人IL-31的克隆表达及对表皮角化细胞的影响

目的克隆人IL-31基因,构建真核表达载体,研究人IL-31对表皮角化细胞HaCaT的影响及其作用机制。方法PMA、PHA刺激正常人外周血单个核细胞,提取细胞总RNA,采用RT-PCR克隆人IL-31基因,并将其克隆到真核表达载体pcDNA3.1/myc-His（-）A,进行PCR和双酶切鉴定,并进行序列测定。将重组质粒转染CHO细胞,用RT-PCR和Western blot分析rhIL-31在CHO细胞中的表达。用Ni^2＋树脂纯化his融合蛋白,用不同剂量rhIL-31刺激HaCaT细胞,利用Transwell穿孔板检测HaCaT细胞培养上清对外周血单个核细胞的趋化作用,荧光定量PCR检测rhIL-31对HaCaT表达趋化因子的影响,Western blot检测STAT3磷酸化。结果成功获得全长人IL-31基因,测序正确,经双酶切、PCR和序列测定鉴定,真核表达质粒构建正确,可在CHO细胞中表达;该目的蛋白刺激人表皮角化细胞HaCaT,细胞培养上清对外周血单个核细胞有趋化作用,HaCaT细胞表达趋化因子MDC、TARC、I-309;细胞STAT3磷酸化增加。结论IL-31作用于正常人表皮角化细胞,细胞培养上清对外周血单个核细胞有趋化作用,HaCaT细胞趋化因子表达增加,细胞STAT3磷酸化增加,提示IL-31可通过STAT3发挥作用。     

MicroRNA-205对人皮肤上皮细胞迁移能力的调控

目的 观察microRNA-205 (miR-205)在人皮肤上皮细胞中的表达抑制和过量表达对于该类细胞迁移能力的影响。 方法 使用体外合成的miR-205抑制剂（antagomir-205）处理人皮肤上皮细胞并检测抑制效果,观察其对皮肤上皮细胞迁移的影响。在293TN细胞中包装并收获能过表达成熟miR-205的重组慢病毒颗粒,感染人皮肤上皮细胞并检测过表达效果,进一步观察其对皮肤细胞迁移的影响。 结果 成功使用miR-205抑制剂实现对人皮肤上皮细胞内源性miR-205的抑制,证实其抑制了皮肤上皮细胞的迁移。成功获得过表达miR-205的重组慢病毒颗粒,证明miR-205可促进皮肤上皮细胞的迁移。 结论 miR-205可以促进皮肤细胞的迁移。     

Human interleukin-1 alpha is chemotactic for normal human keratinocytes

Interleukin-1 (IL-1) has been shown to have mitogenic and chemotactic properties for a variety of cell types includes keratinocytes. These studies suggested that keratinocytes possess receptors for IL-1. In this study, the chemotactic properties of IL-1 for keratinocytes were confirmed and IL-1 receptors were demonstrated on keratinocytes using a radio receptor assay. Crosslinking studies with IL-1 alpha identified two major bands of Mr 97 kDa and 133 kDa. Thus, keratinocytes possess high affinity IL-1 receptors and respond to IL-1 by directed migration.     

Cytotoxicity testing of wound dressings using normal human keratinocytes in culture

Comparative cytotoxicity testing of 16 wound dressings of different composition show that normal human keratinocytes (NHK) growing on a fibroblastic feeder layer are as sensitive to toxic materials by direct contact as the confluent MRC5 fibroblasts used for standard cell culture cytotoxicity testing, and slightly more sensitive when extracts of the dressings were tested. After direct contact with each of the cell types, we found effects due to 12 dressing samples (75%), but the extracts of only 6 of them induced changes in cell shape or cell death on NHK, and 4 of them on MRC5 cells. In order to assess the compatibility of these dressings with a pure population of epidermal cells, the cell type responsible for reepidermization of healing wounds, we then tested the sensitivity, both to dressing samples and extracts, of normal human keratinocytes (NHK) grown in chemically defined medium and without a feeder layer: The results show epidermal cytocompatibility of 10 dressing extracts, while 6 others induced cytopathic effects. Three of these extracts specifically damaged epidermal cells and inhibited their proliferation. When comparing the sensitivities of NHK (in defined medium) and MRC5 cells, we observed complete correlation for 75% of the dressings by extract testing and in 94% of the cases after direct contact.     

