Epidermal stem cells are resistant to cellular aging

The epidermis of the skin, acting as the primary physical barrier between self and environment, is a dynamic tissue whose maintenance is critical to the survival of an organism. Like most other tissues and organs, the epidermis is maintained and repaired by a population of resident somatic stem cells. The epidermal stem cells reside in the proliferative basal cell layer and are believed to persist for the lifetime of an individual. Acting through intermediaries known as transit amplifying cells, epidermal stem cells ensure that the enormous numbers of keratinocytes required for epidermal homeostasis to be maintained are generated. This continual demand for new cell production must be met over the entire lifetime of an individual. Breakdown of the epidermal barrier would have catastrophic consequences. This leads us to question whether or not epidermal stem cells represent a unique population of cells which, by necessity, might be resistant to cellular aging. We hypothesized that the full physiologic functional capacity of epidermal stem cells is maintained over an entire lifetime. Using murine skin epidermis as our model system, we compared several properties of young and old adult epidermal stem cells. We found that, over an average mouse's lifetime, there was no measurable loss in the physiologic functional capacity of epidermal stem cells, leading us to conclude that murine epidermal stem cells resist cellular aging.     

淤积性皮炎与皮肤菌群关系的研究

目的：探讨淤积性皮炎与皮肤菌群之间的关系。方法：对21例小腿淤积性皮炎患者皮损，邻近皮肤及鼻孔的皮肤菌群进行检测。并将结果同20例正常人小腿皮肤及鼻孔菌群做了比较，其数据进行统计学处理。结果：金黄色葡萄球菌为淤积性皮炎患者皮肤的主要菌种，其分离率及密度均高于正常对照组。结论：金黄色葡萄球菌可能是淤积性皮炎发生的一个重要因素。     

Cultured human keratinocytes for optical transmission measurement

The challenges of measuring optical properties of human tissues include the thickness of the sample, homogenization, or crystallization from freezing of the tissue. This investigation demonstrates a method to avoid these problems by growing optically thin samples of human keratinocytes as a substitute for ex vivo epidermis samples. Several methods of growth were investigated. Resulting samples were measured on a spectrophotometer for transmission between 300 nm and 2600 nm. The efficacy of the cell growth was confirmed with histological examination of several cultured keratinocyte samples. Limitations were the requirement to measure samples immediately after removal from the incubation environment, and the absence of the irregular structures of normal skin such as hair and glands. (© 2010 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

TRPV3 mutants causing Olmsted Syndrome induce impaired cell adhesion and nonfunctional lysosomes

TRPV3 is a non-selective cationic channel and is important for several physiological functions. It can be activated by physiological temperature and selective endogenous and exogenous compounds. TRPV3 is one of the key ion channel involved in Ca²⁺-signaling in keratinocyte and thus involved in skin-related functions. Recently, naturally occurring mutations in TRPV3, namely G573A, G573S, G573C and W692G have been detected which are linked with the development of pathophysiological conditions such as Olmsted Syndrome (OS) and other skin disorders. Our qualitative and quantitative data suggests that these naturally occurring TRPV3 mutants are mainly restricted in the ER. Expression of OS-mutants cause impaired vesicular trafficking resulting reduced surface localization of these mutants and other membrane proteins too. OS-mutants also cause reduced cell adhesion, altered distribution and less number of lysosomes. Our data confirms that TRPV3 is a lysosomal protein suggesting that Olmsted Syndrome is a lysosomal disorder. These findings may have a broad implication in the context of keratinocyte functions, skin-degeneration and in skin-cancer.     

Distribution of mucous cells on the body surface of Japanese flounder Paralichthys olivaceus

The distribution of mucous cells was examined in the skin on the ocular and blind sides of Japanese flounder Paralichthys olivaceus. Observations were performed on both body sides at the following regions: cheek, lower jaw (blind side), gill cover (ocular side), dorsal side, lateral line, belly and caudal peduncle. The mucous cells observed were elliptic and positively stained for periodic acid Schiff reaction and Mayer's mucicarmine and showed a higher density and larger size on the ocular side compared to the blind side. Low densities of mucous cells were observed on the lower jaw compared with other regions of the body. The depth of the crack located between scales was deeper on the ocular side than the blind side, which might reflect total epidermis area and total number of mucous cells. Bacterial infection elucidated some information on the effect on the density and size of mucous cells, where the density and size decreased slightly after infection. Only the lower jaw, however, showed an increased number of mucous cells. The results show that the potential of skin to secrete mucus is higher on the ocular than on the blind side and bacterial infection decreases mucous secretion.     

