Objective To investigate the different influence of the expression levels of the epidermal growth factor (EGF) and the keratinocyte growth factor (KGF) after the unilateral phrenectomy in piglets. Methods Thirty-six piglets were divided into 3 groups according to their ages during the operation (10 d,30 d,50 d). In each group, 6 piglets underwent the left cervical phrenectomy and 6 piglets were used as the shamoperation controls. The expression levels of EGF and KGF were determined by the real time quantitative RT-PCR at 2 weeks after operation.Results The melting curves of RTPCR showed that there was a single peark at the temperature of 80.0, 84.5 and 89.0℃ of EGF,KGF and GAPDH, respectively. In the experimental group, the expression levels of EGF were 3.53±0.36 and 1.73±0.29, and the expression levels of KGF were 4.71±0.42 and 2.77±0.29 in thepiglets undergiong the operation at their ages of 10 d and 30 d.Compared with the control group,the expression levels of EGF (4.60±0.41,2.18±0.24) and KGF(6.05±0.42,3.58±0.31) showed that there was a significant decrease postoperatively in the piglets undergoing the operation at their ages of 10 d and 30 d(P<0.05). However, there was no significant change in the piglets undergoing the operation at their ages of 50 d(P>0.05). The expression levels of EGF and KGF were significantly decreased with the lung development of the piglets(P<0.05). Conclusion The unilateral phrenectomy performed in the piglets younger than 30 d may cause abnormity of the EGF and KGF expression levels. The piglets older than 50 d may not cause a significant influence.
Objective To find new ways for wound healing and tissue expansion by reviewing of progress in recent years in functional molecules which are used for signaling channels of mechanical stress perception and mechanotransduction of keratinocyte. Methods The domestic and international articles were reviewed to summarize the functional molecules and signaling channels of mechanical stress perception and mechanotransduction of keratinocytes. Results The mechanism of mechanical stress perception includes mechano-sensitive channels, growth factor receptor-mediated mechanical stress perception, and mechanical stress perception by protein deformation. The mechanism of mechanotransduction includes cell adhesion-mediated signaling, mitogen-activated protein kinase signaling, the cytoskeleton and extracellular matrix, and so on. Conclusion Keratinocytes can response to the mechanical stress and transfer the effective information to undergo shaping, migration, proliferation, differentiation, and other biological behavior in order to adjust itself to adapt to the new environment.
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 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.
ObjectiveTo investigate the expression of keratinocyte growth factor (KGF) and cyclooxygen-ase-2 (COX-2) protein and microvessel density (MVD), and to explore their function and mechanism in the multistep process of gastric cancer. MethodsThe expressions of KGF and COX-2 protein in 64 samples of gastric cancer and 30 cases of normal gastric mucosa tissues were detected by immunohistochemistry. The MVD was detected by staining the endothelial cells in microvessles using anti-CD34 antibody. ResultsThe positive rate of KGF and COX-2 protein expression in gastric cancer were 65.6% (42/64) and 79.7% (51/64), respectively, which was significantly higher than that in normal gastric mucosa tissues 〔(23.3%, 7/30), P=0.046; (13.3%, 4/30), P=0.008〕. The MVD of gastric cancer was 31.8±8.0, which was significantly higher than that of normal gastric mucosa tissues (14.3±6.1), P=0.000. The MVD in gastric cancer with coexpressive KGF and COX-2 protein was 35.9±5.7, which was significant higher than that with non-coexpressive KGF and COX-2 protein (25.7±7.0), P=0.000. Both the expression of KGF and COX-2 protein were related to the invasion of serosa, lymph node metastasis and TNM staging (Plt;0.05, Plt;0.01). The MVD of gastric cancer tissues was related to lymph node metastasis and TNM staging (Plt;0.05), but unrelated to patient’s age, gender, and differentiation of tumor (Pgt;0.05). The co-expression of KGF and COX-2 protein was frequently found in patients with deeper invasion of serosa, lymph node metastasis, and higher TNM staging (Plt;0.05), but which was not associated withpatient’sage, gender, and differentiation of tumor (Pgt;0.05). The expression of KGF protein was positively correlated to the expression of COX-2 protein (r=0.610, P=0.000). There was positive correlation between MVD and the expression of KGF (r=0.675, P=0.000) and COX-2 protein (r=0.657, P=0.000) in gastric cancer, respectively. ConclusionKGF and COX-2 highly expressed by gastric cancer, which may be involved in the invasion and metastasis of gastric cancer by synergisticly promoting the angiogenesis.