Estimation of size of clonal unit for keratinocytes in normal human skin

OBJECTIVE: It has been suggested that keratinocyte (KC) stem cells reside at the epicenter of a clonal population of cells. To estimate the territory or surface area covered by a single stem-cell-derived KC population in human skin, clonal skin maps were created from 3 healthy adult women and from normal skin of a psoriatic patient. DESIGN: Two hundred fifty-eight punch biopsy samples of various sizes (ranging from 2 to 8 mm in diameter) were analyzed for clonality employing X chromosome inactivation patterns at the human androgen receptor gene (HUMARA) locus. DNA was isolated and clonality established by significant decrease of either maternal or paternal X chromosome band patterns following restriction enzyme digestion, polymerase chain reaction amplification, and gel electrophoresis. RESULTS: Fifty-three (41%) of 128 two-mm biopsies were clonal, whereas only 6 (14%) of 43 three-mm, 5 (14%) of 36 four-mm, and 3 (8%) of 35 five-mm biopsies revealed a clonal population of KCs. By contrast, in 5 different biopsies from a psoriatic patient, including 4- or 5-mm sizes, all but 1 were clonal; even an 8-mm biopsy contained a clonal population of KCs. Mantel-Haenszel chi(2) analysis revealed a P value of.001, reflecting a strong trend in probability for presence of a single clone of KCs as related to size of the biopsy sample. By sequentially analyzing 30 contiguous 2-mm biopsy samples within a given strip of skin, 10 clonal domain changes, as reflected in maternal versus paternal switches, were observed. CONCLUSIONS: These results provide direct evidence of a clonal population of KCs in normal and psoriatic lesion-free skin, and indicate that a clonal epidermal unit of KCs frequently can be detected in small biopsies (2 mm), but that in normal skin sampling, overlapping clones are apparently present in larger (ie, 4-5-mm) biopsies, producing nonclonal patterns. The clonal domain of progeny in normal skin has a rather limited territorial boundary (2 mm in diameter). However, in lesion-free skin from a psoriatic patient, there may be clonal expansion of KCs due to perturbation in epidermopoiesis and/or stem cell distribution.     

Immune-associated surface markers of human keratinocytes.

The results of a number of investigations have proved that human keratinocytes (HKs) possess the ability to synthesize and express cell surface moieties characteristic of effector and/or accessory cells of the immune system. The present paper summarizes the known immune cell surface features of HKs, reflecting their stage of activation and differentiation. The surface and functional characteristics of HKs suggest their monocyte/macrophage behavior, which fits in well with the presumed active involvement of HKs in the skin immune system.     

The telomeric length and heterogeneity decrease with age in normal human oral keratinocytes

We have examined the telomere length in NHOK explanted from 28 donors between the ages of 21 and 84 years. Genomic DNA was isolated from exponentially replicating NHOK and digested with HinFI to yield terminal restriction fragments (TRF). The TRF length ranged from 4.1 to 7.0 kbp with a mean of 5.3 +/- 0.8 kbp, which was significantly shorter than that (8.9 +/- 1.0 kbp) of normal human oral fibroblasts (NHOF). The TRF length was inversely correlated to the increase of donor age in NHOK (m=-23 bp per year; r=-0.60; P<0.001). Also, the heterogeneity of TRF length in cultured NHOK decreased with increased donor age (r=-0.38, P<0.05). These data indicated that clonogenic NHOK cells had replicated in situ and showed a progressive shortening of TRF length. The short telomere length and decreased telomeric length heterogeneity in immortalized cells suggested that there is a critical minimum for cell survival.     

Subsets of keratinocytes and Langerhans' cells express epitopes associated with suppressor-inducer capabilities in resting normal human epidermis.

In recent years two cell populations with down-regulatory immune capabilities have been identified in murine epidermis. The present report demonstrates that even in human epidermis at least two populations of cells expressing suppressor-inducer phenotypes (i.e. CD45R-positive) exist, namely small subsets of keratinocytes and Langerhans' cells, respectively. Highly specific and sensitive 5-nm colloidal gold-immunoelectronmicroscopic techniques were carried out using anti-CD45R monoclonal antibodies, on freshly isolated crude epidermal cell suspensions, and 4000 cells were scrutinized in the electron microscope. Over 2% of the total epidermal cell population was CD45R+. Subpopulation analysis revealed that approximately 2% of keratinocytes and about 5% of the total Langerhans' cell population showed strong gold-plasma membrane staining, whilst the remaining epidermal cells were absolutely negative. Heterogeneity of staining together with this somehow surprising distribution of CD45R positivity on non-lymphoid epidermal cells was confirmed by the negative controls. These CD45R+ Langerhans' cells and keratinocytes are clearly candidates for the cells which have been functionally demonstrated as being capable of inducing down-regulation responsiveness in the human epidermis. However, functional investigations are needed to clarify the roles of the CD45R+ keratinocyte and Langerhans' cell subsets in the modulation of cutaneous immune responses.     