OBTAINING SKIN SAMPLES FROM LIVING SPERM WHALES

Samples of sperm whale skin, useful for modern molecular analyses of DNA, can be obtained from living animals either by collecting skin sloughed naturally by the whales, or by using biopsy darts fired from crossbows or compound bows. Sloughed skin was found frequently in warm waters, and particular samples could often be linked to photographs which enabled individuals to be identified. However, sloughed skin seemed less available at higher latitudes. Two types of darts were found to collect skin but collected samples were very small (<4 mm²) and insufficient for repeated DNA fingerprinting analyses. Sperm whales always reacted to darting by "startling" and showing changes of behavior over the next few minutes, but we found no indications of longer-term effects. In warm water studies, collection of sloughed skin seems to be generally effective, but for samples of sperm whale tissue at high latitudes modifications could probably be made to either of the darts in order to obtain larger-sized samples.     

THE NATURAL HISTORY OF AMPHIBIAN SKIN SECRETIONS, THEIR NORMAL FUNCTIONING AND POTENTIAL MEDICAL APPLICATIONS

Amphibians occupy a wide range of habitat types from arid deserts to deep freshwater lakes; they may spend most of their life underground or high in cloud forest canopy. Some are found north of the Arctic Circle and can tolerate freezing conditions, while others have evolved a range of adaptations to avoid desiccation in some of the hotter areas of the world. The skin plays key roles in the everyday survival of amphibians and their ability to exploit a wide range of habitats and ecological conditions. The normal functions of the skin are surveyed and Eisner's biorational approach to chemical prospecting – seeking clues from an animal's behaviour and its interactions with its environment to reveal the presence of chemical compounds with potential medical or veterinary applications – is applied to amphibians. The biology and natural history of amphibian skin, its glands and their secretions are briefly reviewed. Four categories of compounds are found in the granular or poison glands, these are: biogenic amines, bufodienolides (bufogenins), alkaloids and steroids, peptides and proteins. Toads, particularly members of the genus Bufo, are identified as a particularly convenient and useful source of granular gland secretions. The potential medical-pharmaceutical significance of products derived from amphibian skin secretions is discussed. The need for a humane approach to this work is noted.     

Human epidermis reconstructed on synthetic membrane: Influence of experimental conditions on terminal differentiation

Summary Cell suspensions of human keratinocytes seeded onto cell culture inserts may undergo terminal differentiation in the absence of fibroblasts. Among the parameters that control these morphogenic events, exposure to air and the composition of the culture medium were investigated. In the latter case, three media were considered DMEM:Ham’s F12, MCDB 153, and keratinocyte SFM medium at equivalent calcium (1.5 mM) and fetal calf serum (5%) concentrations. Immunochemical methods and transmission electron microscopy show that cells cultured in DMEM:Ham’s F12 medium, and then raised at the air-liquid interface, form a basal layer plus suprabasal cell layers corresponding to thestratum spinosum, stratum granulosum, andstratum corneum. The suprabasal keratinocyte layers show morphologies that resemble intact skin in which cells are connected by desmosomes and contain intermediate filaments and keratohyalin-filaggrin granules. When the cultures are kept submerged, the keratinocytes show occasional keratohyalin granules and are connected by fewer desmosomes. Additionally, no properstratum corneum is formed. In keratinocyte SFM medium and MCDB 153, cultures raised at the air-liquid interface are not able to form an epithelium of normal architecture and do not express terminal differentiation markers. Differentiation is initiated, however, since desmosomes and bundles of keratin filaments appear; on the other hand, filaggrin is not expressed even after 28 d in culture. Membrane-bound transglutaminase is expressed throughout the entire suprabasal compartment in MCDB153 and DMEM:Ham’s F12 media but never appears in keratinocyte SFM medium. These studies show the relative independence of epidermal differentiation program to the composition (including the calcium concentration) of the media contacting the dermis and filling the extracellular space. Conversely, differentiation appears to depend on elements of basal medium and/or components synthesized by keratinocytes under the influence of the culture medium.     

