Translational implications of Th17-skewed inflammation due to genetic deficiency of a cadherin stress sensor

Lisa M. Godsel; Quinn R. Roth-Carter; Jennifer L. Koetsier; Lam C. Tsoi; Amber L. Huffine; Joshua A. Broussard; Gillian N. Fitz; Sarah M. Lloyd; Junghun Kweon; Hope E. Burks; Marihan Hegazy; Saki Amagai; Paul W. Harms; Xianying Xing; Joseph Kirma; Jodi L. Johnson; Gloria Urciuoli; Lynn T. Doglio; William R. Swindell; Rajeshwar Awatramani; Eli Sprecher; Xiaomin Bao; Eran Cohen-Barak; Caterina Missero; Johann E. Gudjonsson; Kathleen J. Green

doi:10.1172/JCI144363

Translational implications of Th17-skewed inflammation due to genetic deficiency of a cadherin stress sensor

Lisa M. Godsel, Quinn R. Roth-Carter, Jennifer L. Koetsier, Lam C. Tsoi, Amber L. Huffine, Joshua A. Broussard, Gillian N. Fitz, Sarah M. Lloyd, Junghun Kweon, Hope E. Burks, Marihan Hegazy, Saki Amagai, Paul W. Harms, Xianying Xing, Joseph Kirma, Jodi L. Johnson, Gloria Urciuoli, Lynn T. Doglio, William R. Swindell, Rajeshwar AwatramaniEli Sprecher, Xiaomin Bao, Eran Cohen-Barak, Caterina Missero, Johann E. Gudjonsson, Kathleen J. Green^*

^*Corresponding author for this work

Dermatology

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

33 Scopus citations

Abstract

Desmoglein 1 (Dsg1) is a cadherin restricted to stratified tissues of terrestrial vertebrates, which serve as essential physical and immune barriers. Dsg1 loss-of-function mutations in humans result in skin lesions and multiple allergies, and isolated patient keratinocytes exhibit increased proallergic cytokine expression. However, the mechanism by which genetic deficiency of Dsg1 causes chronic inflammation is unknown. To determine the systemic response to Dsg1 loss, we deleted the 3 tandem Dsg1 genes in mice. Whole transcriptome analysis of embryonic Dsg1^–/– skin showed a delay in expression of adhesion/differentiation/ keratinization genes at E17.5, a subset of which recovered or increased by E18.5. Comparing epidermal transcriptomes from Dsg1-deficient mice and humans revealed a shared IL-17–skewed inflammatory signature. Although the impaired intercellular adhesion observed in Dsg1^–/– mice resembles that resulting from anti-Dsg1 pemphigus foliaceus antibodies, pemphigus skin lesions exhibit a weaker IL-17 signature. Consistent with the clinical importance of these findings, treatment of 2 Dsg1-deficient patients with an IL-12/IL-23 antagonist originally developed for psoriasis resulted in improvement of skin lesions. Thus, beyond impairing the physical barrier, loss of Dsg1 function through gene mutation results in a psoriatic-like inflammatory signature before birth, and treatment with a targeted therapy significantly improved skin lesions in patients.

Original language	English
Article number	144363
Journal	Journal of Clinical Investigation
Volume	132
Issue number	3
DOIs	https://doi.org/10.1172/JCI144363
State	Published - 1 Feb 2022

Funding

Funders	Funder number
European School of Molecular Medicine
SEMM
National Institutes of Health	K01 AR075087
National Cancer Institute	R01 CA228196, P30-CA060553
National Institute of Arthritis and Musculoskeletal and Skin Diseases	R01 AR041836, R37 AR43380, P30AR057216, P30AR075049, P30–AR075043, R01 AR075015
Northwestern University
Fondazione Telethon	T32 CA070085, GEP15096, T32 CA009560
LEO Fondet

