Objective To investigate the effects of heat injured keratinocytes (KC) supernatant on the expressions of collagen type I, collagen type III, and matrix metalloproteinase 1 (MMP-1) of dermal fibroblasts (Fb). Methods KC and Fb were isolated and cultured. Then the models of heat injured KC and Fb were reproduced in vitro, respectively. The heat injured and normal culture supernatant were collected respectively at 12 hours, and formulated as a 50% concentration of cell-conditioned medium. According to the culture medium, Fb at passage 3-5 was divided into 3 groups. Normal Fb was cultured with the conditioned medium containing 50% heat injured KC culture supernatant (group A), the conditioned medium containing 50% normal KC culture supernatant (group B), and DMEM (group C), respectively. The cells in 3 groups were collected at 24 hours. In addition, the cells in group A were collected at 0, 1, 2, 6, 12, 24, and 48 hours, respectively. Normal Fb was cultured with the conditioned medium containing 50% heat injured Fb culture supernatant. Then, the cells were collected at 0, 1, 2, 6, 12, 24, and 48 hours, respectively. The mRNA levels of the collagen type I, collagen type III, and MMP-1 of Fb were measured by real-time fluorescent quantitative PCR techniques. Results At 24 hours after cultured with supernatant of heat injured KC,mRNA relative expression levels of collagen type I, collagen type III, and MMP-1 in group A were significantly higher than those in groups B and C (P lt; 0.05). The mRNA relative expression levels of collagen type I, collagen type III, and MMP-1 in group A gradually increased with time going, showing significant differences between 0 hour and 2, 6, 12, 24, and 48 hours (P lt; 0.05); significant differences were found between different time points after 2 hours (P lt; 0.05). After Fb was treated with supernatant of heat injured Fb, the mRNA relative expression levels of MMP-1 gradually decreased with time going, showing significant differences between 0 hour and 1, 2, 6, 12, 24, and 24 hours (P lt; 0.05); after 2 hours of culture, significant differences were found among different time points (P lt; 0.05). Conclusion Heat injured KC supernatant may regulate the mRNA expressions of collagen type I, collagen type III, and MMP-1 of Fb.
【Abstract】 Objective To observe the effects of Angelica dahurica extracts on the biological characteristics of human keratinocytes (KC) in vitro and to explore the possible mechanism in promoting wound healing. Methods HaCaT cells of passage 5 from KC were used during the experiment. Different concentrations (5 × 10-2, 5 × 10-3, 5 × 10-4, and 5 × 10-5 g/L) of Angelica dahurica extracts, which was obtained by 95% ethanol from Angelica dahurica raw material, were prepared by DMEM containing 0.25% fetal bovine serum (FBS). After the extracts at different concentrations were respectively used for KC culture for 5 days, the cell proliferation activities were detected by MTT, and DMEM containing 0.25% FBS served as the negative control. According to the cell proliferation activity, the optimal concentration was determined. KC was further treated with Angelica dahurica extracts of the optimal concentration (experimental group) or with DMEM containing 0.25% FBS (control group) for 48 hours. The cell cycle was tested by flow cytometry. Cyclin D1 and Caspase-3 mRNA levels were also detected by real-time fluorescent quantitative PCR technique. Results Angelica dahurica extracts at concentrations of 5 × 10-4, 5 × 10-3,and 5 × 10-2 g/L could significantly enhance KC proliferation, showing significant differences in absorbance (A) values compared with that of control group (P lt; 0.05) with an optimal concentration of 5 × 10-3 g/L. At this concentration, an increased percentage of S and G2/M phase cells and a decreased percentage of G0/G1 phase cells were detected, showing significant differences when compared with control group (P lt; 0.05). Real-time fluorescent quantitative PCR revealed that the cyclin D1 and Caspase-3 mRNA levels of experimental group was significantly down-regulated, showing significant differences when compared with control group (P lt; 0.05). Conclusion Angelica dahurica extracts can promote the proliferation of KC, accelerate the cell cycle of KC by down-regulating mRNA expressions of cyclin D1, and inhibit apoptosis by down-regulating mRNA expressions of Caspase-3. These effects might enhance the process of wound healing by expediting the process of epithelization.
