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Skin Equivalents (skin + equivalent)

Distribution by Scientific Domains

Medical Sciences	72%

Selected Abstracts

Plasticity of hair follicle dermal cells in wound healing and induction

EXPERIMENTAL DERMATOLOGY, Issue 2 2003
A. Gharzi
Abstract: The capacity of adult hair follicle dermal cells to participate in new follicle induction and regeneration, and to elicit responses from diverse epithelial partners, demonstrates a level of developmental promiscuity and influence far exceeding that of interfollicular fibroblasts. We have recently suggested that adult follicle dermal cells have extensive stem or progenitor cell activities, including an important role in skin dermal wound healing. Given that up to now tissue engineered skin equivalents have several deficiencies, including the absence of hair follicles, we investigated the capacity of follicle dermal cells to be incorporated into skin wounds; to form hair follicles in wound environments; and to create a hair follicle-derived skin equivalent. In our study, we implanted rat follicle dermal cells labelled with a vital dye into ear and body skin wounds. We found that they were incorporated into the new dermis in a manner similar to skin fibroblasts, but that lower follicle dermal sheath also assimilated into hair follicles. Using different combinations of follicle dermal cells and outer root sheath epithelial cells in punch biopsy wounds, we showed that new hair follicles were formed only with the inclusion of intact dermal papillae. Finally by combining follicle dermal sheath and outer root sheath cells in organotypic chambers, we created a skin equivalent with characteristic dermal and epidermal architecture and a normal basement membrane , the first skin to be produced entirely from hair follicle cells. These data support the hypothesis that follicle dermal cells may be important in wound healing and demonstrate their potential usefulness in human skin equivalents and skin substitutes. While we have made progress towards producing skin equivalents that contain follicles, we suggest that the failure of cultured dermal papilla cells to induce follicle formation in wounds illustrates the complex role the follicle dermis may play in skin. We believe that it demonstrates a genuine dichotomy of activity for follicle cells within skin. [source]

Bioconversion of naltrexone and its 3-O-alkyl-ester prodrugs in a human skin equivalent

JOURNAL OF PHARMACEUTICAL SCIENCES, Issue 4 2005
Dana C. Hammell
Abstract The purpose of this study was to compare the percutaneous absorption and bioconversion of naltrexone (NTX), naltrexone-3-O-valerate (VAL), and naltrexone-3-O-(2,-ethylbutyrate) (ETBUT) in a human skin equivalent model (EpiDermÔ) and in fresh human skin in vitro. NTX diffusion and metabolism to 6-,-naltrexol (NTXol) were quantitated and compared in the EpiDermÔ and in excised fresh human skin. VAL and ETBUT diffusion and bioconversion studies were also completed in EpiDermÔ. Naltrexone bioconverted to levels of 3,±,2% NTXol in the EpiDermÔ and 1,±,0.5% in fresh human skin. VAL hydrolyzed rapidly in the EpiDermÔ and mainly (93,±,4%) NTX was found in the receiver compartment, similar to human skin. More intact ETBUT permeated the EpiDermÔ tissue compared to VAL, and only 15,±,11% NTX was found in the receiver. Significantly higher fluxes of NTX and the prodrugs were observed with the EpiDermÔ compared to human skin. A similar flux enhancement level was observed for VAL, compared to NTX base, in the EpiDermÔ and the human skin. Metabolically active human epidermal models like EpiDermÔ are useful as an alternative experimental system to human skin for prediction of topical/transdermal drug/prodrug bioconversion. © 2005 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 94:828,836, 2005 [source]

The skin as a biofactory for systemic secretion of erythropoietin: potential of genetically modified keratinocytes and fibroblasts

