Objective To detect gene mutations of Fas gene death domain (exons 7-9) in 2 Chinese keloid pedigrees and to investigatethe significance of Fas gene mutations in the keloid formation.Methods The samples were selected from keloid pedigrees A and B in 2005. The polymerase chainreaction and DNA sequencing analysis technique were used to detect the sequenceof exons 7-9 of Fas gene from keloid tissues of 2 male patients in pedigree A,their peripheral vein blood and their surrounding normal skin served as their own contrast, their spouses’ peripheral vein blood served as normal contrast, the peripheral vein blood of 2 patients in pedigree B served as a contrast between different keloid pedigrees.Results No gene mutations and single nucleotidepolymorphism in Fas gene exons 7, 8 were found in all samples from pedigrees A and B. But point mutations and single nucleotide polymorphism in Fas gene exon 9were identified in 11 bp and 53 bpin 2 keloid tissue samples from Chinese keloid pedigree A.Conclusion Fas gene point mutations maybe indicate some relations in Fas protein function and keloid formation.
Objective To replace dysfunctional Fas gene and reconstruct the blocked Fas signal by using two kinds of prepared recombinantAdenovirus which have human Fas gene. Methods After the keloids derived from fibroblasts were infected by the Adenovicus, the expressions of Fas protein before the exposure and after the exposure was compared. Then the function of the newly produced Fas protein was detected. Results The highly improve expression of Fas protein in the infected keloid derived fibroblasts was detected. Obvious apoptosis was also detected in the infected keloid derived from fibroblasts under the condition of exposing to FasMcab. Conclusion ①The recombinant Adenovirus with Fas gene can transfect the Fas gene into keloidderived fibroblasts and highly improved the expression of Fas protein. The newly expressed Fas gene can reconstruct the blocked Fas signal. ②Ad-Fas(B) has better therapeutic effect in vitro gene therapy. ③ The correlation between keloid and Fas gene was further proved and it may pave the way for further gene therapy in keloid .
Objective To research the effect of γ-ray released from 103Pd radioactive stent on the expression of Fas gene and its relation with apoptosis of cholangiocarcinoma cell and the significances through the establishment of human cholangiocarcinoma model. Methods The model of nude mouse with implanted human cholangiocarcinoma was established. The mice were divided into study group and control group, 37 MBq 103Pd biliary stent was implanted in the study group and the ordinary metal biliary stent was implanted in the control group. The volume of tumor was measured, the cell apoptosis was detected by the TUNEL method and the expression of Fas gene of the cell apoptosis of the induced human cholangiocarcinoma was checked out by immunohistochemistry staining 10 d after the implantation. Results Compared with the control group, the growing speed of the volume of tumor in study group was significantly reduced (Plt;0.05), the expression positive rate of Fas gene was significantly higher (Plt;0.05), and the apoptotic rate of cancer cells was also higher (Plt;0.01). Conclusions The 103Pd radioactive stent can induce the cell apoptosis in nude mouse model with implanted human cholangiocarcinoma inhibit the cell growth of bile duct cancer and may promote the apoptosis of cancer cells by increasing the expression of Fas gene. It may be helpful for the further study of treatment for bile duct cancer using 103Pd radioactive stent.
Objective To research the effect of γ-radiation released from 103Pd radioactive stent on the expression of Fas gene and its relation with apoptosis of bile duct cancer cells lines. Methods The cancer cells of bile duct were dissociated into suspension in culture flasks, and the number of cells was counted by hemacytometry. The suspension was then stored in 2 ml freezing tubes in the density of 1×105/ml. They were set in two stents: general stent (general stent group) and 103Pd radioactive stent (103Pd stent group). The expression of Fas gene and apoptosis of bile duct cancer cells in general stent group and 103Pd stent group were analysed with immunohistochemistry technique and TUNEL method, respectively. Results The expression level of Fas gene in 103Pd stent group was significantly higher than that in general stent group (P<0.05), and the number of apoptotic cancer cells in 103Pd stent group was also significantly more than that in general stent group (P<0.01). Conclusion There is a correlation between the expression of Fas gene and the apoptosis of bile duct cancer cells, which means that 103Pd radioactive stent may increase the expression of Fas gene and promote the apoptosis of cancer cells. It may be helpful for the further study of treatment for bile duct cancer using 103Pd radiative stent.