Epidermal dysplasia and abnormal hair follicles in transgenic mice overexpressing homeobox gene MSX-2.
(25/1203)
The homeobox gene Msx-2 is expressed specifically in sites of skin appendage formation. To explore its part in skin morphogenesis, we produced transgenic mice expressing Msx-2 under the control of the cytomegalovirus promoter. The skin of these transgenic mice was flaky, exhibiting desquamation and shorter hairs. Histologic analysis showed thickened epidermis with hyperproliferation, which was restricted to the basal layer. Hyperkeratosis was also evident. A wide zone of suprabasal cells were misaligned and coexpressed keratins 14 and 10. There was reduced expression of integrin beta 1 and DCC in the basal layer. Hair follicles were misaligned with a shrunken matrix region. The dermis showed increased cellularity and empty vacuoles. We suggest that Msx-2 is involved in the growth control of skin and skin appendages. (+info)
The mRNA for protease nexin-1 is expressed in human dermal papilla cells and its level is affected by androgen.
(26/1203)
Protease nexin-1, an inhibitor of serine proteases, plays important parts in the regulation of the growth, differentiation, and death of cells by modulating proteolytic activity. The mRNA for protease nexin-1 accumulates in rat dermal papilla cells in a hair cycle-dependent fashion and its levels are well correlated with the ability of dermal papilla cells to support hair growth. In an attempt to characterize the potential role of protease nexin-1 as a modulator of hair growth in humans, we investigated the steady-state level of protease nexin-1 mRNA in cultured human dermal papilla cells using a semiquantitative technique that involved reverse transcription and polymerase chain reaction, as well as the localization of this mRNA in vivo using dissected hair follicles. Protease nexin-1 mRNA was expressed in all dermal papilla cells examined, and it was also identified in the lower part of the connective tissue sheath. Moreover, we found that levels of protease nexin-1 mRNA were depressed by dihydrotestosterone, the most potent androgen, in cultured dermal papilla cells obtained from balding scalp. Our results suggest that protease nexin-1 might be a key molecule in the control of hair growth in humans and, moreover, that the androgen-mediated downregulation of the synthesis of protease nexin-1 might be associated with the progression of male-pattern baldness. (+info)
Dynamic expression of ornithine decarboxylase in hair growth.
(27/1203)
Ornithine decarboxylase (ODC) is the key enzyme in the synthesis of polyamines, small cationic molecules believed to have a role in many cellular processes such as cell migration, proliferation and differentiation. We show that ODC expression is associated with cell proliferation and commitment in hair follicle development and hair growth. In embryonic epidermis, ODC is expressed in ectodermal cells at sites where follicles develop, and persists in cells at the leading edge of the follicle placode. ODC is abundantly expressed in proliferating bulb cells of anagen follicles, except for a pocket of cells at the base of the bulb. Entry of the follicle into catagen is accompanied by a down-regulation of ODC expression, which is not resumed until a new follicle is initiated. In vibrissae, ODC expression is more complex. ODC is expressed not only in the bulb but also in the hair shaft, presenting a striking biphasic pattern. Additionally, ODC is expressed in a group of outer root sheath cells in the vicinity of the follicle bulge, the putative site of hair follicle stem cells. (+info)
The functional diversity of epidermal keratins revealed by the partial rescue of the keratin 14 null phenotype by keratin 16.
(28/1203)
The type I epidermal keratins K14 and K16 are remarkably similar at the primary sequence level. While a structural function has been clearly defined for K14, we have proposed that a function of K16 may be to play a role in the process of keratinocyte activation that occurs after acute injury to stratified epithelia. To compare directly the functions of the two keratins we have targeted the expression of the human K16 cDNA to the progenitor basal layer of the epidermis of K14 null mice. Mice null for K14 blister extensively and die approximately 2 d after birth (Lloyd, C., Q.C. Yu, J. Cheng, K. Turksen, L. Degenstein, E. Hutton, and E. Fuchs. 1995. J. Cell Biol. 129:1329-1344). The skin of mice expressing K16 in the absence of K14 developed normally without evidence of blistering. However, as the mice aged they featured extensive alopecia, chronic epidermal ulcers in areas of frequent physical contact, and alterations in other stratified epithelia. Mice expressing a control K16-C14 cDNA also rescue the blistering phenotype of the K14 null mice with only a small percentage exhibiting minor alopecia. While K16 is capable of rescuing the blistering, phenotypic complementation in the resulting skin is incomplete due to the multiple age dependent anomalies. Despite their high sequence similarity, K16 and K14 are not functionally equivalent in the epidermis and other stratified epithelia and it is primarily the carboxy-terminal approximately 105 amino acids of K16 that define these differences. (+info)
Multiple roles for activated LEF/TCF transcription complexes during hair follicle development and differentiation.
