A specialized tissue type, the keratinizing epithelium, protects terrestrial mammals from water loss and noxious physical, chemical and mechanical insults. This barrier between the body and the environment is constantly maintained by reproduction of inner living epidermal keratinocytes which undergo a process of terminal differentiation and then migrate to the surface as interlocking layers of dead stratum corneum cells. These cells provide the bulwark of mechanical and chemical protection, and together with their intercellular lipid surroundings, confer water-impermeability. Much of this barrier function is provided by the cornified cell envelope (CE), an extremely tough protein/lipid polymer structure formed just below the cytoplasmic membrane and subsequently resides on the exterior of the dead cornified cells. It consists of two parts: a protein envelope and a lipid envelope. The protein envelope is thought to contribute to the biomechanical properties of the CE as a result of cross-linking of specialized CE structural proteins by both disulfide bonds and N(epsilon)-(gamma-glutamyl)lysine isopeptide bonds formed by transglutaminases. Some of the structural proteins involved include involucrin, loricrin, small proline rich proteins, keratin intermediate filaments, elafin, cystatin A, and desmosomal proteins. The lipid envelope is located on the exterior of and covalently attached by ester bonds to the protein envelope and consists of a monomolecular layer of omega-hydroxyceramides. These not only serve of provide a Teflon-like coating to the cell, but also interdigitate with the intercellular lipid lamellae perhaps in a Velcro-like fashion. In fact the CE is a common feature of all stratified squamous epithelia, although its precise composition, structure and barrier function requirements vary widely between epithelia. Recent work has shown that a number of diseases which display defective epidermal barrier function, generically known as ichthyoses, are the result of genetic defects of the synthesis of either CE proteins, the transglutaminase 1 cross-linking enzyme, or defective metabolism of skin lipids.
Animal ; Cell Membrane/metabolism ; Epidermis/metabolism* ; Epidermis/chemistry* ; Human ; Ichthyosis/metabolism ; Ichthyosis/genetics ; Keratinocytes/metabolism* ; Keratinocytes/chemistry ; Membrane Lipids/metabolism* ; Membrane Proteins/metabolism* ; Protein-Glutamine gamma-Glutamyltransferase/metabolism

OBJECTIVETo compare the difference of protein expression in the supernatant of heat injured keratinocytes (KC) and normal KC.

METHODSA model of heat injured KC was produced in vitro. The supernatant of normal KC and heat injured KC was collected after culture for 12 hours, and was ultrafiltered and lyophilized to get the protein. The protein sample was separated by immobilized pH gradient based two dimensional gel electrophoresis (2-DE). The gel was stained and the different expression of protein was analyzed using ImageMaster 2D analysis software.

RESULTS(1) Average protein spots were 1,898 +/- 113, 1,877 +/- 97 in the supernatant of normal and heat injured KC and 1,118 protein spots could be used for statistical analysis. (2) Statistical result showed that 26 protein spots were significantly different between the two groups. 16 protein spots were higher in the supernatant of normal KC and then 10 protein spots were lower in the normal group. (3) 16 protein spots, which included 10 kinds of proteins, were identified successfully as different spots. Lower expression proteins were alpha-enolase, actin cytoplasmic 2, peroxiredoxin-4, phosphoglycerate mutase 1, G protein-regulated inducer of neurite outgrowth l in the supernatant of heat injured KC. Higher expression proteins in heat KC were purine nucleoside phosphorylase, tumor necrosis factor ligand superfamily member 10, proteasome subunit alpha type-7, UDP-glucose 6-dehydrogenase in the supernatant of heat injured KC.

CONCLUSIONSThe result indicated that there are some significant different expression proteins in the supernatant of normal KC and heat injured KC. These findings provide new data for screening major molecules of tissue repair and finding the mechanism of wound repair.

