Hormone-like peptides in the venoms of marine cone snails

Samuel D. Robinson; Qing Li; Pradip K. Bandyopadhyay; Joanna Gajewiak; Mark Yandell; Anthony T. Papenfuss; Anthony W. Purcell; Raymond S. Norton; Helena Safavi-Hemami

doi:10.1016/j.ygcen.2015.07.012

Hormone-like peptides in the venoms of marine cone snails

Samuel D. Robinson^*, Qing Li, Pradip K. Bandyopadhyay, Joanna Gajewiak, Mark Yandell, Anthony T. Papenfuss, Anthony W. Purcell, Raymond S. Norton, Helena Safavi-Hemami

^*Corresponding author for this work

Biomolecular Sciences

26 Citations (Scopus)

Abstract

The venoms of cone snails (genus Conus) are remarkably complex, consisting of hundreds of typically short, disulfide-rich peptides termed conotoxins. These peptides have diverse pharmacological targets, with injection of venom eliciting a range of physiological responses, including sedation, paralysis and sensory overload. Most conotoxins target the prey's nervous system but evidence of venom peptides targeting neuroendocrine processes is emerging. Examples include vasopressin, RFamide neuropeptides and recently also insulin. To investigate the diversity of hormone/neuropeptide-like molecules in the venoms of cone snails we systematically mined the venom gland transcriptomes of several cone snail species and examined secreted venom peptides in dissected and injected venom of the Australian cone snail Conus victoriae. Using this approach we identified several novel hormone/neuropeptide-like toxins, including peptides similar to the bee brain hormone prohormone-4, the mollusc ganglia neuropeptide elevenin, and thyrostimulin, a member of the glycoprotein hormone family, and confirmed the presence of insulin. We confirmed that at least two of these peptides are not only expressed in the venom gland but also form part of the injected venom cocktail, unambiguously demonstrating their role in envenomation. Our findings suggest that hormone/neuropeptide-like toxins are a diverse and integral part of the complex envenomation strategy of Conus. Exploration of this group of venom components offers an exciting new avenue for the discovery of novel pharmacological tools and drug candidates, complementary to conotoxins.

Original language	English
Journal	General and Comparative Endocrinology
Volume	244
Pages (from-to)	11-18
Number of pages	8
ISSN	0016-6480
DOIs	https://doi.org/10.1016/j.ygcen.2015.07.012
Publication status	Published - 1 Apr 2017

Keywords

Conotoxin
Elevenin
Hormone
Neuropeptide
Prohormone-4
Venom

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "Hormone-like peptides in the venoms of marine cone snails",

abstract = "The venoms of cone snails (genus Conus) are remarkably complex, consisting of hundreds of typically short, disulfide-rich peptides termed conotoxins. These peptides have diverse pharmacological targets, with injection of venom eliciting a range of physiological responses, including sedation, paralysis and sensory overload. Most conotoxins target the prey's nervous system but evidence of venom peptides targeting neuroendocrine processes is emerging. Examples include vasopressin, RFamide neuropeptides and recently also insulin. To investigate the diversity of hormone/neuropeptide-like molecules in the venoms of cone snails we systematically mined the venom gland transcriptomes of several cone snail species and examined secreted venom peptides in dissected and injected venom of the Australian cone snail Conus victoriae. Using this approach we identified several novel hormone/neuropeptide-like toxins, including peptides similar to the bee brain hormone prohormone-4, the mollusc ganglia neuropeptide elevenin, and thyrostimulin, a member of the glycoprotein hormone family, and confirmed the presence of insulin. We confirmed that at least two of these peptides are not only expressed in the venom gland but also form part of the injected venom cocktail, unambiguously demonstrating their role in envenomation. Our findings suggest that hormone/neuropeptide-like toxins are a diverse and integral part of the complex envenomation strategy of Conus. Exploration of this group of venom components offers an exciting new avenue for the discovery of novel pharmacological tools and drug candidates, complementary to conotoxins.",

keywords = "Conotoxin, Elevenin, Hormone, Neuropeptide, Prohormone-4, Venom",

author = "Robinson, {Samuel D.} and Qing Li and Bandyopadhyay, {Pradip K.} and Joanna Gajewiak and Mark Yandell and Papenfuss, {Anthony T.} and Purcell, {Anthony W.} and Norton, {Raymond S.} and Helena Safavi-Hemami",

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AU - Robinson, Samuel D.