(29/1203)
LEF/TCF DNA-binding proteins act in concert with activated beta -catenin, the product of Wnt signaling, to transactivate downstream target genes. To probe the role of activated LEF/TCF transcription factor complexes in hair follicle morphogenesis and differentiation, we engineered mice harboring TOPGAL, a beta -galactosidase gene under the control of a LEF/TCF and beta -catenin inducible promoter. In mice, TOPGAL expression was directly stimulated by a stabilized form of beta -catenin, but was also dependent upon LEF1/TCF3 in skin. During embryogenesis, TOPGAL activation occurred transiently in a subset of LEF1-positive cells of pluripotent ectoderm and underlying mesenchyme. Downgrowth of initiated follicles proceeded in the absence of detectable TOPGAL expression, even though LEF1 was still expressed. While proliferative matrix cells expressed the highest levels of Lef1 mRNAs, LEF1 concentrated in the precursor cells to the hair shaft, where TOPGAL expression was co-induced with hair-specific keratin genes containing LEF/TCF-binding motifs. LEF1 and TOPGAL expression ceased during catagen and telogen, but reappeared at the start of the postnatal hair cycle, concomitant with precortex formation. In contrast to hair shaft precursor cells, postnatal outer root sheath expressed TCF3, but not TOPGAL. TCF3 was also expressed in the putative follicle stem cells, and while TOPGAL was generally silent in this compartment, it was stimulated at the start of the hair cycle in a fashion that appeared to be dependent upon stabilization of beta -catenin. Taken together, our findings demonstrate that LEF1/TCF3 is necessary but not sufficient for TOPGAL activation, revealing the existence of positive and negative regulators of these factors in the skin. Furthermore, our findings unveil the importance of activated LEF/TCF complexes at distinct times in hair development and cycling when changes in cell fate and differentiation commitments take place. (+info)
Epithelial sodium channel in human epidermal keratinocytes: expression of its subunits and relation to sodium transport and differentiation.
(30/1203)
The amiloride-sensitive epithelial sodium channel (ENaC) is a main determinant of sodium absorption in renal and colonic epithelial cells. Surprisingly, it is also expressed in non-transporting epithelia such as the epidermis. To gain insight into the putative role of ENaC in keratinocytes, we have evaluated its expression in human skin and in cultured human keratinocytes. Our results indicate that (1) ENaC is expressed in the epidermis and in cultured keratinocytes, at the mRNA and at the protein levels, (2) the ratio of expression of the different ENaC subunits is drastically modified at the protein level during cell growth and differentiation, with a selective upregulation of the &bgr; subunit, (3) no transepithelial sodium transport function is apparent in cultured keratinocytes, but patch-clamp recordings indicate the existence of functional sodium channels with properties similar to those of the cloned ENaC and (4) ENaC inhibition does not alter keratinocyte proliferation, but it significantly decreases the frequency of dome formation in confluent keratinocyte cultures. These results document for the first time the characteristics of ENaC subunit expression in human keratinocytes, and suggest that ENaC may be important during differentiation. (+info)
A comprehensive guide for the recognition and classification of distinct stages of hair follicle morphogenesis.
(31/1203)
Numerous spontaneous and experimentally induced mouse mutations develop a hair phenotype, which is often associated with more or less discrete abnormalities in hair follicle development. In order to recognize these, it is critically important to be able to determine and to classify accurately the major stages of normal murine hair follicle morphogenesis. As an aid, we propose a pragmatic and comprehensive guide, modified after previous suggestions by Hardy, and provide a list of easily recognizable classification criteria, illustrated by representative micrographs. Basic and more advanced criteria are distinguished, the former being applicable to all mouse strains and requiring only simple histologic stains (hematoxylin and eosin, Giemsa, periodic acid Schiff, alkaline phosphatase activity), the latter serving as auxiliary criteria, which require a pigmented mouse strain (like C57BL/6J) or immunohistochemistry (interleukin-1 receptor type I, transforming growth factor-beta receptor type II). In addition, we present simplified, computer-generated schematic drawings for the standardized recording and reporting of gene and antigen expression patterns during hair follicle development. This classification aid serves as a basic introduction into the field of hair follicle morphogenesis, aims at standardizing the presentation of related hair research data, and should become a useful tool when screening new mouse mutants for discrete abnormalities of hair follicle morphogenesis (compared with the respective wild type) in a highly reproducible, easily applicable, and quantifiable manner. (+info)
Gli1 protein is expressed in basal cell carcinomas, outer root sheath keratinocytes and a subpopulation of mesenchymal cells in normal human skin.
(32/1203)
Genetic studies of patients with the nevoid basal cell carcinoma syndrome have led to the recognition of the importance of the hedgehog signaling pathway in the development of basal cell carcinomas of the skin. Although hedgehog signaling is known to be important in hair follicle development, the function of this pathway in adult skin and the mechanism by which activation of this pathway leads to basal cell carcinoma development remain to be established. The Gli1 family of transcription factors mediates hedgehog signaling in mammalian cells and we have shown in previous studies that Gli1 mRNA is differentially expressed in basal cell carcinomas. Using antibodies to epitopes on the N and C terminal regions of Gli1 we show now that Gli1 protein is present in basal cell carcinomas and that the protein is mainly localized to the cytoplasmic compartment. Focal nuclear staining was seen in a small number of basal cell carcinomas with the C terminal antibody which suggest that nuclear localization is not dependent on loss of the C terminus of Gli1 due to proteolysis. Strong Gli1 immunostaining was seen in the outer root sheath keratinocytes of some hair follicles, a subpopulation of mesenchymal cells in the vicinity of the bulge region of adult hair follicles and the dermal sheath cells of developing hair follicles. Quantitation of Gli1 mRNA in basal cell carcinomas using northern blot analysis indicates that Gli1 is highly expressed in basal cell carcinomas. This suggests that the lower intensity of Gli1 immunostaining in basal cell carcinoma islands relative to outer root sheath keratinocytes is not simply a reflection of differences in gene expression. The continued expression of Gli1 in adult hair follicles and in the mesenchyme of adult human skin suggest that Hh signaling may play a part in hair cycling and in epidermal mesenchymal interactions important in normal skin maintenance. (+info)