Cells, Cultured ; Electrophoresis, Gel, Two-Dimensional ; Heat-Shock Response ; Hot Temperature ; Humans ; Keratinocytes ; metabolism ; Proteome ; metabolism

Antigens, CD34 ; metabolism ; Biomarkers ; metabolism ; Cell Differentiation ; physiology ; Hair Follicle ; cytology ; Humans ; Intramolecular Oxidoreductases ; metabolism ; Keratinocytes ; metabolism ; Melanins ; metabolism ; Melanocytes ; metabolism ; PAX3 Transcription Factor ; metabolism ; Stem Cells ; metabolism

OBJECTIVETo observe the effect of plasmids in different size and gene transfection protocol on efficiency of introducing gene into human KC.

METHODSFour plasmids in different size, inclu-ding pSUPER-enhanced green fluorescent protein (EGFP), pEGFP-N2, pHSER-green fluorescent protein (GFP) and ploxP-EGFP, were transfected into immortal human KC line (HaCaT) and human embryo kid-ney cell line (293FT) separately following transfection protocols of liposome (LTP), cation polymerizer (CPTP), electroporation combined with nucleus transfection agent (ETP) and lentivirus. 293FT was used as control. GFP expression was observed under inverted fluorescence microscope. The transfection efficiency (TE) was calculated.

RESULTS(1) The four plasmids could be introduced into HaCaT (TE, 1.0%-3.3%) and 293FT (TE, 80.0%-84.7% ) following LTP. (2) The four plasmids could also be introduced into HaCaT (TE, 1.0%-3.7% ) and 293FT (TE, 81.3%-86.7% ) following CPTP. (3) Two shorter plasmids (pSUPER-EGFP and pEGFP-N2) could be introduced into HaCaT by ETP with higher TE than the othr two longer plasmids (pHSER-GFP and ploxP-EGFP), which were 22.3% and 19.0% vs. 4.0% and 3.3%, respectively. (4) pHSER-GFP packaged by lentivirus could be introduced into HaCaT with the TE reaching 97.0%, which surpassed the above three protocols.

CONCLUSIONSIt is difficult to introduce exogenous gene into human KC by LTP or CPTP; TE of lentivirus transfection protocol apparently surpasses

Cell Line ; Genetic Therapy ; methods ; Genetic Vectors ; Humans ; Keratinocytes ; Liposomes ; metabolism ; Plasmids ; Transfection

The efficiency and safe range of Lipofectamine2000 (LF2000)/bcl-xl applied in human keratocytes, the optimal ratio of LF2000/bcl-xl and the bcl-xl gene expression in human keratocytes were investiaged. By using trypan-blue staining, the effects of LF2000 and bcl-xl on the survival rate of the cultured human keratocytes were measured respectively. By using semi-quantitative RT-PCR, the efficiency and the expression of LF2000-mediated bcl-xl transfection into keratocytes were examined. The results showed that the survival rate of human keratocytes had no signficant change in the presence of LF2000 (20 microg/ml) or bcl-xl (10 microg/ml) for 24 h. LF2000 could effectively mediate the transfection of exogenous gene bcl-xl into human keratocytes. The best transfection efficiency could be obtained when the ratio of bcl-xl/LF2000 was 1:8. One day after transfection, the positive cells for bcl-xl could be detectable, and the positive rate reached the peak-on the posttransfection day 3 (48.3%), then gradually decreased. Fifteen days after transfection, there were few positive cells. It was suggested that LF2000 could effectively transfer the exogenous gene bcl-xl into human keratocytes without obvious toxicity during a concentration range. LF2000/bcl-xl may be likely to play an important role in gene therapy of human keratocytes.
Cations/administration & dosage ; Cornea/cytology ; Gene Therapy ; Keratinocytes/cytology ; Keratinocytes/*metabolism ; Liposomes ; Transfection ; bcl-X Protein/biosynthesis ; bcl-X Protein/*genetics

