Interaction of a viral insulin-like peptide with the IGF-1 receptor produces a natural antagonist

Francois Moreau; Nicholas S Kirk; Fa Zhang; Vasily Gelfanov; Edward O List; Martina Chrudinová; Hari Venugopal; Michael C Lawrence; Veronica Jimenez; Fatima Bosch; John J Kopchick; Richard D DiMarchi; Emrah Altindis; C Ronald Kahn

doi:10.1038/s41467-022-34391-6

Interaction of a viral insulin-like peptide with the IGF-1 receptor produces a natural antagonist

Francois Moreau, Nicholas S Kirk, Fa Zhang, Vasily Gelfanov, Edward O List, Martina Chrudinová, Hari Venugopal, Michael C Lawrence, Veronica Jimenez, Fatima Bosch, John J Kopchick, Richard D DiMarchi, Emrah Altindis, C Ronald Kahn

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Lymphocystis disease virus-1 (LCDV-1) and several other Iridoviridae encode viral insulin/IGF-1 like peptides (VILPs) with high homology to human insulin and IGFs. Here we show that while single-chain (sc) and double-chain (dc) LCDV1-VILPs have very low affinity for the insulin receptor, scLCDV1-VILP has high affinity for IGF1R where it can antagonize human IGF-1 signaling, without altering insulin signaling. Consequently, scLCDV1-VILP inhibits IGF-1 induced cell proliferation and growth hormone/IGF-1 induced growth of mice in vivo. Cryo-electron microscopy reveals that scLCDV1-VILP engages IGF1R in a unique manner, inducing changes in IGF1R conformation that led to separation, rather than juxtaposition, of the transmembrane segments and hence inactivation of the receptor. Thus, scLCDV1-VILP is a natural peptide with specific antagonist properties on IGF1R signaling and may provide a new tool to guide development of hormonal analogues to treat cancers or metabolic disorders sensitive to IGF-1 without affecting glucose metabolism.

Idioma original	Anglès
Número d’article	6700
Nombre de pàgines	14
Revista	Nature communications
Volum	13
Número	1
Data online anticipada	5 de nov. 2022
DOIs	https://doi.org/10.1038/s41467-022-34391-6
Estat de la publicació	Publicada - de des. 2022

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10.1038/s41467-022-34391-6

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Moreau, F., Kirk, N. S., Zhang, F., Gelfanov, V., List, E. O., Chrudinová, M., Venugopal, H., Lawrence, M. C., Jimenez, V., Bosch, F., Kopchick, J. J., DiMarchi, R. D., Altindis, E., & Kahn, C. R. (2022). Interaction of a viral insulin-like peptide with the IGF-1 receptor produces a natural antagonist. Nature communications, 13(1), Article 6700. https://doi.org/10.1038/s41467-022-34391-6

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title = "Interaction of a viral insulin-like peptide with the IGF-1 receptor produces a natural antagonist",

abstract = "Lymphocystis disease virus-1 (LCDV-1) and several other Iridoviridae encode viral insulin/IGF-1 like peptides (VILPs) with high homology to human insulin and IGFs. Here we show that while single-chain (sc) and double-chain (dc) LCDV1-VILPs have very low affinity for the insulin receptor, scLCDV1-VILP has high affinity for IGF1R where it can antagonize human IGF-1 signaling, without altering insulin signaling. Consequently, scLCDV1-VILP inhibits IGF-1 induced cell proliferation and growth hormone/IGF-1 induced growth of mice in vivo. Cryo-electron microscopy reveals that scLCDV1-VILP engages IGF1R in a unique manner, inducing changes in IGF1R conformation that led to separation, rather than juxtaposition, of the transmembrane segments and hence inactivation of the receptor. Thus, scLCDV1-VILP is a natural peptide with specific antagonist properties on IGF1R signaling and may provide a new tool to guide development of hormonal analogues to treat cancers or metabolic disorders sensitive to IGF-1 without affecting glucose metabolism.",

keywords = "Animals, Cryoelectron Microscopy, Humans, Insulin-Like Growth Factor I/metabolism, Insulin/metabolism, Mice, Peptides/pharmacology, Receptor, IGF Type 1/metabolism",

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doi = "10.1038/s41467-022-34391-6",

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AU - Moreau, Francois

AU - Kirk, Nicholas S

AU - Zhang, Fa

AU - Gelfanov, Vasily

AU - List, Edward O

AU - Chrudinová, Martina

AU - Venugopal, Hari

AU - Lawrence, Michael C

AU - Jimenez, Veronica

AU - Bosch, Fatima

AU - Kopchick, John J

AU - DiMarchi, Richard D

AU - Altindis, Emrah

AU - Kahn, C Ronald

PY - 2022/12

Y1 - 2022/12

N2 - Lymphocystis disease virus-1 (LCDV-1) and several other Iridoviridae encode viral insulin/IGF-1 like peptides (VILPs) with high homology to human insulin and IGFs. Here we show that while single-chain (sc) and double-chain (dc) LCDV1-VILPs have very low affinity for the insulin receptor, scLCDV1-VILP has high affinity for IGF1R where it can antagonize human IGF-1 signaling, without altering insulin signaling. Consequently, scLCDV1-VILP inhibits IGF-1 induced cell proliferation and growth hormone/IGF-1 induced growth of mice in vivo. Cryo-electron microscopy reveals that scLCDV1-VILP engages IGF1R in a unique manner, inducing changes in IGF1R conformation that led to separation, rather than juxtaposition, of the transmembrane segments and hence inactivation of the receptor. Thus, scLCDV1-VILP is a natural peptide with specific antagonist properties on IGF1R signaling and may provide a new tool to guide development of hormonal analogues to treat cancers or metabolic disorders sensitive to IGF-1 without affecting glucose metabolism.

AB - Lymphocystis disease virus-1 (LCDV-1) and several other Iridoviridae encode viral insulin/IGF-1 like peptides (VILPs) with high homology to human insulin and IGFs. Here we show that while single-chain (sc) and double-chain (dc) LCDV1-VILPs have very low affinity for the insulin receptor, scLCDV1-VILP has high affinity for IGF1R where it can antagonize human IGF-1 signaling, without altering insulin signaling. Consequently, scLCDV1-VILP inhibits IGF-1 induced cell proliferation and growth hormone/IGF-1 induced growth of mice in vivo. Cryo-electron microscopy reveals that scLCDV1-VILP engages IGF1R in a unique manner, inducing changes in IGF1R conformation that led to separation, rather than juxtaposition, of the transmembrane segments and hence inactivation of the receptor. Thus, scLCDV1-VILP is a natural peptide with specific antagonist properties on IGF1R signaling and may provide a new tool to guide development of hormonal analogues to treat cancers or metabolic disorders sensitive to IGF-1 without affecting glucose metabolism.

KW - Animals

KW - Cryoelectron Microscopy

KW - Humans

KW - Insulin-Like Growth Factor I/metabolism

KW - Insulin/metabolism

KW - Mice

KW - Peptides/pharmacology

KW - Receptor, IGF Type 1/metabolism

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JO - Nature communications

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Interaction of a viral insulin-like peptide with the IGF-1 receptor produces a natural antagonist

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