EXPERIMENTAL DERMATOLOGY, Issue 6 2008
Frank Scheidemann
Abstract Background:, The skin is an interesting target tissue for gene therapy applications because of its ready accessibility. One possibility would be to utilize the genetically modified skin as a biofactory secreting a systemically needed product, such as erythropoietin (EPO). Methods:, Keratinocytes (KC) and fibroblasts (FB) were transduced with a retroviral vector encoding human EPO. Gene transfer efficiency was assessed by real-time PCR analysis and flow cytometry of transduced cells. In addition, EPO synthesis and secretion were analysed by quantifying the amount of RNA and secreted protein in both monolayer cultures and skin equivalents (SE). Results:, When cultured as a monolayer, EPO-KC synthesized significantly more EPO than EPO-FB, as shown by quantitatively measuring the amount of secreted protein and RNA. This correlated with an increased EPO-vector incorporation in KC compared with FB, demonstrated by determining both the percentage of transduced cells and the average transgene copy number per cell. In addition, in transduced cell cultures enriched to equally high percentages of EPO+ cells, KC showed a higher activity of EPO secretion than FB. Finally, when assembled in a SE, EPO-KC secreted significantly higher amounts of EPO than EPO-FB, although reduced secretory activity of EPO-KC monolayers grown in high calcium concentrations suggested that in stratified epidermis differentiated KC secrete less EPO than non-differentiated KC. Conclusion:, In summary, while both transduced KC and FB are able to synthesize and secrete human EPO, KC show higher potential in serving as possible target cells for therapeutic substitution with EPO, probably because of improved transduction rates and increased secretory activity. [source]

Terrein inhibits keratinocyte proliferation via ERK inactivation and G2/Mcell cycle arrest

EXPERIMENTAL DERMATOLOGY, Issue 4 2008
Dong-Seok Kim
Abstract:, Terrein, a fungal metabolite, has been recently shown to have a strong antiproliferative effect on skin equivalents. In the present study, we further investigated the effects of terrein on the possible signalling pathways involved in the growth inhibition of human epidermal keratinocytes by examining the regulations of extracellular signal-regulated protein kinase (ERK) and of the Akt pathway by terrein. It was observed that ERK was inactivated by terrein and that keratinocyte proliferation was inhibited, whereas Akt was unaffected. The inhibition of the ERK pathway by U0126 (a specific ERK inhibitor) also had a dose-dependent antiproliferative effect on human keratinocytes. These results indicate that ERK inhibition is involved in keratinocyte growth inhibition by terrein. Moreover, flow cytometric analysis showed that terrein inhibits DNA synthesis, as evidenced by a reduction in the S phase and an increase in the G2/M phase of the cell cycle. Thus, we next examined changes in the expressions of G2/M cell cycle-related proteins. Terrein was found to downregulate cyclin B1 and Cdc2 without Cdc2 phosphorylation, but upregulated p27KIP1 (p27), a known inhibitor of cyclin-dependent kinase. These results suggest that terrein reduces human keratinocyte proliferation by inhibiting ERK and by decreasing the expressions of cyclin B1 and Cdc2 complex. [source]

LOXL as a target to increase the elastin content in adult skin: a dill extract induces the LOXL gene expression

EXPERIMENTAL DERMATOLOGY, Issue 8 2006
Valérie Cenizo
Abstract:, The lysyl oxidases lysyl oxidase (LOX) and lysyl oxidase-like (LOXL) are responsible for elastin cross-linking. It was shown recently that LOXL is essential for the elastic fibres homeostasis and for their maintenance at adult age. We first determined whether or not elastin, LOX and LOXL are less expressed during adulthood. The LOX and LOXL mRNA level, quantified by real-time reverse transcriptase-polymerase chain reaction decreased in adult skin fibroblasts compared with fibroblasts from children. In contrast, the elastin mRNA level remains stable at all ages. The goal of this study was to induce elastogenesis at the adult age. Therefore, both enzymes, and in particular LOXL, of which expression is the most affected by age, could be targeted to induce elastogenesis in adult skin. We screened a library of about 1000 active ingredients to find activators capable to stimulate specifically the LOXL gene expression in adult dermal fibroblasts. The positive effect of selected active ingredients was confirmed on fibroblasts grown on monolayers and on dermal and skin equivalent cultures. One extract, obtained from dill (LYS'LASTINE V, Engelhard, Lyon, France), stimulates the LOXL gene expression in dermal equivalents (+64% increase in the LOXL mRNA level when compared with control). At the same time, the elastin detection is increased in dermal equivalents and under the dermal,epidermal junction of skin equivalents, without increase of the elastin mRNA. In conclusion, LOXL can be considered as a new target to reinduce elastogenesis. Its stimulation by a dill extract is correlated with increased elastin detection, suggesting an increase in elastogenesis efficiency. [source]

