Infection of MSCs by adenovirus expression system expressing NRF2 as a cytoprotective factor

Poor viability of Mesenchymal Stem Cells [MSCs] following transplantation is one of the major challenges in their therapeutic application. Manipulation of MSCs by the genetic engineering method is one of the strategies used to protect the cells against cytotoxic microenvironment. However, maintaining multi differentiation capacity of MSCs following manipulation is important. We investigated if the manipulation of MSCs with NRF2 affects the multi differentiation capacity. MSCs were isolated from bone marrow. NRF2 was isolated and TOPO cloned into the pENTR vector. The recombinant vector was transferred into pAD/CMV/V5-DEST vector by gateway technology. Recombinant adenovirus was produced in AD293 cells, followed by being infected into MSCs. Expression of NRF2 was verified by RT-PCR. The NRF2 engineered MSCs were exposed to stress conditions followed by the evaluation of the cells viability and apoptosis. Finally, NRF2 expressing MSCs differentiation into osteoblast and adipocyte lineages was studied. NRF2 was successfully expressed in MSCs. NRF2- MSCs differentiation into osteoblast and adipocyte lineages indicating overexpression of NRF2 does not affect the differentiation property of MSCs. Expression of NRF2, a well known cytoprotective factor, by using adenovirus expression system does not intervene in the differentiation capacity of MSCs. NRF2-MSCs might be applicable for stem cell-based cell therapy in future

Effects of polygonum aviculare herbal extract on proliferation and apoptotic gene expression of MCF-7

One of the most common malignancies in women is breast cancer. Although several treatments for breast cancer are available, application of herbal medicine as a supplementary treatment is a new option to help curing the disease. In this study anticancer effects of Polygonum avicular herbal extract was investigated. Polygonum avicular extract was obtained by methanol. MCF-7 cell line was treated with different concentrations of Polygonum avicular [50, 100, 150, 200, 250, 300,350 400 ng/ micro l] for different time lengths [6, 12, 24, and 48 hrs]. MTT assay and Flow Cytometry were used to evaluate cell proliferation and apoptosis, respectively. RT-PCR was also carried out to evaluate the expression of apoptotic genes. Results showed that Polygonum avicular induced cytotoxicity in MCF- 7 cell line at concentrations higher than 300 ng/ micro l and this was confirmed by the highest rate of cell death as measured by Trypan Blue and MTT assays. RT-PCR results showed up-regulation of P53 and down-regulation of Bcl-2 proteins which implied the ability of Polygonum avicular to induce apoptosis in MCF-7 cells and confirmed its anticancer property. Further studies are required to evaluate effects of the extract on other apoptotic genes

[Application of expired platelets in the preparation of platelet gel and study of proliferative effects of expired platelet derived growth factor on variety of cell lines]

There is growing evidence indicating that growth factors derived from platelets can be used in wound healing. This study aimed to investigate whether old platelets can be used as the main material for preparation of platelet gel and as substitute for FBS and FCS in cell culture medium. In this exprimental study, platelets were prepared from voluntary blood donors by centrifugation. To prove the hypothesis that the platelet gel and the growth factor derived from expired platelets are able to propagate different cells, platelet derived factors were prepared from both new and expired platelet-rich plasma. The concentration of platelet-derived growth factors was measured by ELISA and cell proliferation was measured by MTT assay. The results showed the high quality of platelet gel obtained from old platelets. Our results also revealed that old platelets released growth factors similar to those released by new platelets. The growth factors derived from old and new platelets had the same proliferation effects on MSC, CHO, and Fibroblast cell lines Old platelets released the same growth factors that new platelets did; this showed that old platelets as valuable constituents of blood are cost effective to be used

Isolation, cloning and expression of recombinant human FVII in baculovirus expression system

