Pathogenic FAM83G palmoplantar keratoderma mutations inhibit the PAWS1:CK1α association and attenuate Wnt signalling. [version 1; peer review: 2 approved]

Pathogenic FAM83G palmoplantar keratoderma mutations inhibit the PAWS1:CK1α association and attenuate Wnt signalling. [version 1; peer review: 2 approved]

Background: Two recessive mutations in the FAM83G gene, causing A34E and R52P amino acid substitutions in the DUF1669 domain of the PAWS1 protein, are associated with palmoplantar keratoderma (PPK) in humans and dogs respectively. We have previously reported that PAWS1 associates with the Ser/Thr pr...

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Main Authors: Kevin Z.L. Wu, Rebecca A. Jones, Theresa Tachie-Menson, Thomas J. Macartney, Nicola T. Wood, Joby Varghese, Robert Gourlay, Renata F. Soares, James C. Smith, Gopal P. Sapkota
Format: Article
Language:English
Published: Wellcome 2019-09-01
Series:Wellcome Open Research
Online Access:https://wellcomeopenresearch.org/articles/4-133/v1
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spelling doaj-825b99f7ce8c4131b3178e4180dfa8e22020-11-25T01:18:45ZengWellcomeWellcome Open Research2398-502X2019-09-01410.12688/wellcomeopenres.15403.116836Pathogenic FAM83G palmoplantar keratoderma mutations inhibit the PAWS1:CK1α association and attenuate Wnt signalling. [version 1; peer review: 2 approved]Kevin Z.L. Wu0Rebecca A. Jones1Theresa Tachie-Menson2Thomas J. Macartney3Nicola T. Wood4Joby Varghese5Robert Gourlay6Renata F. Soares7James C. Smith8Gopal P. Sapkota9Medical Research Council, Protein Phosphorylation and Ubiquitylation Unit, University of Dundee, Dundee, UKThe Francis Crick Institute, London, UKMedical Research Council, Protein Phosphorylation and Ubiquitylation Unit, University of Dundee, Dundee, UKMedical Research Council, Protein Phosphorylation and Ubiquitylation Unit, University of Dundee, Dundee, UKMedical Research Council, Protein Phosphorylation and Ubiquitylation Unit, University of Dundee, Dundee, UKMedical Research Council, Protein Phosphorylation and Ubiquitylation Unit, University of Dundee, Dundee, UKMedical Research Council, Protein Phosphorylation and Ubiquitylation Unit, University of Dundee, Dundee, UKMedical Research Council, Protein Phosphorylation and Ubiquitylation Unit, University of Dundee, Dundee, UKThe Francis Crick Institute, London, UKMedical Research Council, Protein Phosphorylation and Ubiquitylation Unit, University of Dundee, Dundee, UKBackground: Two recessive mutations in the FAM83G gene, causing A34E and R52P amino acid substitutions in the DUF1669 domain of the PAWS1 protein, are associated with palmoplantar keratoderma (PPK) in humans and dogs respectively. We have previously reported that PAWS1 associates with the Ser/Thr protein kinase CK1α through the DUF1669 domain to mediate canonical Wnt signalling. Methods: Co-immunoprecipitation was used to investigate possible changes to PAWS1 interactors caused by the mutations. We also compared the stability of wild-type and mutant PAWS1 in cycloheximide-treated cells. Effects on Wnt signalling were determined using the TOPflash luciferase reporter assay in U2OS cells expressing PAWS1 mutant proteins. The ability of PAWS1 to induce axis duplication in Xenopus embryos was also tested. Finally, we knocked-in the A34E mutation at the native gene locus and measured Wnt-induced AXIN2 gene expression by RT-qPCR. Results: We show that these PAWS1A34E and PAWS1R52P mutants fail to interact with CK1α but, like the wild-type protein, do interact with CD2AP and SMAD1. Like cells carrying a PAWS1F296A mutation, which also abolishes CK1α binding, cells carrying the A34E and R52P mutants respond poorly to Wnt signalling to an extent resembling that observed in FAM83G gene knockout cells. Consistent with this observation, these mutants, in contrast to the wild-type protein, fail to induce axis duplication in Xenopus embryos. We also found that the A34E and R52P mutant proteins are less abundant than the native protein and appear to be less stable, both when overexpressed in FAM83G-knockout cells and when knocked-in at the native FAM83G locus. Ala34 of PAWS1 is conserved in all FAM83 proteins and mutating the equivalent residue in FAM83H (A31E) also abolishes interaction with CK1 isoforms. Conclusions: We propose that mutations in PAWS1 cause PPK pathogenesis through disruption of the CK1α interaction and attenuation of Wnt signalling.https://wellcomeopenresearch.org/articles/4-133/v1