Phospholipase C-gamma1 is required for subculture-induced terminal differentiation of normal human oral keratinocytes

Serial subculture of primary normal human oral keratinocytes (NHOKs) to the post-mitotic stage induces terminal differentiation, which is in part linked to elevated levels of phospholipase C (PLC)-gamma1. Therefore, PLC-gamma1 may be involved in the signal transduction system that leads to the calcium regulation of subculture-induced keratinocyte differentiation. To test this hypothesis, the expression of PLC-gamma1 in primary NHOKs was blocked by transfecting cells with the antisense PLC-gamma1 cDNA construct. These cells demonstrated dramatic reductions in PLC-gamma1 protein and in the differentiation markers involucrin and transglutaminase following calcium exposure and an increase (15-20%) in in vitro life span versus empty vector-transfected cells. In addition, we established the ability of antisense PLC-gamma1 to block the serial subculture-induced rise in intracellular calcium. Similar observations were made following treatment with the specific PLC inhibitor U73122. These results indicate that the terminal differentiation of NHOKs by serial subculture is associated with PLC-gamma1, which mediates calcium regulation by mobilizing intracellular calcium.     

Electrospinning of collagen nanofibers: effects on the behavior of normal human keratinocytes and early-stage wound healing

Electrospinning of type I collagen in 1,1,1,3,3,3-hexafluoro-2-propanol (HFIP) to fabricate a biomimetic nanofibrous extracellular matrix for tissue engineering was investigated. The average diameter of collagen nanofibers electrospun from 8% collagen solution in HFIP was 460 nm (range of 100-1200 nm). The as-spun collagen nanofibrous matrix was chemically cross-linked by glutaraldehyde vapor with a saturated aqueous solution and then treated with aqueous 0.1m glycine to block unreacted aldehyde groups. With vapor phase cross-linking for 12h, porosity of the collagen matrix decreased from 89% to 71%. The collagen nanofibrous matrix showed good tensile strength, even in aqueous solution. Effects on cytocompatibility, cell behavior, cell and collagen nanofiber interactions, and open wound healing in rats were examined. Relatively low cell adhesion was observed on uncoated collagen nanofibers, whereas collagen nanofibrous matrices treated with type I collagen or laminin were functionally active in responses in normal human keratinocytes. Collagen nanofibrous matrices were very effective as wound-healing accelerators in early-stage wound healing. Our results indicate that cross-linked collagen nanofibers coated with ECM proteins, particularly type I collagen, may be a good candidate for biomedical applications, such as wound dressing and scaffolds for tissue engineering.     

Proliferation and differentiation of neural stem cells on lysine-alanine sequential polymer substrates

The purpose of this study was to explore the phenotypic potential of embryonic rat cerebral cortical stem cells by inducing differentiation on lysine-alanine sequential (LAS) polymer substrates at neurosphere level. LAS polymer is a heterologous polymer of lysine and alanine and has been demonstrated to enhance axon growth of neurons in a serum-free medium in vitro. It was found that very few cells migrated outside of the neurospheres but extremely long processes extended from differentiated cells could form a network between remote neurospheres when cells were cultured on LAS substrates at a low density of 120 neurospheres/cm(2) in the serum-free medium. On the contrary, when the neurosphere density was increased to 360 neurospheres/cm(2), many neurosphere-forming cells migrated out from their original aggregate and exhibited short processes morphology. Furthermore, when serum was added to the culture system, the neurosphere-forming cells could be induced into an extensive cellular substratum of protoplasmic cells upon which process-bearing cells spread. Clearly, neurospheres could exhibit different behaviors on LAS substrates according to the complex environmental conditions. Here, we proposed that neurospheres would change their social communication and adopt different strategies to communicate with other neurospheres when they detected each other's presence. Therefore, the mediation of cell behavior on LAS substrates by communication between neurospheres should be taken into account.     