Calpain I (mu-calpain) and II (m-calpain) are well known calcium-activated neutral cysteine proteases. Many reports have shown that activation of calpain is related to cataract formation, neuronal degeneration, blood clotting, ischemic injuries, muscular dystrophy and cornified cell envelope (CE) formation. Here, we report that insoluble CE formation was reduced after treatment with calpain I inhibitor (N-acetyl-leucyl-leucyl-norleucinal) on normal human epidermal keratinocytes (NHEK), whereas serine and thiol protease inhibitors had no effect on the reduction of CE. When NHEK cells were confluent, keratinocytes were treated with various concentrations (0.5 microM-0.5 mM) of calpain I inhibitor or serine and thiol protease inhibitors under calcium induced differentiation. Insoluble CE formation was reduced about 90% in the 50 microM calpain inhibitor I treated group by day 9 of culture, whereas insoluble CE was reduced only 10% in the same condition. Interestingly TGase activity was blocked by 90% in the 0.5 mM calpain inhibitor treated group within 72 h, whereas TGase activity was retained by 80% in the 0.5 mM serine protease inhibitor treated group at 7 day treatment. Therefore it can be suggested that cysteine protease calpains might be responsible for the activation of the TGase 1 enzyme to complete insoluble CE formation during epidermal differentiation.
Calcium/pharmacology ; Calpain/metabolism* ; Calpain/antagonists & inhibitors* ; Cell Differentiation ; Dose-Response Relationship, Drug ; Epidermis/metabolism ; Human ; In Vitro ; Keratinocytes/metabolism ; Keratinocytes/enzymology ; Protease Inhibitors/pharmacology ; Protein-Glutamine gamma-Glutamyltransferase/metabolism* ; Protein-Glutamine gamma-Glutamyltransferase/antagonists & inhibitors* ; Tissue Culture

It is well estabilshed that the xerosis is closely related to diabeic pruritus. Although the causes of xerosis are thought to bie the abnormalities of sweating and autonomic nervous system, the exact mechanism of the xerosis in diabetic skin is still unknown. This study was designed to investigate the possible derangement of glucose metabolism in the skin of diabetes mellitus patients with xerosis. The epidemal glucose content and hexokonase activities were masured in the skin samples obtained from normal individuals and diabetes mellitus patients with xerosis The epidermal glucose content was measured by the enzymatic cycling method. The enzymatic activities of hexokinase were assayed by fluorometric method. The epidermal glucose content of diabetic patients increaed approximately twice [27.46+9.52 (mmole/kg /dry weight) that of normal individuals [13.90+4.79(mmole/kg /dry weight)] (p<0. 0001). The epidermal hexokinase activities of diabetes patients were significantly decreased [0.56+0.15(mole/hr/kg/dry weight)] compared to that of normal indivduals [0.96+0.24(mole/hr/kg dry weight)] (p<0.0001). There were no significant differences in the epidermal glucose content and enzyme activities of hexokinase between the diabetic patients with: erosis and diabetic patients without xerosis. These data indicated that decreased activities of hexokinase could reduce the glucose phopkiorylation and uptake into keratinocytes, and which could lead to accumulat. glucose in the interstitial space of diabetic epidermis. And the decreased hexokinase activities may exert on lipid metabolism and glycolysis of diabetic epiidermis, because hexokinase is a key enzyme of hexose monophosphate pathway and glycolysis.
Autonomic Nervous System ; Diabetes Mellitus ; Epidermis ; Glucose ; Glycolysis ; Hexokinase* ; Humans ; Keratinocytes ; Lipid Metabolism ; Metabolism ; Pruritus ; Skin ; Sweat ; Sweating

OBJECTIVETo investigate the changes in cell proliferation and retinoic acid receptor gamma (RARgamma) mRNA expression in normal human keratinocytes after acitretin treatment and/or narrow-band ultraviolet-B irradiation.

METHODSNormal human keratinocytes were exposed to irradiation with 100 mJ/cm square NB-UVB and/or subsequent 12-hour incubation with 1x10(-6) mol/L acitretin, and the expression of RARgamma mRNA in the cells was examined using RT-PCR and real-time quantitative RT-PCR.

RESULTSA 0.9- and a 2.3-fold increase in RARgamma mRNA expression was induced in the cells by exposure to 100 mJ/cm square NB-UVB and 10(-6) mol/L acitretin, respectively, and the expression was synergistically enhanced by 2.8-fold after their combined treatment.

CONCLUSIONUpregulated expression of RARgamma mRNA can be associated with keratinocyte growth inhibition after treatment with acitretin and NB-UVB irradiation.