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Godsel, L. M., Roth-Carter, Q. R., Koetsier, J. L., Tsoi, L. C., Huffine, A. L., Broussard, J. A., Fitz, G. N., Lloyd, S. M., Kweon, J., Burks, H. E., Hegazy, M., Amagai, S., Harms, P. W., Xing, X., Kirma, J., Johnson, J. L., Urciuoli, G., Doglio, L. T., Swindell, W. R., ... Green, K. J. (2022). Translational implications of Th17-skewed inflammation due to genetic deficiency of a cadherin stress sensor. Journal of Clinical Investigation, 132(3), Article 144363. https://doi.org/10.1172/JCI144363

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title = "Translational implications of Th17-skewed inflammation due to genetic deficiency of a cadherin stress sensor",

abstract = "Desmoglein 1 (Dsg1) is a cadherin restricted to stratified tissues of terrestrial vertebrates, which serve as essential physical and immune barriers. Dsg1 loss-of-function mutations in humans result in skin lesions and multiple allergies, and isolated patient keratinocytes exhibit increased proallergic cytokine expression. However, the mechanism by which genetic deficiency of Dsg1 causes chronic inflammation is unknown. To determine the systemic response to Dsg1 loss, we deleted the 3 tandem Dsg1 genes in mice. Whole transcriptome analysis of embryonic Dsg1–/– skin showed a delay in expression of adhesion/differentiation/ keratinization genes at E17.5, a subset of which recovered or increased by E18.5. Comparing epidermal transcriptomes from Dsg1-deficient mice and humans revealed a shared IL-17–skewed inflammatory signature. Although the impaired intercellular adhesion observed in Dsg1–/– mice resembles that resulting from anti-Dsg1 pemphigus foliaceus antibodies, pemphigus skin lesions exhibit a weaker IL-17 signature. Consistent with the clinical importance of these findings, treatment of 2 Dsg1-deficient patients with an IL-12/IL-23 antagonist originally developed for psoriasis resulted in improvement of skin lesions. Thus, beyond impairing the physical barrier, loss of Dsg1 function through gene mutation results in a psoriatic-like inflammatory signature before birth, and treatment with a targeted therapy significantly improved skin lesions in patients.",

author = "Godsel, {Lisa M.} and Roth-Carter, {Quinn R.} and Koetsier, {Jennifer L.} and Tsoi, {Lam C.} and Huffine, {Amber L.} and Broussard, {Joshua A.} and Fitz, {Gillian N.} and Lloyd, {Sarah M.} and Junghun Kweon and Burks, {Hope E.} and Marihan Hegazy and Saki Amagai and Harms, {Paul W.} and Xianying Xing and Joseph Kirma and Johnson, {Jodi L.} and Gloria Urciuoli and Doglio, {Lynn T.} and Swindell, {William R.} and Rajeshwar Awatramani and Eli Sprecher and Xiaomin Bao and Eran Cohen-Barak and Caterina Missero and Gudjonsson, {Johann E.} and Green, {Kathleen J.}",

note = "Publisher Copyright: {\textcopyright} 2022, Godsel et al",

year = "2022",

month = feb,

day = "1",

doi = "10.1172/JCI144363",

language = "אנגלית",

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Godsel, LM, Roth-Carter, QR, Koetsier, JL, Tsoi, LC, Huffine, AL, Broussard, JA, Fitz, GN, Lloyd, SM, Kweon, J, Burks, HE, Hegazy, M, Amagai, S, Harms, PW, Xing, X, Kirma, J, Johnson, JL, Urciuoli, G, Doglio, LT, Swindell, WR, Awatramani, R, Sprecher, E, Bao, X, Cohen-Barak, E, Missero, C, Gudjonsson, JE & Green, KJ 2022, 'Translational implications of Th17-skewed inflammation due to genetic deficiency of a cadherin stress sensor', Journal of Clinical Investigation, vol. 132, no. 3, 144363. https://doi.org/10.1172/JCI144363

TY - JOUR

T1 - Translational implications of Th17-skewed inflammation due to genetic deficiency of a cadherin stress sensor

AU - Godsel, Lisa M.

