Searched for: person:itom02
CD133 Expression Correlates with Membrane Beta-Catenin and E-Cadherin Loss from Human Hair Follicle Placodes during Morphogenesis
Gay, Denise L; Yang, Chao-Chun; Plikus, Maksim V; Ito, Mayumi; Rivera, Charlotte; Treffeisen, Elsa; Doherty, Laura; Spata, Michelle; Millar, Sarah E; Cotsarelis, George
Genetic studies suggest that the major events of human hair follicle development are similar to those in mice, but detailed analyses of this process are lacking. In mice, hair follicle placode "budding" is initiated by invagination of Wnt-induced epithelium into the underlying mesenchyme. Modification of adherens junctions (AJs) is clearly required for budding. Snail-mediated downregulation of AJ component E-cadherin is important for placode budding in mice. Beta-catenin, another AJ component, has been more difficult to study owing to its essential functions in Wnt signaling, a prerequisite for hair follicle placode induction. Here, we show that a subset of human invaginating hair placode cells expresses the stem cell marker CD133 during early morphogenesis. CD133 associates with membrane beta-catenin in early placodes, and its continued expression correlates with loss of beta-catenin and E-cadherin from the cell membrane at a time when E-cadherin transcriptional repressors Snail and Slug are not implicated. Stabilization of CD133 via anti-CD133 antibody treatment of human fetal scalp explants depresses beta-catenin and E-cadherin membrane localization. We discuss this unique correlation and suggest a hypothetical model whereby CD133 promotes morphogenesis in early hair follicle placodes through the localized removal of membrane beta-catenin proteins and subsequent AJ dissolution.
PMCID:4465595
PMID: 25010141
ISSN: 0022-202x
CID: 1418922
Distinct Functions for Wnt/beta-Catenin in Hair Follicle Stem Cell Proliferation and Survival and Interfollicular Epidermal Homeostasis
Choi, Yeon Sook; Zhang, Yuhang; Xu, Mingang; Yang, Yongguang; Ito, Mayumi; Peng, Tien; Cui, Zheng; Nagy, Andras; Hadjantonakis, Anna-Katerina; Lang, Richard A; Cotsarelis, George; Andl, Thomas; Morrisey, Edward E; Millar, Sarah E
Wnt/beta-catenin signaling is a central regulator of adult stem cells. Variable sensitivity of Wnt reporter transgenes, beta-catenin's dual roles in adhesion and signaling, and hair follicle degradation and inflammation resulting from broad deletion of epithelial beta-catenin have precluded clear understanding of Wnt/beta-catenin's functions in adult skin stem cells. By inducibly deleting beta-catenin globally in skin epithelia, only in hair follicle stem cells, or only in interfollicular epidermis and comparing the phenotypes with those caused by ectopic expression of the Wnt/beta-catenin inhibitor Dkk1, we show that this pathway is necessary for hair follicle stem cell proliferation. However, beta-catenin is not required within hair follicle stem cells for their maintenance, and follicles resume proliferating after ectopic Dkk1 has been removed, indicating persistence of functional progenitors. We further unexpectedly discovered a broader role for Wnt/beta-catenin signaling in contributing to progenitor cell proliferation in nonhairy epithelia and interfollicular epidermis under homeostatic, but not inflammatory, conditions.
PMCID:3900235
PMID: 24315444
ISSN: 1875-9777
CID: 712272
Wnt activation in nail epithelium couples nail growth to digit regeneration
Takeo, Makoto; Chou, Wei Chin; Sun, Qi; Lee, Wendy; Rabbani, Piul; Loomis, Cynthia; Taketo, M Mark; Ito, Mayumi
The tips of mammalian digits can regenerate after amputation, like those of amphibians. It is unknown why this capacity is limited to the area associated with the nail. Here we show that nail stem cells (NSCs) reside in the proximal nail matrix and that the mechanisms governing NSC differentiation are coupled directly with their ability to orchestrate digit regeneration. Early nail progenitors undergo Wnt-dependent differentiation into the nail. After amputation, this Wnt activation is required for nail regeneration and also for attracting nerves that promote mesenchymal blastema growth, leading to the regeneration of the digit. Amputations proximal to the Wnt-active nail progenitors result in failure to regenerate the nail or digit. Nevertheless, beta-catenin stabilization in the NSC region induced their regeneration. These results establish a link between NSC differentiation and digit regeneration, and suggest that NSCs may have the potential to contribute to the development of novel treatments for amputees.