猪耳皮肤成纤维细胞的培养

本研究以猪耳皮组织为材料,采用胰蛋白酶冷热处理结合法成功地分离和培养了猪耳皮肤成纤维细胞。此方法的细胞存活率相对于胰蛋白酶热处理法较高。传代细胞与原代细胞的形态和生长速度均相似。传代细胞未检测到凋亡现象。细胞已传至15代以上,染色体倍性正常,说明我们所建立的胰蛋白酶冷热处理结合法可以快速有效的分离和培养猪耳皮肤成纤维细胞,并且能稳定的进行传代培养。     

缺氧对冻伤兔足皮肤温度和肌糖元含量的影响

采用测定冻伤兔足皮肤温度和肌糖元含量的方法,间接观察在缺氧条件下兔足重度冻伤血液循环和肌肉能量代谢的改变。实验结果表明：平原冻伤组、急性缺氧冻伤组、缺氧两周冻伤组冻足皮肤温度和肌糖元含量均明显降低。经４０℃０．１％的洗必泰液多次温浸治疗冻伤兔足,平原冻伤组和急性缺氧冻伤组的治疗足皮肤温度和肌糖元含量均高于未治疗足,无明显差异,提示在此种条件下冻足的血液循环障碍可能更加严重。     

2-Hydroxy-ceramide synthesis by ceramide synthase family: enzymatic basis for the preference of FA chain length

Ceramide is unusually abundant in epidermal stratum corneum and is important for permeability barrier function. Ceramides in epidermis also comprise an unusual variety, including 2-hydroxy (alpha-hydroxy)-ceramide. Six mammalian ceramide synthase/longevity assurance homologue (CerS/LASS) family members have been identified as synthases responsible for ceramide (CER) production. We reveal here that of the six, CerS3/LASS3 mRNA is the most predominantly expressed in keratinocytes. Moreover, its expression is increased upon differentiation. CerS family members have known substrate specificities for fatty acyl-CoA chain length and saturation, yet their abilities to produce 2-hydroxy-CER have not been examined. In the present study, we demonstrate that all CerS members can produce 2-hydroxy-CER when overproduced in HEK 293T cells. Each produced a 2-hydroxy-CER with a chain length similar to that of the respective nonhydroxy-CER produced. In HeLa cells overproducing the FA 2-hydroxylase FA2H, knock-down of CerS2 resulted in a reduction in total long-chain 2-hydroxy-CERs, confirming enzyme substrate specificity for chain length. In vitro CerS assays confirmed the ability of CerS1 to utilize 2-hydroxy-stearoyl-CoA as a substrate. These results suggest that all CerS members can synthesize 2-hydroxy-CER with specificity for 2-hydroxy-fatty acyl-CoA chain length and that CerS3 may be important in CER and 2-hydroxy-CER synthesis in epidermis.     

GATA转录因子和血液系统疾病

GATA转录因子是造血系统重要的调控因子。近年的研究发现,它不仅参与正常的造血调控,它的突变或异常表达还参与了血液系统疾病的发生和发展。现对GATA-1和GATA-2、GATA-3的突变和/或异常表达以及与之相关的血液系统疾病进行综述。     

A new culture medium for human skin epithelial cells

Summary A new culture medium, NCTC 168, has been designed for human skin epithelial cells. This medium formulation was developed, by combining and testing at various concentrations, components of media NCTC 135 and 163, since a 1∶1 mixture of these two media with 10% horse serum supplement was found to promote epithelial cell outgrowth from human skin explants. The buffer system in NCTC 168 maintains the pH of the medium between 7.0 and 7.2. In contrast to other media tested, NCTC 168 with 10% horse serum is capable of initiating and sustaining larger epithelial cell outgrowths. Explants in serum-supplemented NCTC 168 in the absence of feeder cells reproducibly yield confluent epithelial cell sheets apparently free of fibroblasts after only 19 to 28 days as compared with 5 weeks or longer for the other media tested. NCTC 168 also supports passage of human epithelial cells to the sixth subculture generation without feeder cells. Electron microscopy has shown the presence of desmosomes and tonofilaments in the passaged cells indicating the epithelial nature of the cells. The addition of epithelial growth factor, hydrocortisone and insulin at 5 ng per ml, 4 μg per ml and 5 μg per ml, respectively did not appreciably enhance the growth of the epithelial cells.     

