To investigate the best way of using fibroblast growth factor (FGF) in wound healing, the following experiments were performed. Twelve Wistar rats were chosen. Four 1.5 cm x 1.5 cm middle-thick skin wounds were made in the back of each rat, 2 in each side, and labelled as number 1 to 4. Number 1 wound of each rat was used as control, only PBS was applied to the wound, 50 microliters per time, twice a day from the first day to 11th day. Number 2 wound was sustained medication group, 50 microliters 4 micrograms/ml FGF was applied twice a day from the first day to 11th day; Number 3 wound was early medication group, 50 microliters 8 micrograms/ml FGF was applied twice a day from the first day to 5th day; Number 4 wound was late medication group, 50 microliters 8 micrograms/ml FGF was added twice a day from the 5th day to 11th day. By day 4, 8, 12 and 16, the area of wounds were measured, and the healing time of each wound was recorded. The elastic fiber, collagen fiber and DNA content were measured by immunohistological method. The result showed that the elastic fiber, collagen fiber and DNA content in the groups of FGF used were more than those in the control group. The healing time of the control group was 14.4 days while that of the early meduation group was 13.4 days, late medation group was 13.5 days and sustained medication group was 12.2 days. It was suggested that FGF could accelerate the wound healing, and sustained use of FGF was the best way of giving the drug.
Porpose To investigate the optimal concentration of epidermal growth factor (EGF) and basic fibroblast growth factor (bFGF) on DNA synthesis and their synergism indensity arrested human retinal pigment epithelial (RPE) cells. Methods Growth factor effects in cultured human RPE of the 6th generation were assessed by [3 H]-thymidine incorporation and radioautography. Results EGF and bFGF were potent stimulators when used alone,and their optimal concentrations were 10ng/ml in DMEM and 1ng/ml in 2% serum DMEM.When used in combination (10ng/ml EGF and 10ng/ml bFGF),they caused a significant enhancement of [3 H]-thymidine incorporation about 2.96 times. Conclusion EGF and bFGF were potent stimulators in RPE cells,and demonstrated synergism in their action. (Chin J Ocul Fundus Dis,1998,14:98-100)
ObjectiveTo investigate relationship between ultrastructural changes and expression of basic fibroblast growth factor of diabetic retinopathy in rats.MethodsDiabetes was induced in rats with a single injection of streptozotocin (STZ) and divided into normal control group and 1- , 3- and 5- month diabetes group. The paraffin slide was observed by in-situ hybridization and immunohistochemistry, and retinal ultrastructure was examined by transmission electron microscopy.ResultsNo change of retinal ultrastructure was found in the control group. Different degrees of ultrastructure lesion were found in 1-month diabetic rats with fragmental increase of thickness of basement membrane, swelling of endothelial cells and obvions fingerlike processes in the capillary cavity, disconcentration of heterochromatin both in endothelium and pericyte, and swelling and degeneration of mitochondrion. The edema of endothelial cells of 3-month diabetic rats was more serious than that of 1month ones, and the capillary cavity was nearly occluded. In 5-month diabetic rats, the basement membrane was unevenly thickened, or obviously split. The positive rate of in-situ hybridization in 3-month diabetic rats was 77.8% while the positive rate of immunohistochemical stain was 55.6%, which increased to 88.9% in 5-month diabetic rats.ConclusionsThe occurrence of the ultrastructural changes in STZ rats with diabetic retinopathy is earlier than that of the expression of bFGF.(Chin J Ocul Fundus Dis, 2003,19:348-351)
Objective To study the effect of Fe 3+ -modified carborymethyl celluiose (Fe 3+ -CMC ) on preventing postoperative adhesion and inhibiting the expressions of tumor necrosis factor-α (TNF-α) and fibroblast growth factor (FGF) in the injured parts of postoperative peritoneum. Methods Fourty Wistar mice were divided into 2 groups randomly, and abdominal adhesion models were made, then 0.9% NaCl (control group) and Fe 3+ -CMC (experimental group) were sprayed into the wound surface of abdominal cavity. All mice were killed to observe the adhesion condition on day 14 after operation. Another 120 Wistar mice were divided into 2 groups randomly, and abdominal adhesion models were made as mentioned above. Ten mice were killed which were chosen randomly from 2 groups on day 1, 3, 5, 7, 14 and 60, respectively. The expressions of TNF-α and FGF in the peritoneal injured and adhesion tissues were observed by immunohistochemistry technique. Results The adhesion grade in experimental group was much lower than that in control group ( P < 0.01). The expression of TNF-α (day 3-7 after operation) and FGF (day 5-7 after operation) in experimental group were lower than those in control group ( P < 0.05).Conclusion Fe 3+ -CMC can decrease postoperative adhesion grade and prevent the expressions of TNF-α and FGF in injured parts of postoperative peritoneum.