collection DOAJ
language English
format Article
sources DOAJ
author Kevin Z.L. Wu
Rebecca A. Jones
Theresa Tachie-Menson
Thomas J. Macartney
Nicola T. Wood
Joby Varghese
Robert Gourlay
Renata F. Soares
James C. Smith
Gopal P. Sapkota
spellingShingle Kevin Z.L. Wu
Rebecca A. Jones
Theresa Tachie-Menson
Thomas J. Macartney
Nicola T. Wood
Joby Varghese
Robert Gourlay
Renata F. Soares
James C. Smith
Gopal P. Sapkota
Pathogenic FAM83G palmoplantar keratoderma mutations inhibit the PAWS1:CK1α association and attenuate Wnt signalling. [version 1; peer review: 2 approved]
Wellcome Open Research
author_facet Kevin Z.L. Wu
Rebecca A. Jones
Theresa Tachie-Menson
Thomas J. Macartney
Nicola T. Wood
Joby Varghese
Robert Gourlay
Renata F. Soares
James C. Smith
Gopal P. Sapkota
author_sort Kevin Z.L. Wu
title Pathogenic FAM83G palmoplantar keratoderma mutations inhibit the PAWS1:CK1α association and attenuate Wnt signalling. [version 1; peer review: 2 approved]
title_short Pathogenic FAM83G palmoplantar keratoderma mutations inhibit the PAWS1:CK1α association and attenuate Wnt signalling. [version 1; peer review: 2 approved]
title_full Pathogenic FAM83G palmoplantar keratoderma mutations inhibit the PAWS1:CK1α association and attenuate Wnt signalling. [version 1; peer review: 2 approved]
title_fullStr Pathogenic FAM83G palmoplantar keratoderma mutations inhibit the PAWS1:CK1α association and attenuate Wnt signalling. [version 1; peer review: 2 approved]
title_full_unstemmed Pathogenic FAM83G palmoplantar keratoderma mutations inhibit the PAWS1:CK1α association and attenuate Wnt signalling. [version 1; peer review: 2 approved]
title_sort pathogenic fam83g palmoplantar keratoderma mutations inhibit the paws1:ck1α association and attenuate wnt signalling. [version 1; peer review: 2 approved]
publisher Wellcome
series Wellcome Open Research
issn 2398-502X
publishDate 2019-09-01
description Background: Two recessive mutations in the FAM83G gene, causing A34E and R52P amino acid substitutions in the DUF1669 domain of the PAWS1 protein, are associated with palmoplantar keratoderma (PPK) in humans and dogs respectively. We have previously reported that PAWS1 associates with the Ser/Thr protein kinase CK1α through the DUF1669 domain to mediate canonical Wnt signalling. Methods: Co-immunoprecipitation was used to investigate possible changes to PAWS1 interactors caused by the mutations. We also compared the stability of wild-type and mutant PAWS1 in cycloheximide-treated cells. Effects on Wnt signalling were determined using the TOPflash luciferase reporter assay in U2OS cells expressing PAWS1 mutant proteins. The ability of PAWS1 to induce axis duplication in Xenopus embryos was also tested. Finally, we knocked-in the A34E mutation at the native gene locus and measured Wnt-induced AXIN2 gene expression by RT-qPCR. Results: We show that these PAWS1A34E and PAWS1R52P mutants fail to interact with CK1α but, like the wild-type protein, do interact with CD2AP and SMAD1. Like cells carrying a PAWS1F296A mutation, which also abolishes CK1α binding, cells carrying the A34E and R52P mutants respond poorly to Wnt signalling to an extent resembling that observed in FAM83G gene knockout cells. Consistent with this observation, these mutants, in contrast to the wild-type protein, fail to induce axis duplication in Xenopus embryos. We also found that the A34E and R52P mutant proteins are less abundant than the native protein and appear to be less stable, both when overexpressed in FAM83G-knockout cells and when knocked-in at the native FAM83G locus. Ala34 of PAWS1 is conserved in all FAM83 proteins and mutating the equivalent residue in FAM83H (A31E) also abolishes interaction with CK1 isoforms. Conclusions: We propose that mutations in PAWS1 cause PPK pathogenesis through disruption of the CK1α interaction and attenuation of Wnt signalling.
url https://wellcomeopenresearch.org/articles/4-133/v1
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