Filaggrin Expression and Processing Deficiencies Impair Corneocyte Surface Texture and Stiffness in Mice

Jacob P. Thyssen; Ivone Jakasa; Christoph Riethmüller; Michael P. Schön; Andrea Braun; Marek Haftek; Padraic G. Fallon; Jacek Wróblewski; Hieronim Jakubowski; Leopold Eckhart; Wim Declercq; Sjors Koppes; Kristiane A. Engebretsen; Charlotte Bonefeld; Alan D. Irvine; Sokhna Keita-Alassane; Michel Simon; Hiroshi Kawasaki; Akiharu Kubo; Masayuki Amagai; Takeshi Matsui; Sanja Kezic

doi:10.1016/j.jid.2019.07.716

Filaggrin Expression and Processing Deficiencies Impair Corneocyte Surface Texture and Stiffness in Mice

Jacob P. Thyssen, Ivone Jakasa, Christoph Riethmüller, Michael P. Schön, Andrea Braun, Marek Haftek, Padraic G. Fallon, Jacek Wróblewski, Hieronim Jakubowski, Leopold Eckhart, Wim Declercq, Sjors Koppes, Kristiane A. Engebretsen, Charlotte Bonefeld, Alan D. Irvine, Sokhna Keita-Alassane, Michel Simon, Hiroshi Kawasaki, Akiharu Kubo, Masayuki AmagaiTakeshi Matsui, Sanja Kezic

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

20 Citations (Scopus)

Abstract

Abundant corneocyte surface protrusions, observed in patients with atopic dermatitis with filaggrin loss-of-function mutations, are inversely associated with levels of natural moisturizing factors (NMFs) in the stratum corneum. To dissect the etiological role of NMFs and filaggrin deficiency in surface texture alterations, we examined mouse models with genetic deficiencies in the synthesis or degradation of filaggrin monomers for NMFs, cell stiffness (elastic modulus) and corneocyte surface protrusion density (dermal texture index). Five neonatal and adult mouse models carrying inactivating mutations of SASPase (Sasp^−/−), filaggrin (Flg^ft/ft and Flg^−/−), filaggrin-hornerin (FlgHrnr^−/−), and bleomycin hydrolase (Blmh^−/−) were investigated. Sasp^−/− and Flg^−/− were on the hairless mouse background. Atomic force microscopy was used to determine elastic modulus and dermal texture index. Corneocytes of each neonatal as well as hairless adult knockout mouse exhibited an increased number of protrusions and decreased elastic modulus. In these mice, NMFs were reduced except for Sasp^−/−. Dermal texture index was inversely correlated with NMFs and elastic modulus. Our findings demonstrate that any filaggrin-NMF axis deficiency can affect corneocyte mechanical properties in mice and likely in humans. Differences in NMFs and corneocyte surface texture between neonatal and adult as well as hairless and hairy mice emphasize the need for carefully selecting the most appropriate animal models for studies.

Original language	English
Pages (from-to)	615-623.e5
Journal	Journal of Investigative Dermatology
Volume	140
Issue number	3
DOIs	https://doi.org/10.1016/j.jid.2019.07.716
Publication status	Published - 2020 Mar

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Dermatology
Cell Biology

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10.1016/j.jid.2019.07.716

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Thyssen, J. P., Jakasa, I., Riethmüller, C., Schön, M. P., Braun, A., Haftek, M., Fallon, P. G., Wróblewski, J., Jakubowski, H., Eckhart, L., Declercq, W., Koppes, S., Engebretsen, K. A., Bonefeld, C., Irvine, A. D., Keita-Alassane, S., Simon, M., Kawasaki, H., Kubo, A., ... Kezic, S. (2020). Filaggrin Expression and Processing Deficiencies Impair Corneocyte Surface Texture and Stiffness in Mice. Journal of Investigative Dermatology, 140(3), 615-623.e5. https://doi.org/10.1016/j.jid.2019.07.716

Thyssen, JP, Jakasa, I, Riethmüller, C, Schön, MP, Braun, A, Haftek, M, Fallon, PG, Wróblewski, J, Jakubowski, H, Eckhart, L, Declercq, W, Koppes, S, Engebretsen, KA, Bonefeld, C, Irvine, AD, Keita-Alassane, S, Simon, M, Kawasaki, H, Kubo, A, Amagai, M, Matsui, T & Kezic, S 2020, 'Filaggrin Expression and Processing Deficiencies Impair Corneocyte Surface Texture and Stiffness in Mice', Journal of Investigative Dermatology, vol. 140, no. 3, pp. 615-623.e5. https://doi.org/10.1016/j.jid.2019.07.716