PMCID:3936678
PMID: 23760480
ISSN: 0028-0836
CID: 426072
Fgf9 from dermal gammadelta T cells induces hair follicle neogenesis after wounding
Gay, Denise; Kwon, Ohsang; Zhang, Zhikun; Spata, Michelle; Plikus, Maksim V; Holler, Phillip D; Ito, Mayumi; Yang, Zaixin; Treffeisen, Elsa; Kim, Chang D; Nace, Arben; Zhang, Xiaohong; Baratono, Sheena; Wang, Fen; Ornitz, David M; Millar, Sarah E; Cotsarelis, George
Understanding molecular mechanisms for regeneration of hair follicles provides new opportunities for developing treatments for hair loss and other skin disorders. Here we show that fibroblast growth factor 9 (Fgf9), initially secreted by gammadelta T cells, modulates hair follicle regeneration after wounding the skin of adult mice. Reducing Fgf9 expression decreases this wound-induced hair neogenesis (WIHN). Conversely, overexpression of Fgf9 results in a two- to threefold increase in the number of neogenic hair follicles. We found that Fgf9 from gammadelta T cells triggers Wnt expression and subsequent Wnt activation in wound fibroblasts. Through a unique feedback mechanism, activated fibroblasts then express Fgf9, thus amplifying Wnt activity throughout the wound dermis during a crucial phase of skin regeneration. Notably, humans lack a robust population of resident dermal gammadelta T cells, potentially explaining their inability to regenerate hair after wounding. These findings highlight the essential relationship between the immune system and tissue regeneration. The importance of Fgf9 in hair follicle regeneration suggests that it could be used therapeutically in humans.
PMCID:4054871
PMID: 23727932
ISSN: 1078-8956
CID: 426062
Direct migration of follicular melanocyte stem cells to the epidermis after wounding or UVB irradiation is dependent on Mc1r signaling
Chou, Wei Chin; Takeo, Makoto; Rabbani, Piul; Hu, Hai; Lee, Wendy; Chung, Young Rock; Carucci, John; Overbeek, Paul; Ito, Mayumi
During wound healing, stem cells provide functional mature cells to meet acute demands for tissue regeneration. Simultaneously, the tissue must maintain a pool of stem cells to sustain its future regeneration capability. However, how these requirements are balanced in response to injury is unknown. Here we demonstrate that after wounding or ultraviolet type B irradiation, melanocyte stem cells (McSCs) in the hair follicle exit the stem cell niche before their initial cell division, potentially depleting the pool of these cells. We also found that McSCs migrate to the epidermis in a melanocortin 1 receptor (Mc1r)-dependent manner and differentiate into functional epidermal melanocytes, providing a pigmented protective barrier against ultraviolet irradiation over the damaged skin. These findings provide an example in which stem cell differentiation due to injury takes precedence over stem cell maintenance and show the potential for developing therapies for skin pigmentation disorders by manipulating McSCs.