Objective To observe the effects of keratinocytes on proliferation and collagen secretion of fibroblasts. Methods The conditioned medium,collected from cultured keratinocytes, was added to the cultured fibroblasts as the tested groups(12.5%, 25% and 50% groups) and DMEM as control group. The MTT, hydroxyproline coloricmetric method and flow cytometer were employed to measure the fibroblast proliferation, the collagen secretion andthe change of the cell cycle.Results In fibroblast proliferation, the absorbency(A) value of tested groups was significantly different from that of the control group (P<0.01). A value increased as increasing concentration, there was statistically significant difference betweetheconcentrations of 25%,50% and the concentration of 12.5%(P<0.01), but no statistically significant difference between the concentrations of 25% and 50%(P>0.01). In collagen secretion, there was no statistically significant difference between the tested groups and the control group(P>0.01), and between the tested groups(P>0.01). In cell cycle, 50% of conditioned medium could make the fibroblast pass the limit of G1/S and S/G2 period, the cell rates of S,G2-M period increased. Conclusion The conditioned medium from keratinocytes can increase fibroblasts proliferation, have little effect on general collagen secretion.
OBJECTIVE To search an ideal carrier of transferred keratinocytes for transplantation. METHODS The transferred keratinocytes were seeded on the surfaces of the artificial dermis and the silicone membrane and cultured in vitro for 2 weeks. The growth of the keratinocytes was observed by microscope and scanning electron microscope. RESULTS The keratinocytes implanted on the artificial dermis began to rupture and died after 2 to 3 days. While the keratinocytes adhered well on the surface of silicone membrane with pseudopodia formation after 1 week under scanning electron microscope, and the cells kept normal morphological and proliferative properties 2 weeks later. CONCLUSION The silicone membrane can be applied as an useful carrier for the keratinocytes transplantation.
Objective To investigate the outcome and histological changes of transplantation of acellular xeno-dermis combined with suspended keratinocytes.Methods Forty-two nude mice with full-thickness skin defect on the back were randomly divided into 2 groups, then acellular xeno-dermisand and suspended keratinocytes were adopted to cover the skin defect in the experimental group, pure suspended keratinocytes in the control group. The area of wound healing was calculated2, 3 and 5 weeks after transplantation, and the rates of wound contraction werealso calculated,and biopsy for histological examination was performed 3, 6and 12 weeks after transplantation. Results Compared with the experimental group,the control group showed delayed wound healing (P<0.05), intensive wound contraction (P<0.05), poor durability, elasticity, and cosmetic appearances as well asdisordered collagen fibers. In contrast, it was observed that the proliferationof collagen fibers was regularly organized, with no obvious acute immuno-rejection responses in the experimental group. Conclusion The composite transplantation of acellular xenodermis and suspended keratinocytes could promote the woundhealing with a satisfactory outcome.
OBJECTIVE: To fabricate artificial human skin with the tissue engineering methods. METHODS: The artificial epidermis and dermis were fabricated based on the successful achievements of culturing human keratinocytes(Kc) and fibroblasts (Fb) as well as fabrication of collagen lattice. It included: 1. Culture of epidermal keratinocytes and dermal fibroblasts: Kc isolated from adult foreskin by digestion of trypsin-dispase. Followed by comparison from aspects of proliferation, differentiation of the Kc, overgrowth of Fb and cost-benefits. 2. Fabrication of extracellular matrix sponge: collagen was extracted from skin by limited pepsin digestion, purified with primary and step salt fraction, and identified by SDS-PAGE. The matrix lattice was fabricated by freeze-dryer and cross-linked with glutaraldehyde, in which the collagen appeared white, fibrous, connected and formed pores with average dimension of 180 to 260 microns. 3. Fabrication artificial human skin: The artificial skin was fabricated by plating subcultured Kc and Fb separately into the lattice with certain cell density, cultured for one week or so under culture medium, then changed to air-liquid interface, and cultured for intervals. RESULTS: The artificial skin was composed of dermis and epidermis under light microscope. Epidermis of the skin consisted of Kc at various proliferation and differentiation stages, which proliferated and differentiated into basal cell layer, prickle cell layer, granular layer, and cornified layer. Conifilament not only increased in number, but also gathered into bundles. Keratohyalin granules at different development stages increased and became typical. The kinetic process of biochemistry of the skin was coincide with the changes on morphology. CONCLUSION: Tissue engineered skin equivalent has potential prospects in application of repairing skin defect with advantages of safe, effective and practical alternatives.