ABSTRACT
BACKGROUND:Immune rejections after organ transplantation or serious adverse reactions due to immunosuppressive drugs show a lack of effective treatments and poor therapeutic outcomes. Therefore, we try to find an effective immune suprresion method in combination of the latest immunomodulatory achievements. OBJECTIVE:To construct a lentiviral vector overexpressing indoleamine 2,3-dioxygenase (IDO). METHODS:(1) The IDO gene that was successful y contructed was inserted into lentiviral packaging plasmids GV308 to construct GV308-IDO lentivirus packaging plasmids. (2) The 293T cel s with 80%confluence were co-cultured with 5'LTR and 3'LTR, basic elements of lentiviral packaging auxiliary components, including Psi, cPPT, 3FLAG, TetR, IRES, WRPE, TetIIP, Ubiquitin Promoter, SV40 origin and HIV. RESULTS AND CONCLUSION:Western blot assay showed that in 10 g/L agarose gel electrophoresis, there was a target fragment at Mr 48 000. This value was consistent with the size of IDO protein. RT-PCR results showed visible IDO expression in 293T cel s. These findings suggest that IDO fusion gene has been successful y reorganized in the lentiviral packaging plasmids.
ABSTRACT
BACKGROUND:Since the FDA was the first to approve autologous bone marrow stem cel transplantation for treatment of myocardial infarction in 2003, there has a large number of clinical and basic research reports. However, their conclusions are different and stem cel homing is a key point. OBJECTIVE:To explore the homing abilities of different subgroups of mouse bone marrow mesenchymal stem cels in myocardial regeneration. METHODS:After mouse bone marrow mesenchymal stem cels were detected using a mouse cardiac stem cel surface differentiation antigen, four cel subgroups were separated on the basis of CD45 and CD31. The homing abilities of the four subgroups were assayed in a Transwel chamberin vitro. The different cel subgroups were injected into the model mice suffering from myocardial infarction for 48 hours. The mice were sacrificed at 48 hours, 96 hours, and 7 days after injection; the hearts were taken and analyzed through whole-body imaging and fluorescence intensity detection. RESULTS AND CONCLUSION:The SCA-1+/CD45+/CD31+ subgroup exhibited the strongest homing ability. The whole-body imaging indicated that the fluorescence intensity of SCA-1+/CD45+/CD31+ subgroup was higher than that of the other subgroups at 48 hours, 96 hours and 7 days after stem cel injection. The migration rate of SCA-1+/CD45+/CD31+ subgroup was also the highest. These findings indicate that the homing ability of the SCA-1+/CD45+/CD31+ subgroup of mouse bone marrow mesenchymal stem cels exhibit a homing trend to the damaged myocardial tissue.