@article{1617f78a4359477a85abafdab54561e9,

title = "Filaggrin Expression and Processing Deficiencies Impair Corneocyte Surface Texture and Stiffness in Mice",

abstract = "Abundant corneocyte surface protrusions, observed in patients with atopic dermatitis with filaggrin loss-of-function mutations, are inversely associated with levels of natural moisturizing factors (NMFs) in the stratum corneum. To dissect the etiological role of NMFs and filaggrin deficiency in surface texture alterations, we examined mouse models with genetic deficiencies in the synthesis or degradation of filaggrin monomers for NMFs, cell stiffness (elastic modulus) and corneocyte surface protrusion density (dermal texture index). Five neonatal and adult mouse models carrying inactivating mutations of SASPase (Sasp−/−), filaggrin (Flgft/ft and Flg−/−), filaggrin-hornerin (FlgHrnr−/−), and bleomycin hydrolase (Blmh−/−) were investigated. Sasp−/− and Flg−/− were on the hairless mouse background. Atomic force microscopy was used to determine elastic modulus and dermal texture index. Corneocytes of each neonatal as well as hairless adult knockout mouse exhibited an increased number of protrusions and decreased elastic modulus. In these mice, NMFs were reduced except for Sasp−/−. Dermal texture index was inversely correlated with NMFs and elastic modulus. Our findings demonstrate that any filaggrin-NMF axis deficiency can affect corneocyte mechanical properties in mice and likely in humans. Differences in NMFs and corneocyte surface texture between neonatal and adult as well as hairless and hairy mice emphasize the need for carefully selecting the most appropriate animal models for studies.",

author = "Thyssen, {Jacob P.} and Ivone Jakasa and Christoph Riethm{\"u}ller and Sch{\"o}n, {Michael P.} and Andrea Braun and Marek Haftek and Fallon, {Padraic G.} and Jacek Wr{\'o}blewski and Hieronim Jakubowski and Leopold Eckhart and Wim Declercq and Sjors Koppes and Engebretsen, {Kristiane A.} and Charlotte Bonefeld and Irvine, {Alan D.} and Sokhna Keita-Alassane and Michel Simon and Hiroshi Kawasaki and Akiharu Kubo and Masayuki Amagai and Takeshi Matsui and Sanja Kezic",

note = "Funding Information: JT was supported by an unrestricted grant given to research by the Lundbeck Foundation. PF was supported by the National Children's Research Centre and the Wellcome Trust. Sean Saunders is thanked for assistance. WD was supported by UGent grant (GOA-01G01914). MPS is supported by a research grant from the Lower Saxony Ministry of Science (OCCUDERM project). AB and MPS were supported by a research grant from the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) ME 1708/4-1. JW and HJ are supported by grants from the American Heart Association (17GRNT32910002) and the National Science Center, Poland (2013/11/B/NZ1/00091, 2014/15/N/NZ5/01646, 2016/23/B/NZ5/00573, 2018/29/B/NZ4/00771). KH, TM, and MA are supported by AMED under Grant Numbers 18gm1010001h0103 and 18gm1010001h0003, respectively. TM was supported by JSPS Grant-in-Aid for Scientific Research (C) under Grant Number JP25461667. Studies on corneocyte stiffness were performed by Pascale Milani of BioMeca at Ecole Normale Sup{\'e}rieure de Lyon, Lyon, France. Scanning electron microscopy images were obtained using equipment of the Centre Technologique des Microstructures at University, Lyon 1, France. Conceptualization: IJ, SKe, CR, JPT; Data Curation: JPT, IJ, CR, MPS, AB, MH, PGF, JW, HJ, LE, WD, SKo, KAE, CB, ADI, SK-A, MS, HK, AK, MA, TM, SKe; Formal Analysis: JPT, IJ, CR, MPS, AB, MH, PGF, JW, HJ, LE, WD, SKo, KAE, CB, ADI, SK-A, MS, HK, AK, MA, TM, SKe; Supervision: JPT, IJ, CR, MPS, AB, MH, PGF, JW, HJ, LE, WD, SKo, KAE, CB, ADI, SK-A, MS, HK, AK, MA, TM, SKe; Writing - Original Draft Preparation: JPT, IJ, CR, SKe; Writing - Review and Editing: JPT, IJ, CR, MPS, AB, MH, PGF, JW, HJ, LE, WD, SKo, KAE, CB, ADI, SK-A, MS, HK, AK, MA, TM, SKe Funding Information: JT was supported by an unrestricted grant given to research by the Lundbeck Foundation . PF was supported by the National Children's Research Centre and the Wellcome Trust . Sean Saunders is thanked for assistance. WD was supported by UGent grant ( GOA-01G01914 ). MPS is supported by a research grant from the Lower Saxony Ministry of Science (OCCUDERM project). AB and MPS were supported by a research grant from the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) ME 1708/4-1. JW and HJ are supported by grants from the American Heart Association ( 17GRNT32910002 ) and the National Science Center , Poland (2013/11/B/NZ1/00091, 2014/15/N/NZ5/01646, 2016/23/B/NZ5/00573, 2018/29/B/NZ4/00771). KH, TM, and MA are supported by AMED under Grant Numbers 18gm1010001h0103 and 18gm1010001h0003 , respectively. TM was supported by JSPS Grant-in-Aid for Scientific Research (C) under Grant Number JP25461667. Studies on corneocyte stiffness were performed by Pascale Milani of BioMeca at Ecole Normale Sup{\'e}rieure de Lyon, Lyon, France. Scanning electron microscopy images were obtained using equipment of the Centre Technologique des Microstructures at University, Lyon 1, France. Publisher Copyright: {\textcopyright} 2019 The Authors",

