UV-induced reduction in Polycomb repression promotes epidermal pigmentation

Meng Yen Li; Pooja Flora; Hong Pu; Carmit Bar; Jose Silva; Idan Cohen; Phillip M. Galbo; Hequn Liu; Xufen Yu; Jian Jin; Haruhiko Koseki; John A. D'Orazio; Deyou Zheng; Elena Ezhkova

doi:10.1016/j.devcel.2021.08.006

UV-induced reduction in Polycomb repression promotes epidermal pigmentation

Meng Yen Li, Pooja Flora, Hong Pu, Carmit Bar, Jose Silva, Idan Cohen, Phillip M. Galbo, Hequn Liu, Xufen Yu, Jian Jin, Haruhiko Koseki, John A. D'Orazio, Deyou Zheng, Elena Ezhkova

Neurology

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

9 Scopus citations

Abstract

Ultraviolet (UV) radiation is a prime environmental stressor that our epidermis is exposed to on a daily basis. To avert UV-induced damage, epidermal stem cells (EpSCs) become pigmented via a process of heterotypic interaction between melanocytes and EpSCs; however, the molecular mechanisms of this interaction are not well understood. In this study, we show that the function of a key chromatin regulator, the Polycomb complex, was reduced upon UV exposure in human and mouse epidermis. Genetic ablation of key Polycomb subunits in murine EpSCs, mimicking depletion upon UV exposure, results in an increased number of epidermal melanocytes and subsequent epidermal pigmentation. Genome-wide transcriptional and chromatin studies show that Polycomb regulates the expression of UV-responsive genes and identifies type II collagen (COL2A1) as a critical secreted regulator of melanogenesis and epidermal pigmentation. Together, our findings show how UV exposure induces Polycomb-mediated changes in EpSCs to affect melanocyte behavior and promote epidermal pigmentation.

Original language	English (US)
Pages (from-to)	2547-2561.e8
Journal	Developmental cell
Volume	56
Issue number	18
DOIs	https://doi.org/10.1016/j.devcel.2021.08.006
State	Published - Sep 27 2021

Keywords

Polycomb
UV
epidermis
melanocyte
pigmentation
stem cell
type II collagen

ASJC Scopus subject areas

Molecular Biology
Biochemistry, Genetics and Molecular Biology(all)
Developmental Biology
Cell Biology

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10.1016/j.devcel.2021.08.006

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@article{93be9a85b24a4f72b031f617290a0a21,

title = "UV-induced reduction in Polycomb repression promotes epidermal pigmentation",

abstract = "Ultraviolet (UV) radiation is a prime environmental stressor that our epidermis is exposed to on a daily basis. To avert UV-induced damage, epidermal stem cells (EpSCs) become pigmented via a process of heterotypic interaction between melanocytes and EpSCs; however, the molecular mechanisms of this interaction are not well understood. In this study, we show that the function of a key chromatin regulator, the Polycomb complex, was reduced upon UV exposure in human and mouse epidermis. Genetic ablation of key Polycomb subunits in murine EpSCs, mimicking depletion upon UV exposure, results in an increased number of epidermal melanocytes and subsequent epidermal pigmentation. Genome-wide transcriptional and chromatin studies show that Polycomb regulates the expression of UV-responsive genes and identifies type II collagen (COL2A1) as a critical secreted regulator of melanogenesis and epidermal pigmentation. Together, our findings show how UV exposure induces Polycomb-mediated changes in EpSCs to affect melanocyte behavior and promote epidermal pigmentation.",

keywords = "Polycomb, UV, epidermis, melanocyte, pigmentation, stem cell, type II collagen",

author = "Li, {Meng Yen} and Pooja Flora and Hong Pu and Carmit Bar and Jose Silva and Idan Cohen and Galbo, {Phillip M.} and Hequn Liu and Xufen Yu and Jian Jin and Haruhiko Koseki and D'Orazio, {John A.} and Deyou Zheng and Elena Ezhkova",