OBJECTIVE: To investigate the skin regeneration using cultured human keratinocytes with collagen sponge transplanted into thickness wound of nude mice. METHODS: Human foreskin from foreskin ectomy procedures was detached with 0.5% Dispase II. Epidermis sheets were separated from dermis and digested with 0.05% Trypsin into single cell suspension. Keratinocytes were cultured and seeded into collagen sponge during logarithmic growth phase. After 3 days, the keratinocytes-collagen sponge were grafted on full thickness wound of nude mice, compared with simple collagen sponge without keratinocytes. The histological, immunohistochemical examination and electron microscopy were detected. RESULTS: After the epidermal substitute was grafted onto wound, the human keratinocytes were able to further proliferate and differentiate and develop into new epithelia. Compared with the control group, the wound healed earlier and contracted less, epithelia matured earlier, and the collagen fiber was less beneath epithelia. CONCLUSION: Keratinocytes can grow on collagen sponge and migrate onto wound to develop into stratified epithelia and inhibit wound contract. The keratinocyte graft can be used to repair skin defect.
To understand the reason of hyperpigmentation following full-thickness skin autograft, 54 guinea pigs were selected as skin autograft models. The changes of density of epidermal keratinocyte (KC) and the amount and distribution of melanin in the epidermal KC were observed by histological, histochemical and autoradiographic techniques. The results showed: (1) The histological changes of KC were in fact a wound-repair process; (2) The increased melanin in KC coordinated with "multi-overlapping screen" effect, a result of multiple layers of "supranuclear cap", was the direct cause of hyperpigmentation of the graft and (3) The hydrolytic disturbance of melanin in KC and the longer life span of the KC were probably the important reasons for the increase of melanin in the epidermis.
Objective Dermal papillae cells are widely applied to reconstruction of tissue engineered hair foll icle and skin. To investigate the difference of the biological characteristics of dermal papillae cells cultured with keratinocyte medium (KM)and normal medium (NM), and to determin whether it is feasible for the reconstruction of tissue engineered hair foll icle using dermal papillae cells cultured in KM. Methods Scalp samples were obtained in rhytidectomy procedure. Dermal papillaes were isolated by two steps digestive treatment, then cultured with KM and NM in two groups. The time of dermal papillae adherence and cell outgrowth was recorded and the rate of dermal papillae adherence was determined after 5 days. As well as, the difference of cell morphology was observed through inverted phase contrast microscope. The maximum generations were determined in two groups and the cell sheets were observed by HE staining. In third-generation cells, the number of aggregates in every dish and the prol iferation by MTT were compared between two groups. Meanwhile, the expression of α-smooth muscle actin (α-SMA) and ALP were detected by immunofluorescence and specific staining in two groups. Results Dermal papillaes of KM group had a higher rate of adherence and fast outgrowth. The rates of adherence were 54.17% and 36.78% in KM group and in NM group, respectively. In KM group, cells adhered after 24 hours and outgrew after 64 hours. While, cells adhered after 48 hours and outgrew after 80 hours in NM group. The cells were bigger in NM group than in KM group. In third-generation cells, 3.06 ± 1.12 and 9.25 ± 1.73 aggregates formed in NM group and KM group, respectively, the difference was significant (P lt; 0.05). In addition, cells could form cell sheets which were muti-layers in KM group. Mostly 7 and 15 generations could been subcultured in NMgroup and KM group, respectively. The result of MTT indicated that cells prol iferated more actively in KM group; absorbance value of KM group was significantly higher than that of NM group after 7 days (P lt; 0.05). The positive of α-SMA were detected in the third-generation cells of both groups. Ocassionally a l ittle few cells expressed ALP with (987 ± 146) m2 positive area in the sixth-generation cells of NM group. However, the cells still expressed ALP with (8 757 ± 558) μm2 positive area in the fourteenthgeneration cells of KM group and the difference was significant (P lt; 0.05). Conclusion Cells proliferate actively and aggregate obviously and could been subcultured more generations in KM. Therefore, culturing dermal papillae cells with KM is feasible for the reconstruction of tissue engineered hair foll icle.
Objective To review the latest research progress on keratinocyte growth factor (KGF), to thoroughlyunderstand its basic characteristics and appl ication methods and to lay a sol id foundation for the research and development of new KGF medicines and improving the qual ity of skin substitutes. Methods Domestical and international l iteratures on KGFin recent years were extensively reviewed and analyzed. Results KGF was secreted by mesenchymal cells and its receptors were distributed in epithel ium to promote the prol iferation, migration and differentiation of epithel ial cell specifically, which closely related to the organ development, wound heal ing, tumorigenesis and immune reconstruction. Conclusion KGF can be used to improve wound heal ing and the performance of skin substitutes. However, the structure of KGF needs to be changed to el iminate its side effects and purify its promoting effect on epithel ial cell growth.
【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.