Objective To observe the proapoptotic effect ofthe homogenate of different parts of pig’s full thickness dermal wounds on cultured fibroblasts. Methods The tissues were dissected from the wound center and subneoepithelium separately 15 days after homogenization and sterilization, the specimens stored at -70℃. The forth passage of the fibroblasts were cultured for 16 hours in different culture solutions and were grouped into 7 groups: DMEM containing 5% fetal bovine serum as Group Ⅰ, DMEM containing 5% homogenate of tissue from wound center as GroupⅡ, DMEM containing 5% homogenate of tissue from subneoepithelium as Group Ⅲ, the culture solution of Group Ⅱmixed with 10 μg/ml GM6001 in Group Ⅳ, with the culturing medium of Group Ⅲplus 10 μg/ml GM6001 as Group Ⅴ, the culture solution of Group Ⅱ mixed with 10 ng/ml aFGF as Group Ⅵ, and the culture solution of Group Ⅲ mixed with 10 ng/ml aFGF as Group Ⅶ. In all groups except Group Ⅰ, the fibroblasts of the 6 pigs were treated with the homogenate derived from the same animal respectively. After being incubated in Annexin Ⅴ-FITC and PI, cells were analyzed by Flow Cytometry and the rate of apoptotic cells was acquired. The data were analyzed by SPSS 11.0 using Leastsignificant Difference test(LSD). Results The apoptotic rate of the 7 groups were as follows:4.39%±0.41% in Group Ⅰ,10.98%±1.42% in Group Ⅱ,13.47%±1.44% in Group Ⅲ,7.2%±0.46% in Group Ⅳ,12.1%±0.85% in Group Ⅴ,3.9%±0.63% in Group Ⅵ,9.8%±0.50% in Group Ⅶ; there were significant differences between every two groups except Group Ⅰand Group Ⅵ. Conclusion Homogenate of the tissue derived from the subneoepithelium has greater proapoptotic effect than that from the wound center; the proapoptotic effect of homogenate of the tissue both under neoepithelium and in wound center can be significantly alleviated by acid fibroblast growth factor, partly because of MMPs.
Objective To establish an effective way to cryopreserveprecartilaginous stem cells(PSCs) of neonate rat. Methods PSCs [fibroblast growth factor-3(FGFR-3) positive cells] were isolated and purified by magnetic cell sorting method. PSCs were cultured and amplified to the third generation. PSCs were preserved in liquid nitrogen. The biological properties of cryopreserved PSCs were investigated by reverse transcriptase polymerase chain reaction(RT-PCR), immunohistochemistry, and immunofluorescence. Results Immunohistochemical and immunofluorescent analysis showed widespread expression of FGFR-3 in cryopreserved PSCs. FGFR-3 could be dectected by RT-PCR in cryopreserved PSCs.Cryopreserved PSCs kept high cell viability, and phenotypic and proliferation characteristics of PSCs in vivo.Conclusion Cryopreservation of PSCs can supply adequate qualified cells for repairing the defects of epiphyseal growth plate by tissue engineering technique.