year = "2020",

month = mar,

doi = "10.1016/j.jid.2019.07.716",

language = "English",

volume = "140",

pages = "615--623.e5",

journal = "Journal of Investigative Dermatology",

issn = "0022-202X",

publisher = "Nature Publishing Group",

number = "3",

}

TY - JOUR

T1 - Filaggrin Expression and Processing Deficiencies Impair Corneocyte Surface Texture and Stiffness in Mice

AU - Thyssen, Jacob P.

AU - Jakasa, Ivone

AU - Riethmüller, Christoph

AU - Schön, Michael P.

AU - Braun, Andrea

AU - Haftek, Marek

AU - Fallon, Padraic G.

AU - Wróblewski, Jacek

AU - Jakubowski, Hieronim

AU - Eckhart, Leopold

AU - Declercq, Wim

AU - Koppes, Sjors

AU - Engebretsen, Kristiane A.

AU - Bonefeld, Charlotte

AU - Irvine, Alan D.

AU - Keita-Alassane, Sokhna

AU - Simon, Michel

AU - Kawasaki, Hiroshi

AU - Kubo, Akiharu

AU - Amagai, Masayuki

AU - Matsui, Takeshi

AU - Kezic, Sanja

N1 - Funding Information: JT was supported by an unrestricted grant given to research by the Lundbeck Foundation. PF was supported by the National Children's Research Centre and the Wellcome Trust. Sean Saunders is thanked for assistance. WD was supported by UGent grant (GOA-01G01914). MPS is supported by a research grant from the Lower Saxony Ministry of Science (OCCUDERM project). AB and MPS were supported by a research grant from the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) ME 1708/4-1. JW and HJ are supported by grants from the American Heart Association (17GRNT32910002) and the National Science Center, Poland (2013/11/B/NZ1/00091, 2014/15/N/NZ5/01646, 2016/23/B/NZ5/00573, 2018/29/B/NZ4/00771). KH, TM, and MA are supported by AMED under Grant Numbers 18gm1010001h0103 and 18gm1010001h0003, respectively. TM was supported by JSPS Grant-in-Aid for Scientific Research (C) under Grant Number JP25461667. Studies on corneocyte stiffness were performed by Pascale Milani of BioMeca at Ecole Normale Supérieure de Lyon, Lyon, France. Scanning electron microscopy images were obtained using equipment of the Centre Technologique des Microstructures at University, Lyon 1, France. Conceptualization: IJ, SKe, CR, JPT; Data Curation: JPT, IJ, CR, MPS, AB, MH, PGF, JW, HJ, LE, WD, SKo, KAE, CB, ADI, SK-A, MS, HK, AK, MA, TM, SKe; Formal Analysis: JPT, IJ, CR, MPS, AB, MH, PGF, JW, HJ, LE, WD, SKo, KAE, CB, ADI, SK-A, MS, HK, AK, MA, TM, SKe; Supervision: JPT, IJ, CR, MPS, AB, MH, PGF, JW, HJ, LE, WD, SKo, KAE, CB, ADI, SK-A, MS, HK, AK, MA, TM, SKe; Writing - Original Draft Preparation: JPT, IJ, CR, SKe; Writing - Review and Editing: JPT, IJ, CR, MPS, AB, MH, PGF, JW, HJ, LE, WD, SKo, KAE, CB, ADI, SK-A, MS, HK, AK, MA, TM, SKe Funding Information: JT was supported by an unrestricted grant given to research by the Lundbeck Foundation . PF was supported by the National Children's Research Centre and the Wellcome Trust . Sean Saunders is thanked for assistance. WD was supported by UGent grant ( GOA-01G01914 ). MPS is supported by a research grant from the Lower Saxony Ministry of Science (OCCUDERM project). AB and MPS were supported by a research grant from the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) ME 1708/4-1. JW and HJ are supported by grants from the American Heart Association ( 17GRNT32910002 ) and the National Science Center , Poland (2013/11/B/NZ1/00091, 2014/15/N/NZ5/01646, 2016/23/B/NZ5/00573, 2018/29/B/NZ4/00771). KH, TM, and MA are supported by AMED under Grant Numbers 18gm1010001h0103 and 18gm1010001h0003 , respectively. TM was supported by JSPS Grant-in-Aid for Scientific Research (C) under Grant Number JP25461667. Studies on corneocyte stiffness were performed by Pascale Milani of BioMeca at Ecole Normale Supérieure de Lyon, Lyon, France. Scanning electron microscopy images were obtained using equipment of the Centre Technologique des Microstructures at University, Lyon 1, France. Publisher Copyright: © 2019 The Authors