AU - Li, Qing

AU - Bandyopadhyay, Pradip K.

AU - Gajewiak, Joanna

AU - Yandell, Mark

AU - Papenfuss, Anthony T.

AU - Purcell, Anthony W.

AU - Norton, Raymond S.

AU - Safavi-Hemami, Helena

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N2 - The venoms of cone snails (genus Conus) are remarkably complex, consisting of hundreds of typically short, disulfide-rich peptides termed conotoxins. These peptides have diverse pharmacological targets, with injection of venom eliciting a range of physiological responses, including sedation, paralysis and sensory overload. Most conotoxins target the prey's nervous system but evidence of venom peptides targeting neuroendocrine processes is emerging. Examples include vasopressin, RFamide neuropeptides and recently also insulin. To investigate the diversity of hormone/neuropeptide-like molecules in the venoms of cone snails we systematically mined the venom gland transcriptomes of several cone snail species and examined secreted venom peptides in dissected and injected venom of the Australian cone snail Conus victoriae. Using this approach we identified several novel hormone/neuropeptide-like toxins, including peptides similar to the bee brain hormone prohormone-4, the mollusc ganglia neuropeptide elevenin, and thyrostimulin, a member of the glycoprotein hormone family, and confirmed the presence of insulin. We confirmed that at least two of these peptides are not only expressed in the venom gland but also form part of the injected venom cocktail, unambiguously demonstrating their role in envenomation. Our findings suggest that hormone/neuropeptide-like toxins are a diverse and integral part of the complex envenomation strategy of Conus. Exploration of this group of venom components offers an exciting new avenue for the discovery of novel pharmacological tools and drug candidates, complementary to conotoxins.

AB - The venoms of cone snails (genus Conus) are remarkably complex, consisting of hundreds of typically short, disulfide-rich peptides termed conotoxins. These peptides have diverse pharmacological targets, with injection of venom eliciting a range of physiological responses, including sedation, paralysis and sensory overload. Most conotoxins target the prey's nervous system but evidence of venom peptides targeting neuroendocrine processes is emerging. Examples include vasopressin, RFamide neuropeptides and recently also insulin. To investigate the diversity of hormone/neuropeptide-like molecules in the venoms of cone snails we systematically mined the venom gland transcriptomes of several cone snail species and examined secreted venom peptides in dissected and injected venom of the Australian cone snail Conus victoriae. Using this approach we identified several novel hormone/neuropeptide-like toxins, including peptides similar to the bee brain hormone prohormone-4, the mollusc ganglia neuropeptide elevenin, and thyrostimulin, a member of the glycoprotein hormone family, and confirmed the presence of insulin. We confirmed that at least two of these peptides are not only expressed in the venom gland but also form part of the injected venom cocktail, unambiguously demonstrating their role in envenomation. Our findings suggest that hormone/neuropeptide-like toxins are a diverse and integral part of the complex envenomation strategy of Conus. Exploration of this group of venom components offers an exciting new avenue for the discovery of novel pharmacological tools and drug candidates, complementary to conotoxins.

KW - Conotoxin

KW - Elevenin

KW - Hormone

KW - Neuropeptide

KW - Prohormone-4

KW - Venom

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DO - 10.1016/j.ygcen.2015.07.012

M3 - Journal article

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VL - 244

SP - 11

EP - 18

JO - General and Comparative Endocrinology

JF - General and Comparative Endocrinology

ER -

Hormone-like peptides in the venoms of marine cone snails

Abstract

Keywords

UN SDGs

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