Objective To observe the affection of optic nerve under acute ocular hypertension and the effect of protection of bFGF on optic nerve. Methods BSS was perfused into anterior chamber of rabbits to increase the intraocular pressure to cause retinal ischemia. A computer image analysis system was used to count the optic nerve axons.Eyes were intravitreally injected with bFGF and then the number of optic nerve axons of the normal rabbits,and hypertension with and without bFGE treatment groups were counted respectively. Results The number of optic nerve axons in ocular hypertension eyes was less than the normal eyes(P=0.00003).The bFGF treated eyes had more optic nerve axons than the controls(P=0.0078). Conclusions The acute ocular hypertension may cause the loss of the nerve axons,and bFGF may be effective in protecting optic nerve in acute ocular hypertension. (Chin J Ocul Fundus Dis,2000,16:94-96)
Objctive To explore the relationship between the expression of Fas/FasL and the apoptosis occurs in retinal ischemia/reperfusion injury of rats , as well as the therapeutic effects of bFGF on the ischemic retina.Methods Th emodels of retinal ischemia/reperfusion injury was made by transient elevating introcular pressure. A total of 28 rats were divided into normal and operation group.The latter were subdivided into 1 hour, 6, 12, 24, 48 and 72 hours after reperfusion group, in which the left eyes of the rats were in the ischemia/reper fusion groups and the right ones were in the treatment groups (bFGF intracameral injection). Apoptosis was assessed by the terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick-end labelling (TUNEL) method, and the expression of Fas and Fas ligand was studied by strept avidin-biotin complex (SABC)immunohistochemistry. Results No positive cells were observed in the normal rats′retinae, but there was a significant number of TUNEL positive cells in 6-24 hours after transient ischemia followed by a decrease at the 48th hour. The number of TUNEL positive cells reached a maximum at the 24th hour after ischemia. The expression of Fas gradually increased as early as when it was at the 6th hour, reached a peak at the 24th hour, and then decreased at the 48th hour. Similarly, the expression of Fas ligand was at peak in 24-48 hours in GCL and INL of retina. Conclusions Retinal ischemia-reperfusion after transient elevated IOP induced apoptosis of cells in the retina. Fas/FasL may play an important role in the early events of the apoptotic pathways. bFGF can rescue RGCs from retinal ischemia/reperfusion injury through downregulation of the expression of Fas/FasL and may represent an important mechanism for therapeutic neuroprotection. (Chin J Ocul Fundus Dis,2003,19:160-163)
OBJECTIVE: To study the stimulating effects of basic fibroblast growth factor(bFGF) on fibroblast function and its ability to expression of c-fos gene. Furthermore, to explore the possible network action between bFGF and oncogene in modulating wound healing. METHODS: Cultured rat fibroblasts were divided into bFGF stimulating group and control group. Fibroblasts in bFGF stimulating group were treated with bFGF in a dosage of 40 ng/culture hole, while the control fibroblasts were treated with the same vehicle without bFGF. The morphology, cell vitality and their ability to express c-fos gene in the fibroblasts in both groups were studied with MTT and immunohistochemical methods. RESULTS: All fibroblasts in bFGF treated groups were enlarged and showed increased vitality with MTT method. C-fos gene expression in bFGF stimulating group was increased, especially in nucleus when compared with those in control group. CONCLUSION: The results show that the function and the ability to express c-fos gene in bFGF treated fibroblasts are enhanced. Combined with our previous studies, it may make a conclusion that there is a network regulation mechanism between growth factors and some oncogenes.
OBJECTIVE: To further explore the effects of fibroblast growth factor on soft tissue repair. METHODS: Based on the data from our experiments and clinical trial and data from other reports, a further reconsideration about fibroblast growth factor and soft tissue repair was demonstrated, including embryonic development, histology, animal experiments, clinical trial and prospect. RESULTS: Amounts of basic and clinical data showed that fibroblast growth factor was needed in embryonic development. Exogenous fibroblast growth factor could accelerate wound healing. CONCLUSION: Fibroblast growth factor is a bioactive protein which can obviously promote wound healing, it has broad prospects of clinical application.