Stem cells expand potency and alter tissue fitness by accumulating diverse epigenetic memories

Kevin Andrew Uy Gonzales; Lisa Polak; Irina Matos; Matthew T. Tierney; Anita Gola; Ellen Wong; Nicole R. Infarinato; Maria Nikolova; Shijing Luo; Siqi Liu; Jesse S.S. Novak; Kenneth Lay; Hilda Amalia Pasolli; Elaine Fuchs

doi:10.1126/science.abh2444

Stem cells expand potency and alter tissue fitness by accumulating diverse epigenetic memories

Kevin Andrew Uy Gonzales, Lisa Polak, Irina Matos, Matthew T. Tierney, Anita Gola, Ellen Wong, Nicole R. Infarinato, Maria Nikolova, Shijing Luo, Siqi Liu, Jesse S.S. Novak, Kenneth Lay, Hilda Amalia Pasolli, Elaine Fuchs

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

50 Scopus citations

Abstract

Immune and tissue stem cells retain an epigenetic memory of inflammation that intensifies sensitivity to future encounters. We investigated whether and to what consequence stem cells possess and accumulate memories of diverse experiences. Monitoring a choreographed response to wounds, we found that as hair follicle stem cells leave their niche, migrate to repair damaged epidermis, and take up long-term foreign residence there, they accumulate long-lasting epigenetic memories of each experience, culminating in post-repair epigenetic adaptations that sustain the epidermal transcriptional program and surface barrier. Each memory is distinct, separable, and has its own physiological impact, collectively endowing these stem cells with heightened regenerative ability to heal wounds and broadening their tissue-regenerating tasks relative to their naïve counterparts.

Original language	English (US)
Article number	eabh2444
Journal	Science
Volume	374
Issue number	6571
DOIs	https://doi.org/10.1126/science.abh2444
State	Published - Nov 26 2021
Externally published	Yes

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title = "Stem cells expand potency and alter tissue fitness by accumulating diverse epigenetic memories",

abstract = "Immune and tissue stem cells retain an epigenetic memory of inflammation that intensifies sensitivity to future encounters. We investigated whether and to what consequence stem cells possess and accumulate memories of diverse experiences. Monitoring a choreographed response to wounds, we found that as hair follicle stem cells leave their niche, migrate to repair damaged epidermis, and take up long-term foreign residence there, they accumulate long-lasting epigenetic memories of each experience, culminating in post-repair epigenetic adaptations that sustain the epidermal transcriptional program and surface barrier. Each memory is distinct, separable, and has its own physiological impact, collectively endowing these stem cells with heightened regenerative ability to heal wounds and broadening their tissue-regenerating tasks relative to their na{\"i}ve counterparts.",

author = "Gonzales, {Kevin Andrew Uy} and Lisa Polak and Irina Matos and Tierney, {Matthew T.} and Anita Gola and Ellen Wong and Infarinato, {Nicole R.} and Maria Nikolova and Shijing Luo and Siqi Liu and Novak, {Jesse S.S.} and Kenneth Lay and Pasolli, {Hilda Amalia} and Elaine Fuchs",

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doi = "10.1126/science.abh2444",

language = "English (US)",

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T1 - Stem cells expand potency and alter tissue fitness by accumulating diverse epigenetic memories

AU - Gonzales, Kevin Andrew Uy

AU - Polak, Lisa

AU - Matos, Irina

AU - Tierney, Matthew T.

AU - Gola, Anita

AU - Wong, Ellen

AU - Infarinato, Nicole R.

AU - Nikolova, Maria

AU - Luo, Shijing

AU - Liu, Siqi

AU - Novak, Jesse S.S.

AU - Lay, Kenneth

AU - Pasolli, Hilda Amalia

AU - Fuchs, Elaine

PY - 2021/11/26

Y1 - 2021/11/26

N2 - Immune and tissue stem cells retain an epigenetic memory of inflammation that intensifies sensitivity to future encounters. We investigated whether and to what consequence stem cells possess and accumulate memories of diverse experiences. Monitoring a choreographed response to wounds, we found that as hair follicle stem cells leave their niche, migrate to repair damaged epidermis, and take up long-term foreign residence there, they accumulate long-lasting epigenetic memories of each experience, culminating in post-repair epigenetic adaptations that sustain the epidermal transcriptional program and surface barrier. Each memory is distinct, separable, and has its own physiological impact, collectively endowing these stem cells with heightened regenerative ability to heal wounds and broadening their tissue-regenerating tasks relative to their naïve counterparts.

AB - Immune and tissue stem cells retain an epigenetic memory of inflammation that intensifies sensitivity to future encounters. We investigated whether and to what consequence stem cells possess and accumulate memories of diverse experiences. Monitoring a choreographed response to wounds, we found that as hair follicle stem cells leave their niche, migrate to repair damaged epidermis, and take up long-term foreign residence there, they accumulate long-lasting epigenetic memories of each experience, culminating in post-repair epigenetic adaptations that sustain the epidermal transcriptional program and surface barrier. Each memory is distinct, separable, and has its own physiological impact, collectively endowing these stem cells with heightened regenerative ability to heal wounds and broadening their tissue-regenerating tasks relative to their naïve counterparts.

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Stem cells expand potency and alter tissue fitness by accumulating diverse epigenetic memories

Abstract

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