note = "Funding Information: We thank Sergei Ezhkov and all Ezhkova lab members for their help and critical suggestions. We thank Dr. Miguel Vidal for the Ring1a-null and Ring1b-floxed mice, Drs. Weipeng Mu and Terry Magnuson for the Eed-floxed mice, and Dr. Tudorita Tumbar for the K14-CreERT2 mice. We thank Dr. Emily Bernstein for B16F0 cells and Penn SBDRC for human skin samples. We also thank the Flow Cytometry Core, the Electron Microscopy Facility, and the Tisch Cancer Center sequencing facility at the ISMMS. The research reported here was supported by the National Institutes of Health under award numbers R01AR069078 (to E.E.), R01HL148128 and R01HL153920 (to D. Zheng), R01GM122749 and P30CA196521 (to J.J.), an endowed professorship from the ISMMS (to J.J.), the Tisch Cancer Institute P30 Cancer Support Grant (to E.E.), and the NYSTEM Institutional Training program C32561GG (to P.F.). M.-Y.L. and E.E. conceived and designed the experiments. M.-Y.L. P.F. and I.C. performed the experiments. M.-Y.L. E.E. H.L. P.M.G.Jr. and D.Z. performed the bioinformatic analyses. H.K. provided the Ring1a-null and Ring1b-floxed mice. J.S. provided the lentiviral overexpression constructs. W.A.B. provided the Ring1b I53A mice. M.-Y.L. P.M.G.Jr. C.B. I.C. J.S. D.Z. and E.E. analyzed the data. H.P. and J.A.D. performed UVB irradiation experiments on mice and provided skins. M.-Y.L. P.F. and E.E. wrote the manuscript with input from all other authors. The Jin laboratory received research funds from Celgene Corporation, Levo Therapeutics, and Cullgen. J.J. is a cofounder, equity shareholder, and consultant of Cullgen. Funding Information: We thank Sergei Ezhkov and all Ezhkova lab members for their help and critical suggestions. We thank Dr. Miguel Vidal for the Ring1a-null and Ring1b-floxed mice, Drs. Weipeng Mu and Terry Magnuson for the Eed-floxed mice, and Dr. Tudorita Tumbar for the K14-CreERT2 mice. We thank Dr. Emily Bernstein for B16F0 cells and Penn SBDRC for human skin samples. We also thank the Flow Cytometry Core, the Electron Microscopy Facility, and the Tisch Cancer Center sequencing facility at the ISMMS. The research reported here was supported by the National Institutes of Health under award numbers R01AR069078 (to E.E.), R01HL148128 and R01HL153920 (to D. Zheng), R01GM122749 and P30CA196521 (to J.J.), an endowed professorship from the ISMMS (to J.J.), the Tisch Cancer Institute P30 Cancer Support Grant (to E.E.), and the NYSTEM Institutional Training program C32561GG (to P.F.). Publisher Copyright: {\textcopyright} 2021 Elsevier Inc.",

year = "2021",

month = sep,

day = "27",

doi = "10.1016/j.devcel.2021.08.006",

language = "English (US)",

volume = "56",

pages = "2547--2561.e8",

journal = "Developmental cell",

issn = "1534-5807",

publisher = "Cell Press",

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TY - JOUR

T1 - UV-induced reduction in Polycomb repression promotes epidermal pigmentation

AU - Li, Meng Yen

AU - Flora, Pooja

AU - Pu, Hong

AU - Bar, Carmit

AU - Silva, Jose

AU - Cohen, Idan

AU - Galbo, Phillip M.

AU - Liu, Hequn

AU - Yu, Xufen

AU - Jin, Jian

AU - Koseki, Haruhiko

AU - D'Orazio, John A.