The role of human immortal skin keratinocytes-acellular dermal matrix scaffold in skin repair and regeneration

In this study, we aimed to investigate the phenotypic characteristics of human immortal skin keratinocytes (HaCaT) cells and the role of acellular dermal matrix (ADM) in coculture system of HaCaT cells and ADM. Flow cytometry was used to examine the cluster of differentiation (CD) makers of HaCaT cells. Apoptosis analysis was applied to detect the apoptosis rate of HaCaT cells. Morphological observation of ADM isolated from the reticular layer of Sprague-Dawley rat dermis was utilized to evaluate the morphological structure of ADM. Methylthiazolyl tetrazolium (MTT) assay and morphological experiments were further used to confirm the scaffold role of ADM in HaCaT cells. A wound-healing mice model accompanied by HaCaT-ADM scaffold transplantation was performed to further verify the function of HaCaT-ADM scaffold. Our results showed that CD71, CD49f, K19, and CD29 were highly expressed in HaCaT cells, and the percentage of apoptosis cells was significantly increased, which represented that HaCaT cells had much stronger capacities of adhesion and proliferation than normal human keratinocytes. Additionally, the morphological structure of ADM presented many natural microbores, which made cells rapidly grow on ADM. The results exhibited that the HaCaT cells indeed promptly proliferate on ADM and easily grow into the microbores of ADM. Finally, an in vivo experiment further confirmed that the transplantation of the HaCaT-ADM scaffold into the dorsal skin of a wound-healing mice model could gradually repair the injured wound. Thus, these findings indicated that HaCaT cells might be as seed cells to develop skin tissue engineering and the HaCaT-ADM scaffold might be a better candidate to promote skin repair and regeneration.     

山溪鲵皮肤分泌物抗菌活性的初步研究

山溪鲵皮肤分泌物和经两次SephadexG-25层析分离得到的初步提纯样品经抗菌实验,发现具有抗菌活性。其中的抗菌活性成分为蛋白质性质,分子量约为20kD,具有在高温下短时间、常温下长时间保持稳定的特性。初步提纯样品经尿素SDS聚丙烯酰胺凝胶电泳检测为两条带;经反相高效液相层析(RP-HPLC)检测为13个峰。此提纯方法的活性回收率为46．7％。这为进一步的纯化和性质鉴定工作奠定了基础。     

Predictivity of an in vitro model for acute and chronic skin irritation (SkinEthic) applied to the testing of topical vehicles

An in vitro human reconstructed epidermis model (SkinEthic) used for screening acute and chronic skin irritation potential was validated against in vivo data from skin tolerability studies. The irritation potential of sodium lauryl sulfate (SLS), calcipotriol and trans-retinoic acid was investigated. The in vitro epidermis-like model consists of cultures of keratinocytes from human foreskin on a polycarbonate filter. The modulation of cell viability, the release and gene expression of proinflammatory cytokines, interleukins 1α and 8, and morphological changes were evaluated during 3 days as endpoints representative for an inflammatory reaction. The cumulative irritation potential of the topical products was evaluated in a human clinical study by visual scoring and biophysical measurement of inflammatory skin reaction after repeated 24 h applications over 3 weeks under Finn chamber patches. All topical products that were nonirritating in the human study were noncytotoxic and did not induce cytokine expression in the in vitro acute model (day 1 exposure). All irritating controls exhibited specific cell viability and cytokine patterns, which were predictive of the in vivo human data. The ranking of mild to moderate skin irritation potential was based on the lack of cytotoxicity and the presence of cytokine patterns including gene expression specific for each irritant, using the chronic in vitro model (up to 3 days exposure). The human reconstructed epidermis model SkinEthic was shown to be a reliable preclinical tool predicting the irritation potential of topical products. Moreover, it is a useful model in a two-step tiered strategy for screening acute and chronic irritation potential for the selection of vehicles for new topical drugs. This revised version was published online in July 2006 with corrections to the Cover Date.