TROY, a newly identified member of the tumor necrosis factor receptor superfamily, exhibits a homology with Edar and is expressed in embryonic skin and hair follicles.
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In a signal sequence trap screening of the murine brain, we identified a new member of the tumor necrosis factor receptor superfamily designated TROY. TROY is a type I membrane protein of 416 amino acids with characteristic cysteine-rich motifs in the extracellular domain and a tumor necrosis factor receptor-associated factor (TRAF) 2 binding sequence in the cytoplasmic domain of 223 amino acids. In fact, activation of nuclear factor kappaB was induced by the overexpression of TROY and inhibited by dominant negative forms of TRAF2, TRAF5, and TRAF6, indicating that TRAFs and nuclear factor kappaB are involved in the signal transduction of TROY. We also cloned a cDNA for a human counterpart, which showed a 75% homology with mouse TROY at the amino acid level. The extracellular domain of TROY exhibits an extensive homology with that of Edar, a receptor that specifies hair follicle fate. TROY mRNA is strongly expressed in brain and embryo and moderately expressed in the heart, lung, and liver but not the spleen. In the embryo, the expression level is particularly strong in the skin. Interestingly, in situ hybridization analysis of the embryo showed that TROY mRNA was exclusively expressed in the epithelium of many tissues. On the other hand, in neonatal mice, TROY is expressed in hair follicles like Edar as well as in the cerebrum, suggesting pleiotropic functions of TROY in development as well as in the adult mice. The Troy gene is located near the waved coat (Wc) locus, a mutant related to abnormalities in skin and hair. (+info)
Plakoglobin suppresses epithelial proliferation and hair growth in vivo.
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Plakoglobin regulates cell adhesion by providing a modulatable connection between both classical and desmosomal cadherins and their respective cytoskeletal linker proteins. Both plakoglobin and the related protein beta-catenin are posttranscriptionally upregulated in response to Wnt-1 in cultured cells. Upregulation of beta-catenin has been implicated in potentiating hyperproliferation and tumor formation. To investigate the role of plakoglobin in these functions we expressed a full-length (PG) and an NH(2)-terminally truncated form of plakoglobin (DeltaN80PG) in mouse epidermis and hair follicles, tissues which undergo continuous and easily observed postnatal renewal and remodeling. Expression of these constructs results in stunted hair growth, a phenotype that has also been observed in transgenic mice expressing Wnt3 and Dvl2 (Millar et al. 1999). Hair follicles from PG and DeltaN80PG mice show premature termination of the growth phase (anagen) of the hair cycle, an event that is regulated in part by FGF5 (Hebert et al. 1994). The proliferative rate of the epidermal cells was reduced and apoptotic changes, which are associated with entry into the regressive phase of the hair follicle cycle (catagen), occurred earlier than usual. (+info)
Serpins in the human hair follicle.
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Proteinases and their inhibitors are very likely to function as mediators or regulators of the hair growth cycle. Very little information is currently available, however, regarding the specific inhibitors present in human hair follicles at defined stages of their growth cycle. In this study we have analyzed two proteinase inhibitors, plasminogen activator inhibitor type 2 and protease nexin 1, in human hair follicles using in situ hybridization and/or immunohistochemistry. Protease nexin 1 mRNA was found only in the mesenchymal population of the hair follicle, i.e., the follicular papilla cells, during the anagen but not the catagen phase. In contrast, plasminogen activator inhibitor type 2 was localized to several epithelial populations in the follicle: the more differentiated cells of the infundibulum; the companion layer in anagen follicles; and the single layer of outer root sheath cells directly abutting the club hair in telogen follicles. At least some of the plasminogen activator inhibitor type 2 in human follicles appears to be in the relaxed form, as evidenced by strong staining with an antibody that is specific for this form of the inhibitor. This suggests that plasminogen activator inhibitor type 2 interacts with and is cleaved by an endogenous follicular proteinase and supports a constitutive role for this inhibitor in human follicular epithelia. (+info)
A novel mouse gene, Sh3yl1, is expressed in the anagen hair follicle.
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In an attempt to investigate the genes expressed in the anagen hair follicle, we differentially screened a mouse anagen skin cDNA library, and identified a cDNA encoding a novel protein containing one Src homology 3 domain at the carboxyl terminus. The predicted amino acid sequence revealed a significant homology with YHRO 16c/Ysc 84, the yeast Src homology 3 domain-containing protein, for which transcripts are expressed at high levels during meiosis. The sequence identity was remarkable at the amino terminus as well as the carboxyl-terminal Src homology 3 domain, suggesting that the novel protein is a mouse homolog of the yeast protein, and we have termed this protein Sh3yl1. In northern blot study, the transcripts were detected not only in the skin but also in other tissues, especially the kidney, stomach, small intestine, and colon. Furthermore, in mouse skin, the expression of these transcripts basically followed the hair-growth cycle, increasing significantly during mid and late anagen phases, and decreasing during catagen, telogen, and early anagen phases. An in situ hybridization experiment showed that the Sh3yl1 transcripts are expressed predominantly in the hair bulb, the hair shaft, inner root sheath, and outer root sheath in the lower half of the follicle during mid and late anagen phases. These transcripts were not detected in catagen, telogen, and early anagen hair follicles, or in other skin components. Thus, these data suggest the possible involvement of Sh3yl1 in the development of hair follicles during the anagen phase. (+info)
Activation of the Notch pathway in the hair cortex leads to aberrant differentiation of the adjacent hair-shaft layers.