PY - 2020/3

Y1 - 2020/3

N2 - Abundant corneocyte surface protrusions, observed in patients with atopic dermatitis with filaggrin loss-of-function mutations, are inversely associated with levels of natural moisturizing factors (NMFs) in the stratum corneum. To dissect the etiological role of NMFs and filaggrin deficiency in surface texture alterations, we examined mouse models with genetic deficiencies in the synthesis or degradation of filaggrin monomers for NMFs, cell stiffness (elastic modulus) and corneocyte surface protrusion density (dermal texture index). Five neonatal and adult mouse models carrying inactivating mutations of SASPase (Sasp−/−), filaggrin (Flgft/ft and Flg−/−), filaggrin-hornerin (FlgHrnr−/−), and bleomycin hydrolase (Blmh−/−) were investigated. Sasp−/− and Flg−/− were on the hairless mouse background. Atomic force microscopy was used to determine elastic modulus and dermal texture index. Corneocytes of each neonatal as well as hairless adult knockout mouse exhibited an increased number of protrusions and decreased elastic modulus. In these mice, NMFs were reduced except for Sasp−/−. Dermal texture index was inversely correlated with NMFs and elastic modulus. Our findings demonstrate that any filaggrin-NMF axis deficiency can affect corneocyte mechanical properties in mice and likely in humans. Differences in NMFs and corneocyte surface texture between neonatal and adult as well as hairless and hairy mice emphasize the need for carefully selecting the most appropriate animal models for studies.

AB - Abundant corneocyte surface protrusions, observed in patients with atopic dermatitis with filaggrin loss-of-function mutations, are inversely associated with levels of natural moisturizing factors (NMFs) in the stratum corneum. To dissect the etiological role of NMFs and filaggrin deficiency in surface texture alterations, we examined mouse models with genetic deficiencies in the synthesis or degradation of filaggrin monomers for NMFs, cell stiffness (elastic modulus) and corneocyte surface protrusion density (dermal texture index). Five neonatal and adult mouse models carrying inactivating mutations of SASPase (Sasp−/−), filaggrin (Flgft/ft and Flg−/−), filaggrin-hornerin (FlgHrnr−/−), and bleomycin hydrolase (Blmh−/−) were investigated. Sasp−/− and Flg−/− were on the hairless mouse background. Atomic force microscopy was used to determine elastic modulus and dermal texture index. Corneocytes of each neonatal as well as hairless adult knockout mouse exhibited an increased number of protrusions and decreased elastic modulus. In these mice, NMFs were reduced except for Sasp−/−. Dermal texture index was inversely correlated with NMFs and elastic modulus. Our findings demonstrate that any filaggrin-NMF axis deficiency can affect corneocyte mechanical properties in mice and likely in humans. Differences in NMFs and corneocyte surface texture between neonatal and adult as well as hairless and hairy mice emphasize the need for carefully selecting the most appropriate animal models for studies.

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Filaggrin Expression and Processing Deficiencies Impair Corneocyte Surface Texture and Stiffness in Mice

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