Acitretin ; pharmacology ; Cells, Cultured ; Humans ; Keratinocytes ; drug effects ; radiation effects ; RNA, Messenger ; metabolism ; Receptors, Retinoic Acid ; metabolism ; Ultraviolet Rays

Aural cholesteatoma is characterized by invading squamous epithelia with altered growth properties. Cytokeratin (CK) expression is affected in epidermal proliferative diseases and represents the alterations of keratinocyte proliferation, differentiation, and migration. In the present study, the intensity of CK immuno-expression was determined, using densitometry at various sites in experimental cholesteatoma in order to characterize changes of keratinocytes. With cholesteatoma formation, CK4, a marker for non-keratinizing epithelia, increased in the suprabasal layers of the annular external auditory canal (EAC) and at the pars tensa indicating an altered differentiation and migration of keratinocytes. CK5/6, a marker of keratinizing squamous epithelium, increased only at the pars tensa of the tympanic membrane, indicating basal keratinocyte hyperplasia. CK1/10 increased in the suprabasal layer at the annular EAC, and at the peripheral pars tensa, indicating increased terminal differentiation of keratinocytes. CK13/16, markers of differentiation and hyperproliferation, increased in suprabasal layer of the EAC, and at the peripheral pars tensa. However, it decreased in the basal layer of the EAC, indicating hyperproliferation and migration of keratinocytes. The findings of this study support the basal cell hyperplasia hypotheses for the pathogenesis of aural cholesteatoma, with regard to hyperproliferation, migration, and an altered differentiation of keratinocytes.
Animals ; Biological Markers ; Cell Division ; Cell Movement ; Cholesteatoma, Middle Ear/*metabolism/*pathology ; Densitometry ; Gerbillinae ; Keratinocytes/metabolism/pathology ; Keratins/*biosynthesis

OBJECTIVETo observe the change of caspase-8, caspase-9 activity and apoptosis rates in the process of trichloroethylene-induced damage in keratinocytes, and explore the tentative mechanism of apoptosis.

METHODSHuman keratinocytes were exposed to 0.125, 0.250, 0.500, 1.000 and 2.000 mmol/L trichloroethylene for 4, 8, 12 and 24 h. The inhibitive groups were pretreated with 100 micromol/L Z-LEHD-FMK (a specific inhibitor of caspase-9) for 1 h, and were stimulated with 2.000 mmol/l TCE for 12 h. MTT assay was used to detect the viability of different cells; The activity of caspase were calculated according to spectrophotometry; Change of the apoptotic rates was assessed by flow cytometer (FCM) after double-stained with Annexin V-FITC and propidium iodide (PI).

RESULTS(1) The minimum effective concentration for cell viability reduction was 0.125 mmol/L at 12 h and the shortest time required to produce a change was 4 h at a concentration of 2.000 mmol/L (compared with control group, P < 0.01). Cell viability in all the groups markedly decreased from 12 h to 24 h (P < 0.05). (2) The activity of caspase-8 in the various dosage groups at different times had no statistical difference compared with the control group, P > 0.01. (3) At 8 h, 1.000 and 2.000 mmol/L TCE groups could significantly enhance caspase-9 activity (P < 0.05). The caspase-9 activity in all the groups showed differences and was significantly higher than those of control cells when time was over 12 h (P < 0.05). (4) After exposing to different dosages of TCE for 12 h, the rate of apoptosis rose to (80.43 +/- 4.21)% with the increase of dosage, compared with the control group, (9.40 +/- 2.98)%, which showed a dose-effect relationship. (5) The cells pre-treated with caspase-9 inhibitor resulted in a decrease in the caspase-9 activity and apoptosis rates (compared with 2.000 mmol/L TCE exposed group, P < 0.01). However, there was no statistical significance in comparison with the control group (P > 0.05).

CONCLUSIONCaspase-9 may be an important mediator of apoptosis in keratinocytes induced by trichloroethylene.

Apoptosis ; drug effects ; Caspase 8 ; metabolism ; Caspase 9 ; metabolism ; Cells, Cultured ; Humans ; Keratinocytes ; drug effects ; enzymology ; pathology ; Trichloroethylene ; toxicity