A Dominant Mutation in Gαs-Protein Increases Hair Pigmentation

Philip S.  Goff; Peter Budd; Darren W Logan; Margaret Keighren; Marta  Cantero; Lisa McKie; Lluis Montoliu; Ian Jackson; Elena V.  Sviderskya

doi:10.1111/pcmr.70025

A Dominant Mutation in Gαs-Protein Increases Hair Pigmentation

Philip S. Goff, Peter Budd, Darren W Logan, Margaret Keighren, Marta Cantero, Lisa McKie, Lluis Montoliu, Ian Jackson, Elena V. Sviderskya

Research output: Contribution to journal › Article › peer-review

Abstract

We have identified a chemically induced mouse mutation which increases the eumelanic hair pigmentation. We identify a coding mutation, A3533G, resulting in an amino acid substitution Y1133C, in the Gnas gene encoding the Gαs subunit of the tripartite G-protein, consistent with an activation of signalling via MC1R. In addition heterozygous mutant females are significantly lighter than wild type littermates. In cultured melanocytes, derived from mutant mice crossed to C57BL6 mice carrying Cdkn2atm1Rdp, basal pigmentation is higher than wild type melanocytes derived from litter mates. However, the addition of exogenous NDP-MSH does not increase pigmentation in mutant melanocytes in contrast to the pigmentation response of non-mutant melanocytes. The mutant and wild type cells respond in the same way to agouti signalling protein (ASP), consistent with ASP signalling mediated through a pathway other than Gαs-protein.

Original language	English
Journal	Pigment Cell & Melanoma Research
DOIs	https://doi.org/10.1111/pcmr.70025
Publication status	Published - 12 May 2025

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Dominant Mutation in GnasAccepted author manuscript, 365 KBLicence: Creative Commons: Attribution (CC-BY)

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title = "A Dominant Mutation in Gαs-Protein Increases Hair Pigmentation",

abstract = "We have identified a chemically induced mouse mutation which increases the eumelanic hair pigmentation. We identify a coding mutation, A3533G, resulting in an amino acid substitution Y1133C, in the Gnas gene encoding the Gαs subunit of the tripartite G-protein, consistent with an activation of signalling via MC1R. In addition heterozygous mutant females are significantly lighter than wild type littermates. In cultured melanocytes, derived from mutant mice crossed to C57BL6 mice carrying Cdkn2atm1Rdp, basal pigmentation is higher than wild type melanocytes derived from litter mates. However, the addition of exogenous NDP-MSH does not increase pigmentation in mutant melanocytes in contrast to the pigmentation response of non-mutant melanocytes. The mutant and wild type cells respond in the same way to agouti signalling protein (ASP), consistent with ASP signalling mediated through a pathway other than Gαs-protein.",

author = "Goff, \{Philip S.\} and Peter Budd and Logan, \{Darren W\} and Margaret Keighren and Marta Cantero and Lisa McKie and Lluis Montoliu and Ian Jackson and Sviderskya, \{Elena V.\}",

year = "2025",

month = may,

day = "12",

doi = "10.1111/pcmr.70025",

language = "English",

journal = "Pigment Cell \& Melanoma Research",

issn = "1755-1471",

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T1 - A Dominant Mutation in Gαs-Protein Increases Hair Pigmentation

AU - Goff, Philip S.

AU - Budd, Peter

AU - Logan, Darren W

AU - Keighren, Margaret

AU - Cantero, Marta

AU - McKie, Lisa

AU - Montoliu, Lluis

AU - Jackson, Ian

AU - Sviderskya, Elena V.

PY - 2025/5/12

Y1 - 2025/5/12

N2 - We have identified a chemically induced mouse mutation which increases the eumelanic hair pigmentation. We identify a coding mutation, A3533G, resulting in an amino acid substitution Y1133C, in the Gnas gene encoding the Gαs subunit of the tripartite G-protein, consistent with an activation of signalling via MC1R. In addition heterozygous mutant females are significantly lighter than wild type littermates. In cultured melanocytes, derived from mutant mice crossed to C57BL6 mice carrying Cdkn2atm1Rdp, basal pigmentation is higher than wild type melanocytes derived from litter mates. However, the addition of exogenous NDP-MSH does not increase pigmentation in mutant melanocytes in contrast to the pigmentation response of non-mutant melanocytes. The mutant and wild type cells respond in the same way to agouti signalling protein (ASP), consistent with ASP signalling mediated through a pathway other than Gαs-protein.

AB - We have identified a chemically induced mouse mutation which increases the eumelanic hair pigmentation. We identify a coding mutation, A3533G, resulting in an amino acid substitution Y1133C, in the Gnas gene encoding the Gαs subunit of the tripartite G-protein, consistent with an activation of signalling via MC1R. In addition heterozygous mutant females are significantly lighter than wild type littermates. In cultured melanocytes, derived from mutant mice crossed to C57BL6 mice carrying Cdkn2atm1Rdp, basal pigmentation is higher than wild type melanocytes derived from litter mates. However, the addition of exogenous NDP-MSH does not increase pigmentation in mutant melanocytes in contrast to the pigmentation response of non-mutant melanocytes. The mutant and wild type cells respond in the same way to agouti signalling protein (ASP), consistent with ASP signalling mediated through a pathway other than Gαs-protein.

U2 - 10.1111/pcmr.70025

DO - 10.1111/pcmr.70025

M3 - Article

SN - 1755-1471

JO - Pigment Cell & Melanoma Research

JF - Pigment Cell & Melanoma Research

ER -

A Dominant Mutation in Gαs-Protein Increases Hair Pigmentation

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A Dominant Mutation in Gαs-Protein Increases Hair Pigmentation

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