PMCID:3859297
PMID: 23749232
ISSN: 1078-8956
CID: 425372
Epithelial wnt ligand secretion is required for adult hair follicle growth and regeneration
Myung, Peggy S; Takeo, Makoto; Ito, Mayumi; Atit, Radhika P
beta-Catenin, a key transducer molecule of Wnt signaling, is required for adult hair follicle growth and regeneration. However, the cellular source of Wnt ligands required for Wnt/beta-catenin activation during anagen induction is unknown. In this study, we genetically deleted Wntless (Wls), a gene required for Wnt ligand secretion by Wnt-producing cells, specifically in the hair follicle epithelium during telogen phase. We show that epithelial Wnt ligands are required for anagen, as loss of Wls in the follicular epithelium resulted in a profound hair cycle arrest. Both the follicular epithelium and dermal papilla showed markedly decreased Wnt/beta-catenin signaling during anagen induction compared with control hair follicles. Surprisingly, hair follicle stem cells that are responsible for hair regeneration maintained expression of stem cell markers but exhibited significantly reduced proliferation. Finally, we demonstrate that epidermal Wnt ligands are critical for adult wound-induced de novo hair formation. Collectively, these data show that Wnt ligands secreted by the hair follicle epithelium are required for adult hair follicle regeneration and provide new insight into potential cellular targets for the treatment of hair disorders such as alopecia.
PMCID:3479363
PMID: 22810306
ISSN: 0022-202x
CID: 214562
Epidermal Wnt ligands are required for adult hair follicle regeneration [Meeting Abstract]
Myung, P; Takeo, M; Ito, M; Atit, R
ISI:000302866900805
ISSN: 0022-202x
CID: 2781842
Dissecting the bulge in hair regeneration
Myung, Peggy; Ito, Mayumi
The adult hair follicle houses stem cells that govern the cyclical growth and differentiation of multiple cell types that collectively produce a pigmented hair. Recent studies have revealed that hair follicle stem cells are heterogeneous and dynamic throughout the hair cycle. Moreover, interactions between heterologous stem cells, including both epithelial and melanocyte stem cells, within the hair follicle are just now being explored. This review will describe how recent findings have expanded our understanding of the development, organization, and regeneration of hair follicle stem cells. At a basic level, this review is intended to help construct a reference point to integrate the surge of studies on the molecular mechanisms that regulate these cells.
PMCID:3266778
PMID: 22293183
ISSN: 0021-9738
CID: 157655
Removal of lead compounds from polyvinylchloride in electric wires and cables using cation-exchange resin
Tsunekawa, Masami; Ito, Mayumi; Yuta, Sasaki; Tomoo, Sakai; Hiroyoshi, Naoki
Recycling treatment of cable insulation resin generated from electric wires and cables was investigated. Conventional insulation PVC contains a lead component, tribase, as a thermal stabilizer and lead removal is necessary to recycle this PVC as insulation resin. This paper describes a solid surface adsorption method using ion exchange resin to remove the fine lead containing particles from PVC dissolved solution. Low lead concentration in the recovered PVC, complying with the requirements of RoHS, was achieved
PMID: 21600692
ISSN: 1873-3336
CID: 137830
Coordinated activation of wnt in epithelial and melanocyte stem cells initiates pigmented hair regeneration
Rabbani, Piul; Takeo, Makoto; Chou, Weichin; Myung, Peggy; Bosenberg, Marcus; Chin, Lynda; Taketo, M Mark; Ito, Mayumi
Melanocyte stem cells (McSCs) intimately interact with epithelial stem cells (EpSCs) in the hair follicle bulge and secondary hair germ (sHG). Together, they undergo activation and differentiation to regenerate pigmented hair. However, the mechanisms behind this coordinated stem cell behavior have not been elucidated. Here, we identified Wnt signaling as a key pathway that couples the behavior of the two stem cells. EpSCs and McSCs coordinately activate Wnt signaling at the onset of hair follicle regeneration within the sHG. Using genetic mouse models that specifically target either EpSCs or McSCs, we show that Wnt activation in McSCs drives their differentiation into pigment-producing melanocytes, while EpSC Wnt signaling not only dictates hair follicle formation but also regulates McSC proliferation during hair regeneration. Our data define a role for Wnt signaling in the regulation of McSCs and also illustrate a mechanism for regeneration of complex organs through collaboration between heterotypic stem cell populations. PAPERFLICK:
PMCID:3962257
PMID: 21663796
ISSN: 1097-4172
CID: 134458