AU - Zheng, Deyou

AU - Ezhkova, Elena

N1 - Funding Information: We thank Sergei Ezhkov and all Ezhkova lab members for their help and critical suggestions. We thank Dr. Miguel Vidal for the Ring1a-null and Ring1b-floxed mice, Drs. Weipeng Mu and Terry Magnuson for the Eed-floxed mice, and Dr. Tudorita Tumbar for the K14-CreERT2 mice. We thank Dr. Emily Bernstein for B16F0 cells and Penn SBDRC for human skin samples. We also thank the Flow Cytometry Core, the Electron Microscopy Facility, and the Tisch Cancer Center sequencing facility at the ISMMS. The research reported here was supported by the National Institutes of Health under award numbers R01AR069078 (to E.E.), R01HL148128 and R01HL153920 (to D. Zheng), R01GM122749 and P30CA196521 (to J.J.), an endowed professorship from the ISMMS (to J.J.), the Tisch Cancer Institute P30 Cancer Support Grant (to E.E.), and the NYSTEM Institutional Training program C32561GG (to P.F.). M.-Y.L. and E.E. conceived and designed the experiments. M.-Y.L. P.F. and I.C. performed the experiments. M.-Y.L. E.E. H.L. P.M.G.Jr. and D.Z. performed the bioinformatic analyses. H.K. provided the Ring1a-null and Ring1b-floxed mice. J.S. provided the lentiviral overexpression constructs. W.A.B. provided the Ring1b I53A mice. M.-Y.L. P.M.G.Jr. C.B. I.C. J.S. D.Z. and E.E. analyzed the data. H.P. and J.A.D. performed UVB irradiation experiments on mice and provided skins. M.-Y.L. P.F. and E.E. wrote the manuscript with input from all other authors. The Jin laboratory received research funds from Celgene Corporation, Levo Therapeutics, and Cullgen. J.J. is a cofounder, equity shareholder, and consultant of Cullgen. Funding Information: We thank Sergei Ezhkov and all Ezhkova lab members for their help and critical suggestions. We thank Dr. Miguel Vidal for the Ring1a-null and Ring1b-floxed mice, Drs. Weipeng Mu and Terry Magnuson for the Eed-floxed mice, and Dr. Tudorita Tumbar for the K14-CreERT2 mice. We thank Dr. Emily Bernstein for B16F0 cells and Penn SBDRC for human skin samples. We also thank the Flow Cytometry Core, the Electron Microscopy Facility, and the Tisch Cancer Center sequencing facility at the ISMMS. The research reported here was supported by the National Institutes of Health under award numbers R01AR069078 (to E.E.), R01HL148128 and R01HL153920 (to D. Zheng), R01GM122749 and P30CA196521 (to J.J.), an endowed professorship from the ISMMS (to J.J.), the Tisch Cancer Institute P30 Cancer Support Grant (to E.E.), and the NYSTEM Institutional Training program C32561GG (to P.F.). Publisher Copyright: © 2021 Elsevier Inc.

PY - 2021/9/27

Y1 - 2021/9/27

N2 - Ultraviolet (UV) radiation is a prime environmental stressor that our epidermis is exposed to on a daily basis. To avert UV-induced damage, epidermal stem cells (EpSCs) become pigmented via a process of heterotypic interaction between melanocytes and EpSCs; however, the molecular mechanisms of this interaction are not well understood. In this study, we show that the function of a key chromatin regulator, the Polycomb complex, was reduced upon UV exposure in human and mouse epidermis. Genetic ablation of key Polycomb subunits in murine EpSCs, mimicking depletion upon UV exposure, results in an increased number of epidermal melanocytes and subsequent epidermal pigmentation. Genome-wide transcriptional and chromatin studies show that Polycomb regulates the expression of UV-responsive genes and identifies type II collagen (COL2A1) as a critical secreted regulator of melanogenesis and epidermal pigmentation. Together, our findings show how UV exposure induces Polycomb-mediated changes in EpSCs to affect melanocyte behavior and promote epidermal pigmentation.

AB - Ultraviolet (UV) radiation is a prime environmental stressor that our epidermis is exposed to on a daily basis. To avert UV-induced damage, epidermal stem cells (EpSCs) become pigmented via a process of heterotypic interaction between melanocytes and EpSCs; however, the molecular mechanisms of this interaction are not well understood. In this study, we show that the function of a key chromatin regulator, the Polycomb complex, was reduced upon UV exposure in human and mouse epidermis. Genetic ablation of key Polycomb subunits in murine EpSCs, mimicking depletion upon UV exposure, results in an increased number of epidermal melanocytes and subsequent epidermal pigmentation. Genome-wide transcriptional and chromatin studies show that Polycomb regulates the expression of UV-responsive genes and identifies type II collagen (COL2A1) as a critical secreted regulator of melanogenesis and epidermal pigmentation. Together, our findings show how UV exposure induces Polycomb-mediated changes in EpSCs to affect melanocyte behavior and promote epidermal pigmentation.

KW - Polycomb

KW - UV

KW - epidermis

KW - melanocyte

KW - pigmentation

KW - stem cell

KW - type II collagen

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U2 - 10.1016/j.devcel.2021.08.006

DO - 10.1016/j.devcel.2021.08.006

M3 - Article

C2 - 34473941

AN - SCOPUS:85115395020

SN - 1534-5807

VL - 56

SP - 2547-2561.e8

JO - Developmental cell

JF - Developmental cell

IS - 18

ER -

UV-induced reduction in Polycomb repression promotes epidermal pigmentation

Abstract

Keywords

ASJC Scopus subject areas

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