Culture of human keratinocytes on polypyrrole-based conducting polymers

Variously loaded polypyrrole films, including those containing proteins and polysaccharides, were prepared on gold-coated polycarbonate coverslips. The characteristics of human keratinocytes were studied on these films by microscopy, biochemical assays, and immunocytochemistry. We found keratinocyte viability to be load dependent. For chloride, polyvinyl sulphate, dermatan sulphate, and collagen-loaded polypyrrole films, keratinocyte viability as assessed by the AlamarBlue assay was respectively 47.22, 60.43, 87.71, and 22.65% of tissue culture polystyrene controls after 5 days. This was found to require a previously unreported polymer washing step prior to cell seeding due to the observed toxicity of untreated films. In the case of bare polycarbonate and gold substrates, viability was respectively 75.44 and 61.04% of tissue culture polystyrene controls after 5 days. Keratinocytes stained positive for PCNA (proliferation), K10 (suprabasal differentiation), and K16 (hyperproliferation) markers although cell morphology was poor for organotypical cultures on dermatan- loaded polypyrrole compared with de-epidermalized dermis. From our studies, we concluded that optimized polypyrrole films adequately support keratinocyte growth in submerged cultures with some improvements needed for organotypical cultures. Polypyrrole composites are attractive candidates for tissue-engineering applications since they may incorporate biomolecules and are electrically addressable with the potential to both direct and report on cell activity.     

Interleukin-10 inhibits IgE-mediated nitric oxide synthase induction and cytokine synthesis in normal human keratinocytes

Human keratinocytes (HK) generate nitric oxide (NO) and proinflammatory mediators following activation with either IgE/anti-IgE immune complexes or a combination of lipopolysaccharide (LPS) and interferon-γ (IFN-γ). Recently, interleukin-10 (IL-10) has been shown to down-regulate various inflammatory responses and to be secreted by lymphocytes and dendritic cells during skin inflammatory reactions. We show here that IL-10 down-regulates the production of tumor necrosis factor (TNF)-α and IL-6 by activated HK. Also, induction of inducible nitric oxide synthase (iNOS) expression in HK by IgE/anti-IgE or LPS/IFN-γ is significantly reduced by the addition of IL-10. This effect is dose dependent and correlates with reduction of iNOS mRNA production and enzyme level. Therefore, IL-10 down-regulates NO-mediated HK inflammatory responses and may thus participate in the regulation of the skin immune network.     

Replication of varicella zoster virus in primary human keratinocytes.

The ability of varicella zoster virus (VZV) to infect and replicate in human keratinocytes in culture was examined. Primary human keratinocytes derived from the abdomen, breast, and foreskin were plated as monolayers and infected by co-cultivation with VZV infected fibroblasts (MRC-5 cells). Replication and spread of the virus was assayed by plaque assay and immunofluorescence of infected cells using a VZV specific monoclonal antibody. Although all three types of keratinocytes tested were capable of supporting productive VZV infection, the keratinocytes showed a 1.5 to 2 log reduction in virus yield as compared to infection of monolayer cultures of MRC-5 cells. Results from immunofluorescence studies and plaque assays indicate a slower rate of cell-to-cell spread of the virus. Testing of an anti-VZV compound in this novel assay system demonstrated an interesting sensitivity compared to that observed in conventional assay systems.     

Cultivation,frozen storage,and clonal growth of normal human epidermal keratinocytes in serum-free media

Summary Methods are described for serum-free culture of human epidermal keratinocytes derived from neonatal foreskin tissue. Cultures are initiated, stored frozen, and returned to active growth, all with bovine pituitary extract as the only undefined supplement. Clonal growth assays are then performed in a biochemically defined medium. The degree of stratification and differentiation in the defined medium (and also with pituitary extract) is controlled by the extracellular calcium ion concentration.     

Electrospinning of chitin nanofibers: degradation behavior and cellular response to normal human keratinocytes and fibroblasts

An electrospinning method was used to fabricate chitin nanofibrous matrices for biodegradability and cell behavior tests. The morphology of as-spun chitin nanofibers (Chi-N) and commercial chitin microfibers (Beschitin W; Chi-M) was investigated by scanning electron microscopy. From the image analysis, the average diameters of Chi-N and Chi-M were 163 nm and 8.77 microm, respectively. During in vitro degradation for 15 days, the degradation rate of Chi-N was faster than that of Chi-M, likely due to higher surface area of Chi-N. Chi-N that was grafted into rat subcutaneous tissue had almost degraded within 28 days, and no inflammation could be seen on the nanofiber surfaces or in the surrounding tissues (except in the early stage wound). To assay and compare the cytocompatibility and cell behavior with Chi-N and Chi-M, cell attachment and spreading of normal human keratinocytes and fibroblasts seeded on chitin matrices and the interaction between cells and chitin fibers were studied. Relatively high cell attachment and spreading of all the cells tested were observed on Chi-N in comparison to Chi-M, and Chi-N treated with type I collagen significantly promoted the cellular response. Our results indicate that the Chi-N, alone or with extracellular matrix proteins (particularly type I collagen), could be potential candidates for the cell attachment and spreading of normal human keratinocytes and fibroblasts. This property of Chi-N might be particularly useful for wound healing and regeneration of oral mucosa and skin.     

