Stem Cell Lineage Infidelity Drives Wound Repair and Cancer

Ge, Yejing; Gomez, Nicholas C.; Adam, René; Nikolova, Maria; Yang, Hanseul; Verma, Akanksha; Lu, Catherine P.; Polak, Lisa; Yuan, Shaopeng; Elemento, Olivier; Fuchs, Elaine

doi:10.1016/j.cell.2017.03.042

Cited by 267 publications

(308 citation statements)

References 64 publications

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“…Genetic alterations that mobilize SCs more rapidly are often associated not only with accelerated wound repair, but also increased cancer susceptibility 30 . Indeed, individuals with gain-of-function mutations in inflammasome components can show increased risk of epidermal cancers 31, 32 .…”

Section: Discussionmentioning

confidence: 99%

Inflammatory memory sensitizes skin epithelial stem cells to tissue damage

Naik

Larsen

Gomez

et al. 2017

Nature

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470

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Summary The body’s first line of defense against environmental assaults, the skin barrier is maintained by epithelial stem cells (EpSCs). Despite EpSCs’ vulnerability to inflammatory pressures, neither the primary response nor its enduring consequences are understood. Here, we unearth a prolonged memory to acute inflammation that enables EpSCs to hasten barrier restoration following subsequent tissue damage. This functional adaptation does not require skin resident macrophages or T cells. Rather, EpSCs maintain chromosomal accessibility at key stress response genes that are activated by the primary stimulus. Upon a secondary challenge, genes governed by these domains are transcribed rapidly. Fueling this memory is Aim2, encoding an activator of the inflammasome. Absence of AIM2 or its downstream effectors, Caspase-1 and Interleukin-1β, erases EpSCs’ ability to recollect inflammation. While EpSCs benefit from inflammatory tuning by heightening their responsiveness to subsequent stressors, this enhanced sensitivity likely increases their susceptibility to autoimmune and hyperproliferative disorders, including cancer.

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Section: Discussionmentioning

confidence: 99%

Inflammatory memory sensitizes skin epithelial stem cells to tissue damage

Naik

Larsen

Gomez

et al. 2017

Nature

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470

418

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“…In this view, the versatility of a stem cell in a wound response may then simply be a reflection of changes in this environment. When stem cells are removed from their native context, either in a wound response or in culture, they then must adjust their chromatin dynamics and change their program of gene expression in order to survive in their new environment (Adam et al, 2015; Ge et al, 2017). Given that not all epigenetic adjustments are rapid, this could account for why aging keratinocytes in vitro are initially readily distinguishable from their younger counterparts, but with time and passage in culture, these differences wane (Keyes et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

“…Integrins α5β1 cluster at the leading edge of the keratinocyte, where they participate in polarizing cell shape and cytoskeletal movements needed for effective epithelial migration and fibronectin assembly (Aragona et al, 2017; Coles et al, 2006; Heller et al, 2014; Qiao et al, 2014). Finally, RNA-seq analyses of microdissected tissue in the migrating zone suggests that a number of metalloproteinases are expressed, where they likely function in the ECM remodeling that takes place in the wound repair process (Aragona et al, 2017; Ge et al, 2017; Hattori et al, 2009; Okada et al, 1997; Stevens and Page-McCaw, 2012). …”

Section: Contribution and Dynamics Of Skin Stem Cells During Homeostamentioning

confidence: 99%

“…However, following injury, when the systemic and local environments change dramatically, these stem cell populations display remarkable plasticity (Adam et al, 2015; Ge et al, 2017). Indeed, even if their own niche is not perturbed, nearby stem cells respond to wound-induced stimuli by exiting their niche and participating in re-epithelializing damaged tissue (Horsley et al, 2006; Ito et al, 2005; Jensen et al, 2009; Levy et al, 2005; Lu et al, 2012; Nowak et al, 2008; Page et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

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Skin and Its Regenerative Powers: An Alliance between Stem Cells and Their Niche

2017

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Tissues have a natural capacity to replace dying cells and to heal wounds. This ability resides in resident stem cells, which self-renew, preserve, and repair their tissue during homeostasis and following injury. The skin epidermis and its appendages are subjected to daily assaults from the external environment. A high demand is placed on renewal and regeneration of the skin’s barrier in order to protect the body from infection and dehydration and to heal wounds. This review focuses on the epithelial stem cells of skin, where they come from, where they reside, and how they function in normal homeostasis and wound repair.

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“…Besides that, injured and cancer tissues have similar gene signatures. It was recently shown that SC lineages acquire plasticity that enables their activation, which is facilitated by SOX9 and KLF5 transcription factors in both phenomena: wound healing and tumorigenesis (58).…”

Section: Skin Carcinogenesis In Nude Mouse Modelmentioning

confidence: 99%

FOXN1 Transcription Factor in Epithelial Growth and Wound Healing

Grabowska

Wilanowski

2017

Molecular and Cellular Biology

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FOXN1 is a prodifferentiation transcription factor in the skin epithelium. Recently, it has also emerged as an important player in controlling the skin wound healing process, as it actively participates in reepithelialization and is thought to be responsible for scar formation. FOXN1 positivity is also a feature of pigmented keratinocytes, including nevi, and FOXN1 is an attribute of benign epithelial tumors. The lack of FOXN1 favors the skin regeneration process displayed by nude mice, pointing to FOXN1 as a switch between regeneration and reparative processes. The stem cell niche provides a functional source of cells after the loss of tissue following wounding. The involvement of prodifferentiation factors in the regulation of this pool of stem cells is suggested. However, the exact mechanism is still under question, and we speculate that the FOXN1 transcription factor is involved in this process. This review analyzes the pleiotropic effects of FOXN1 in the skin, its function in the tumorigenesis process, and its potential role in depletion of the stem cell niche after injury, as well as its suggested mechanistic role, acting in a cell-autonomous and a non-cell-autonomous manner during skin self-renewal.

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Stem Cell Lineage Infidelity Drives Wound Repair and Cancer

Cited by 267 publications

References 64 publications

Inflammatory memory sensitizes skin epithelial stem cells to tissue damage

Inflammatory memory sensitizes skin epithelial stem cells to tissue damage

Skin and Its Regenerative Powers: An Alliance between Stem Cells and Their Niche

FOXN1 Transcription Factor in Epithelial Growth and Wound Healing

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