joanna Gajewiak and Weishan Yang and Olivera, {Baldomero M} and Qin Liu",
year = "2018",
doi = "10.1016/j.toxicon.2018.09.002",
language = "English",
volume = "154",
pages = "28--34",
journal = "Toxicon",
issn = "0041-0101",
publisher = "Pergamon Press",

}

RIS

TY - JOUR

T1 - Conopeptides promote itch through human itch receptor hMgprX1

AU - Espino, Samuel S

AU - Robinson, Samuel D

AU - Safavi-Hemami, Helena

AU - Gajewiak, Joanna

AU - Yang, Weishan

AU - Olivera, Baldomero M

AU - Liu, Qin

PY - 2018

Y1 - 2018

N2 - Members of Mas related G-protein coupled receptors (Mrgpr) are known to mediate itch. To date, several compounds have been shown to activate these receptors, including chloroquine, a common antimalarial drug, and peptides of the RF-amide family. However, specific ligands for these receptors are still lacking and there is a need for novel compounds that can be used to modulate the receptors in order to understand the cellular and molecular mechanism in which they mediate itch. Some cone snail venoms were previously shown to induce itch in mice. Here, we show that the venom of Conus textile induces itch through activation of itch-sensing sensory neurons, marked by their sensitivity to chloroquine. Two RF-amide peptides, CNF-Tx1 and CNF-Tx2, were identified in a C. textile venom gland transcriptome. These belong to the conorfamide family of peptides which includes previously described peptides from the venoms of Conus victoriae (CNF-Vc1) and Conus spurius (CNF-Sr1 and CNF-Sr2). We show that CNF-Vc1 and CNF-Sr1 activate MrgprC11 whereas CNF-Vc1 and CNF-Tx2 activate the human MrgprX1 (hMrgprX1). The peptides CNF-Tx1 and CNF-Sr2 do not activate MrgprC11 or hMrgprX1. Intradermal injection of CNF-Vc1 and CNF-Tx2 into the cheek of a transgenic mouse expressing hMrgprX1 instead of endogenous mouse Mrgprs resulted in itch-related scratching thus demonstrating the in vivo activity of these peptides. Using truncated analogues of CNF-Vc1, we identified amino acids at positions 7-14 as important for activity against hMrgprX1. The conopeptides reported here are tools that can be used to advance our understanding of the cellular and molecular mechanism of itch mediated by Mrgprs.

AB - Members of Mas related G-protein coupled receptors (Mrgpr) are known to mediate itch. To date, several compounds have been shown to activate these receptors, including chloroquine, a common antimalarial drug, and peptides of the RF-amide family. However, specific ligands for these receptors are still lacking and there is a need for novel compounds that can be used to modulate the receptors in order to understand the cellular and molecular mechanism in which they mediate itch. Some cone snail venoms were previously shown to induce itch in mice. Here, we show that the venom of Conus textile induces itch through activation of itch-sensing sensory neurons, marked by their sensitivity to chloroquine. Two RF-amide peptides, CNF-Tx1 and CNF-Tx2, were identified in a C. textile venom gland transcriptome. These belong to the conorfamide family of peptides which includes previously described peptides from the venoms of Conus victoriae (CNF-Vc1) and Conus spurius (CNF-Sr1 and CNF-Sr2). We show that CNF-Vc1 and CNF-Sr1 activate MrgprC11 whereas CNF-Vc1 and CNF-Tx2 activate the human MrgprX1 (hMrgprX1). The peptides CNF-Tx1 and CNF-Sr2 do not activate MrgprC11 or hMrgprX1. Intradermal injection of CNF-Vc1 and CNF-Tx2 into the cheek of a transgenic mouse expressing hMrgprX1 instead of endogenous mouse Mrgprs resulted in itch-related scratching thus demonstrating the in vivo activity of these peptides. Using truncated analogues of CNF-Vc1, we identified amino acids at positions 7-14 as important for activity against hMrgprX1. The conopeptides reported here are tools that can be used to advance our understanding of the cellular and molecular mechanism of itch mediated by Mrgprs.

KW - Amino Acid Sequence

KW - Animals

KW - Cells, Cultured

KW - Conotoxins/pharmacology

KW - Male

KW - Mice

KW - Mollusk Venoms/pharmacology

KW - Neuropeptides/pharmacology

KW - Peptides

KW - Pruritus/chemically induced

KW - Receptors, G-Protein-Coupled/agonists

KW - Sensory Receptor Cells/drug effects

KW - Transcriptome

U2 - 10.1016/j.toxicon.2018.09.002

DO - 10.1016/j.toxicon.2018.09.002

M3 - Journal article

C2 - 30243794

VL - 154

SP - 28

EP - 34

JO - Toxicon

JF - Toxicon

SN - 0041-0101

ER -

ID: 232823170