Plasticity of hair follicle dermal cells in wound healing and induction

Conversion of vitamin D3 to 1,,25-dihydroxyvitamin D3 in human skin equivalents

EXPERIMENTAL DERMATOLOGY, Issue 2 2000
B. Lehmann
Abstract: These results demonstrate for the first time that human keratinocytes under in vivo -like conditions have the capacity of the enzymatic hydroxylation of vitamin D3 to hormonally active calcitriol (1,,25(OH)2D3). Supplementation of the culture medium with bovine serum albumin (BSA) up to 1.5% (w/v) amplifies the conversion of vitamin D3 to 1,,25(OH)2D3. The maximum turnover rate of this reaction at 780 nM vitamin D3 in presence of 1.0% (w/v) BSA amounts to approximately 3 pmol 1,,25(OH)2D3 per 106 cells after 6 h of incubation. The hydroxylation of vitamin D3 to 1,,25(OH)2D3 is inhibited by the P-450 oxidase inhibitor ketoconazole. The generation of 1,,25(OH)2D3 from vitamin D3 has an apparent Michaelis constant (Km) of 2.3×10,6 M. The intrinsic conversion of vitamin D3 to biologically active 1,,25(OH)2D3 may be of importance for the regulation of proliferation and differentiation of keratinocytes. [source]

Differential expression of p63 isoforms in normal skin and hyperproliferative conditions

JOURNAL OF CUTANEOUS PATHOLOGY, Issue 8 2009
So-Young Kim
Background:, The p63 is regarded as a potential stem cell marker. Methods:, Expression of p63 isoforms was examined in normal skin and hyperproliferative conditions including psoriasis and artificial skin equivalents (SEs). Rapidly adhering (RA) and slowly adhering (SA) cells were isolated, and Western blotting was performed. Results:, Expression of p63 (4A4) and p63 (H-137) is similar in all conditions, although there is some variation in psoriasis. However, expression of p63, (C-12) is markedly different. In normal skin, p63, (C-12)-positive cells were scattered in whole epidermis. But in psoriasis, p63, (C-12)-positive cells were observed at the tips of rete ridges. In SEs, p63, (C-12)-positive cells were not well observed. Western blot results showed that the RA cells express p63 (4A4) and p63 (H-137) strongly compared with SA or nonadhering (NA) cells. In contrast, SA or NA cells strongly express p63, (C-12). Conclusions:, Results suggest that both p63 (4A4) and p63 (H-137) can detect epidermal stem cells. But, p63 (H-137) seemed to be a better marker because p63 (H-137)-positive cells were more localized at basal layer. In addition, it can be said that p63, (C-12) can detect TAp63, which is important in differentiation of epidermis. Furthermore, it is concluded that molecular control of TAp63 is especially disorganized in hyperproliferative condition including psoriasis and SEs. [source]

Standardization of In Vitro Macrophotography for Assessment of Cutaneous Responses

PHOTOCHEMISTRY & PHOTOBIOLOGY, Issue 4 2009
Sergio G. Coelho
The increased popularity of commercially available three-dimensional human skin equivalents in recent years has allowed for assessment of melanogenesis modulated by compounds topically applied to the skin or directly incorporated from the medium. These skin equivalents provide a suitable model for elucidating the mechanisms of action of various factors that modulate skin pigmentation or other properties of the skin. As such, researchers need to objectively quantify cutaneous responses at the macroscopic level. A simple method to standardize macrophotography images is reported that can quantify cutaneous responses in human skin equivalents of Asian, Black or African American, and Caucasian or White racial/ethnic origin. Macrophotographs are analyzed using the Commission Internationale de l'Eclairage L*a*b* color space system in combination with a personal computer and image editing software. Pigmentation changes monitored over a 9 day period showed a high correlation with melanin content evaluated in Fontana,Masson-stained sections. These results indicate the feasibility of using a macrophotography setup in a sterile tissue culture environment to objectively assess in vitro cutaneous responses in human skin equivalents. This serves as an adjunct tool to biochemical and morphological methods to effectively quantify changes in pigmentation over time. [source]