AU - Roth-Carter, Quinn R.

AU - Koetsier, Jennifer L.

AU - Tsoi, Lam C.

AU - Huffine, Amber L.

AU - Broussard, Joshua A.

AU - Fitz, Gillian N.

AU - Lloyd, Sarah M.

AU - Kweon, Junghun

AU - Burks, Hope E.

AU - Hegazy, Marihan

AU - Amagai, Saki

AU - Harms, Paul W.

AU - Xing, Xianying

AU - Kirma, Joseph

AU - Johnson, Jodi L.

AU - Urciuoli, Gloria

AU - Doglio, Lynn T.

AU - Swindell, William R.

AU - Awatramani, Rajeshwar

AU - Sprecher, Eli

AU - Bao, Xiaomin

AU - Cohen-Barak, Eran

AU - Missero, Caterina

AU - Gudjonsson, Johann E.

AU - Green, Kathleen J.

PY - 2022/2/1

Y1 - 2022/2/1

N2 - Desmoglein 1 (Dsg1) is a cadherin restricted to stratified tissues of terrestrial vertebrates, which serve as essential physical and immune barriers. Dsg1 loss-of-function mutations in humans result in skin lesions and multiple allergies, and isolated patient keratinocytes exhibit increased proallergic cytokine expression. However, the mechanism by which genetic deficiency of Dsg1 causes chronic inflammation is unknown. To determine the systemic response to Dsg1 loss, we deleted the 3 tandem Dsg1 genes in mice. Whole transcriptome analysis of embryonic Dsg1–/– skin showed a delay in expression of adhesion/differentiation/ keratinization genes at E17.5, a subset of which recovered or increased by E18.5. Comparing epidermal transcriptomes from Dsg1-deficient mice and humans revealed a shared IL-17–skewed inflammatory signature. Although the impaired intercellular adhesion observed in Dsg1–/– mice resembles that resulting from anti-Dsg1 pemphigus foliaceus antibodies, pemphigus skin lesions exhibit a weaker IL-17 signature. Consistent with the clinical importance of these findings, treatment of 2 Dsg1-deficient patients with an IL-12/IL-23 antagonist originally developed for psoriasis resulted in improvement of skin lesions. Thus, beyond impairing the physical barrier, loss of Dsg1 function through gene mutation results in a psoriatic-like inflammatory signature before birth, and treatment with a targeted therapy significantly improved skin lesions in patients.

AB - Desmoglein 1 (Dsg1) is a cadherin restricted to stratified tissues of terrestrial vertebrates, which serve as essential physical and immune barriers. Dsg1 loss-of-function mutations in humans result in skin lesions and multiple allergies, and isolated patient keratinocytes exhibit increased proallergic cytokine expression. However, the mechanism by which genetic deficiency of Dsg1 causes chronic inflammation is unknown. To determine the systemic response to Dsg1 loss, we deleted the 3 tandem Dsg1 genes in mice. Whole transcriptome analysis of embryonic Dsg1–/– skin showed a delay in expression of adhesion/differentiation/ keratinization genes at E17.5, a subset of which recovered or increased by E18.5. Comparing epidermal transcriptomes from Dsg1-deficient mice and humans revealed a shared IL-17–skewed inflammatory signature. Although the impaired intercellular adhesion observed in Dsg1–/– mice resembles that resulting from anti-Dsg1 pemphigus foliaceus antibodies, pemphigus skin lesions exhibit a weaker IL-17 signature. Consistent with the clinical importance of these findings, treatment of 2 Dsg1-deficient patients with an IL-12/IL-23 antagonist originally developed for psoriasis resulted in improvement of skin lesions. Thus, beyond impairing the physical barrier, loss of Dsg1 function through gene mutation results in a psoriatic-like inflammatory signature before birth, and treatment with a targeted therapy significantly improved skin lesions in patients.

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JO - Journal of Clinical Investigation

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Translational implications of Th17-skewed inflammation due to genetic deficiency of a cadherin stress sensor

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