Ubiquitous human adeno-associated virus type 2 autonomously replicates in differentiating keratinocytes of a normal skin model

Since its discovery in 1966, adeno-associated virus type 2 (AAV) has been described as a helper-dependent parvovirus. However, in this study we demonstrate that AAV undergoes its complete life cycle, devoid of helper viruses or genotoxic agents, in the organotypic epithelial raft tissue culture system, a model of normal skin. AAV progeny production directly correlated with epithelial differentiation, as nondifferentiating keratinocytes were defective for this activity. Large nuclear virus arrays of particles of approximately 26 nm (parvovirus size) were observed in the granular layers of the raft epithelium by electron microscopy. Additionally, dosage-dependent histologic changes, some of which might be interpreted as cytopathology, were induced in the AAV-infected epithelial tissues. These data suggest a new biological model for AAV; that is, AAV is an epithelial-tropic autonomous parvovirus that can alter normal squamous differentiation.     

Inhibition of growth of normal and human papillomavirus-transformed keratinocytes in monolayer and organotypic cultures by interferon-gamma and tumor necrosis factor-alpha.

The growth response of normal and human papillomavirus (HPV)-transformed cervical keratinocytes to interferon-gamma (IFN-gamma) and tumor necrosis factor-alpha was investigated in monolayer and organotypic raft cultures. The proliferation rates of monolayer cultures were assessed by [3H]TdR incorporation and fluorimetric DNA titration. The growth of keratinocytes in organotypic cultures was estimated by their ability to stratify on collagen rafts and by immunohistochemistry for Ki67 antigen expression. IFN-gamma reduced the DNA synthesis of normal and HPV-transformed keratinocytes in monolayer cultures and exerted a marked growth inhibitory effect in organotypic raft cultures. In control raft cultures, normal keratinocytes produced an epithelial sheet of approximately 10 cells in thickness that closely resembled normal cervical epithelium and was characterized by sparse Ki67 antigen-positive cells whereas HPV-transformed keratinocytes produced up to 15 poorly differentiated epithelial layers that were reminiscent of high grade cervical lesions seen in vivo and exhibited a full thickness Ki67 antigen expression. When normal and HPV-transformed keratinocytes were maintained in the presence of IFN-gamma, the epithelial sheet was reduced to a few cells in thickness and the density of Ki67 antigen-positive cells was decreased. A more pronounced growth inhibitory effect in monolayer and organotypic cultures was observed when IFN-gamma was associated with tumor necrosis factor-alpha Tumor necrosis factor-alpha alone reduced the DNA synthesis of normal keratinocytes but was significantly less effective than IFN-gamma to inhibit the growth of HPV-transformed keratinocytes. These results suggest that similar responses in vivo to regulatory molecules may play a role in the development of HPV-related lesions.     

CD40 is functionally expressed on human keratinocytes

The CD40/gp39 pathway is known to be an important feature of B/T cell collaboration leading to T cell-dependent activation, proliferation or differentiation of B cells. Additionally, CD40 is involved in the regulation of B cell survival and apoptosis. Recently, CD40 has been shown to be expressed functionally on non-hematopoietic cells, i.e. endothelial cells. Here, we demonstrate that human keratinocytes (KC) cultured in vitro express CD40 constitutively. The surface expression of CD40 is markedly up-regulated following stimulation with interferon (IFN)-γ, but not with tumor necrosis factor-α or interleukin (IL)-1β. This process is regulated at the CD40 mRNA level as demonstrated by Northern blot analysis. Furthermore, ligation of CD40 via soluble gp39, the CD40 ligand, enhances intercellular adhesion molecule (ICAM)-1 and Bcl-x up-regulation on IFN-γ-stimulated KC, but not lymphocyte function-associated antigen (LFA)-3, B7-2, HLA-DR, or Fas expression. The release of IL-8 is also induced following CD40 ligation on KC. In psoriasis, a T cell-mediated inflammatory skin disease, KC have a markedly enhanced expression of CD40. This expression co-localizes with the expression of ICAM-1, Bcl-x, and an influx of CD3⁺ T cells. These findings suggest a functional role of CD40 on KC in inflammatory skin disorders such as psoriasis and could make a therapeutic intervention by disrupting the CD40/gp39 pathway an approach to consider in these inflammatory skin diseases.