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Little is known about the mechanisms underlying the generation of various cell types in the hair follicle. To investigate the role of the Notch pathway in this process, transgenic mice were generated in which an active form of Notch1 (Notch(DeltaE)) was overexpressed under the control of the mouse hair keratin A1 (MHKA1) promoter. MHKA-Notch(DeltaE) is expressed only in one precursor cell type of the hair follicle, the cortex. Transgenic mice could be easily identified by the phenotypes of curly whiskers and wavy, sheen pelage hair. No effects of activated Notch on proliferation were detected in hair follicles of the transgenic mice. We find that activating Notch signaling in the cortex caused abnormal differentiation of the medulla and the cuticle, two neighboring cell types that did not express activated Notch. We demonstrate that these non-autonomous effects are likely caused by cell-cell interactions between keratinocytes within the hair follicle and that Notch may function in such interactions either by directing the differentiation of follicular cells or assisting cells in interpreting a gradient emanating from the dermal papilla. (+info)
Wnt signaling maintains the hair-inducing activity of the dermal papilla.
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The formation of the hair follicle and its cyclical growth, quiescence, and regeneration depend on reciprocal signaling between its epidermal and dermal components. The dermal organizing center, the dermal papilla (DP), regulates development of the epidermal follicle and is dependent on signals from the epidermis for its development and maintenance. GFP specifically expressed in DP cells of a transgenic mouse was used to purify this population and study the signals required to maintain it. We demonstrate that specific Wnts, but not Sonic hedgehog (Shh), maintain anagen-phase gene expression in vitro and hair inductive activity in a skin reconstitution assay. (+info)
Selective heating of vibrissal follicles in seals (Phoca vitulina) and dolphins (Sotalia fluviatilis guianensis).
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The thermal characteristics of the mystacial vibrissae of harbour seals (Phoca vitulina) and of the follicle crypts on the rostrum of the dolphin Sotalia fluviatilis guianensis were measured using an infrared imaging system. Thermograms demonstrate that, in both species, single vibrissal follicles are clearly defined units of high thermal radiation, indicating a separate blood supply to these cutaneous structures. It is suggested that the high surface temperatures measured in the area of the mouth of the follicles is a function of the sinus system. In seals and dolphins, surface temperature gradually decreased with increasing distance from the centre of a follicle, indicating heat conduction from the sinus system via the follicle capsule to adjacent tissues. It is suggested that the follicular sinus system is a thermoregulatory structure responsible for the maintenance of high tactile sensitivity at the extremely low ambient temperatures demonstrated for the vibrissal system of seals. The vibrissal follicles of odontocetes have been described as vestigial structures, but the thermograms obtained in the present study provide the first evidence that, in Sotalia fluviatilis, the follicles possess a well-developed sinus system, suggesting that they are part of a functional mechanosensory system. (+info)
Delayed wound healing in keratin 6a knockout mice.
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Keratin 6 (K6) expression in the epidermis has two components: constitutive expression in the innermost layer of the outer root sheath (ORS) of hair follicles and inducible expression in the interfollicular epidermis in response to stressful stimuli such as wounding. Mice express two K6 isoforms, MK6a and MK6b. To gain insight into the functional significance of these isoforms, we generated MK6a-deficient mice through mouse embryonic stem cell technology. Upon wounding, MK6a was induced in the outer ORS and the interfollicular epidermis including the basal cell layer of MK6a(+/+) mice, whereas MK6b induction in MK6a(-/-) mice was restricted to the suprabasal layers of the epidermis. After superficial wounding of the epidermis by tape stripping, MK6a(-/-) mice showed a delay in reepithelialization from the hair follicle. However, the healing of full-thickness skin wounds was not impaired in MK6a(-/-) animals. Migration and proliferation of MK6a(-/-) keratinocytes were not impaired in vitro. Furthermore, the migrating and the proliferating keratinocytes of full-thickness wounds in MK6a(-/-) animals expressed neither MK6a nor MK6b. These data indicate that MK6a does not play a major role in keratinocyte proliferation or migration but point to a role in the activation of follicular keratinocytes after wounding. This study represents the first report of a keratin null mutation that results in a wound healing defect. (+info)