Background and purpose: Factor VII is one of the important coagulation factors in extrinsic blood coagulation pathway, which can resolve the use of FVIII and FIX for hemophilia patients by activating FX. Recombinant expression of this factor can eliminate the potential problems in preparing those factors from plasma and the risk of transferring hematological diseases. Therefore, the present study intended to investigate the expression of recombinant FVII at a higher level using Gateway technology and TOPO cloning

Methods and Materials: In this experimental study, Factor VII cDNA was isolated from HepG2 cell line by PCR, and cloned to prokaryote TOPO vector by TOPO cloning reaction. The recombinant vector was extracted for bacterial colonies after screening, and was used in Gateway adapted Baculovirus DNA by LR recombination reaction. The recombinant virus was transfected onto insect cell line, and the expression of the protein was analyzed after necessary screening. Findings of the protein expression via ELISA were presented in triadic [Mean +/- SD]; the differences across the three groups were investigated using Student t-test

Results: Cloning and recombination reaction analysis by PCR determined cloning of rFVII in high accuracy [90%] in the vectors. High level expression of recombinant FVII was confirmed by SDS-PAGE, ELISA, and Western blot analysis [30g/ml]. The highest expression level was produced on the 7th day after transfection [1.960 +/- 0.076]. Determined by ELISA, this result was negatively significant in the transfected sample [P<0.001]

Conclusion: Findings of the analysis of the recombinant protein expression by Baculovirus expression system indicated its production in a larger scale than similar eukaryote and prokaryote expression systems

Isolation, cloning, expression and purification of recombinant RhD antigen from cord blood

Rh [Rhesus] is a highly complex blood group system in man deeply rooted in transfusion medicine. Isolation of RhD from cord blood, cloning and expression of recombinant RhD antigen in bacterial expression system was the aim of this study. Total RNAs were extracted from cord blood [O[+]]. The quality of RNA was determined by electrophoresis. In order to obtain coding sequence of RhD antigen cDNA was synthesized and Rh D gene was amplified by RT-PCR. The isolated RhD gene was cloned to pUCIS vector and transformed to DH5alpha. The confirmed construct was sub cloned into expression vector, pBADgIII/A, and expressed in Top 10 E.coli. The expressed protein was characterized by SDS-PAGE and western blot analysis. Antigenicity of the expressed protein was assessed by ELISA using commercially available human anti-RhD polyclonal antibody with peroxidase conjugated goat anti-human IgG, IgM, IgA as secondary antibody. RhD gene was successfully cloned and expressed. The expected size of recombinant RhD protein was detected in SDS-PAGE, and confirmed by dot and western blot analysis. RhD antibody reacted with recombinant RhD antigen as well as with RhD polypeptide extracted from RBCs membrane. The recombinant RhD may be helpful to further investigate the molecular basis of RhD protein and could be applicable for production anti- D antibody in an animal model

[Isolation and detection of RhD antigen from red blood cell [RBC] membrane by immune- precipitation method]

Rh [Rhesus] is a highly complex blood group system in man which plays an important role in transfusion medicine. The aim of this study was the isolation of RhD protein from the membrane of RBCs. In this experimental study immunoprecipitation method with human anti-RhD polyclonal antibody was utilized for the isolation of RhD antigen from Rh[+] human blood samples Proteins of RBCs were characterized by SDS-PAGE and Western blot analysis. Antigenicity of the RhD protein was assessed by ELISA using commercially available human anti-RhD polyclonal antibody with peroxidase conjugated goat anti-human as a secondary antibody. The results show that RhD protein has successfully been isolated by immunoprecipitation method. The expected size of RhD protein was confirmed by Western blot analysis. RhD antibody reacted with RhD antigen prepared from ghost with polyclonal antibody in ELISA, but no reaction was observed in Western blot analysis with monoclonal antibody: It is necessary to mention that this is the primary report of relative purification of RhD and further studies are recommended. The RhD may be helpful to further investigate the molecular basis of RhD protein and could be applicable for production of anti-D antibody in an animal model