Title | Pioneer factors govern super-enhancer dynamics in stem cell plasticity and lineage choice. |
Publication Type | Journal Article |
Year of Publication | 2015 |
Authors | Adam RC, Yang H, Rockowitz S, Larsen SB, Nikolova M, Oristian DS, Polak L, Kadaja M, Asare A, Zheng D, Fuchs E |
Journal | Nature |
Volume | 521 |
Issue | 7552 |
Pagination | 366-70 |
Date Published | 2015 May 21 |
ISSN | 1476-4687 |
Keywords | Adaptation, Physiological, Adult Stem Cells, Animals, Base Sequence, Cell Differentiation, Cell Lineage, Chromatin, Enhancer Elements, Genetic, Female, Hair Follicle, Mice, Organ Specificity, SOX9 Transcription Factor, Stem Cell Niche, Time Factors |
Abstract | Adult stem cells occur in niches that balance self-renewal with lineage selection and progression during tissue homeostasis. Following injury, culture or transplantation, stem cells outside their niche often display fate flexibility. Here we show that super-enhancers underlie the identity, lineage commitment and plasticity of adult stem cells in vivo. Using hair follicle as a model, we map the global chromatin domains of hair follicle stem cells and their committed progenitors in their native microenvironments. We show that super-enhancers and their dense clusters ('epicentres') of transcription factor binding sites undergo remodelling upon lineage progression. New fate is acquired by decommissioning old and establishing new super-enhancers and/or epicentres, an auto-regulatory process that abates one master regulator subset while enhancing another. We further show that when outside their niche, either in vitro or in wound-repair, hair follicle stem cells dynamically remodel super-enhancers in response to changes in their microenvironment. Intriguingly, some key super-enhancers shift epicentres, enabling their genes to remain active and maintain a transitional state in an ever-changing transcriptional landscape. Finally, we identify SOX9 as a crucial chromatin rheostat of hair follicle stem cell super-enhancers, and provide functional evidence that super-enhancers are dynamic, dense transcription-factor-binding platforms which are acutely sensitive to pioneer master regulators whose levels define not only spatial and temporal features of lineage-status but also stemness, plasticity in transitional states and differentiation. |
DOI | 10.1038/nature14289 |
Alternate Journal | Nature |
PubMed ID | 25799994 |
PubMed Central ID | PMC4482136 |
Grant List | T32 GM066699 / GM / NIGMS NIH HHS / United States R01-AR31737 / AR / NIAMS NIH HHS / United States R21 MH099452 / MH / NIMH NIH HHS / United States R21MH099452 / MH / NIMH NIH HHS / United States R01 AR031737 / AR / NIAMS NIH HHS / United States / / Howard Hughes Medical Institute / United States T32 GM007739 / GM / NIGMS NIH HHS / United States |
Submitted by kej2006 on June 6, 2018 - 4:09pm