ObjectiveTo investigate target gene therapy for hepatocellular carcinoma (HCC). MethodsHerpes simplex virus thymidine kinase (HSVTK) gene was inserted into the gene of AFP enhancer/ALB promoter with adenoassociated virus (AAV) plasmid (WAV2) as a carrier, and a hybrid plasmid pWAV2/AFPALB/HYTK was constructed. Besides, plasmid pEGFP1/AFPALB was also constructed. Two kinds of plasmids were transferred into AFP positive cells HepG2 and AFP negative cells 7721, SPC and 7901.ResultsIt was found that enhance green fluorescence protein could only be seen in AFP positive cells HepG2. 710 bp DNA was amplified only in AFP positive HepG2 cells.ConclusionPlasmid pWAV2/AFPALB/HYTK for HCC demonstrates specificity in vitro.
Objective To clarify the trends of expression levels of several up-regulated micro RNA (miRNA) in tissues of atrophic bone nonunion and mRNAs and proteins of their related target genes in osteogenic differentiation of human bone marrow mesenchymal stem cells (hBMSCs), and to explore their biological functions. Methods The hBMSCs were isolated from bone marrow of il iac bone by gradient centrifugation, and cultured. Osteogenic culture medium was used for osteogenic differentiation of the 4th generation of hBMSCs. The changes of corresponding miRNAs, mRNA and protein expression levels of related target genes were observed at 0 hour, 12 hours, 1 day, 2 days, 4 days, 7 days, and 14 days, by quantitative real-time PCR and Western blot. Results In the process of hBMSCs osteogenic differentiation, the mRNA and protein expression levels of osteoblastic target genes [alkal ine phosphatase l iver/bone/kidney (ALPL), bone morphogeneticprotein 2 (BMP-2), and platelet-derived factor alpha polypeptide (PDGF-A)] at most time points increased significantly whencompared with the values at 0 hour except that of BMP-2 decreased at 12 hours and 1 day, with maximum changes at 1 to 7 days. The miRNA expression levels, mRNA and protein expression levels changed significantly at different time points, while the trends of hsa-miRNA-149 and hsa-miRNA-654-5p changes were negatively correlated with the trends of ALPL and BMP-2 mRNA and protein expression changes respectively (P lt; 0.05). There was no obviously negative correlation between the trends of hsa-miRNA-221 change and PDGF-A change (P gt; 0.05). Conclusion In the osteogenic differentiation process of hBMSCs, hsa-miRNA-149 and hsa-miRNA-654-5p are closely related with the mRNA and protein regulation of ALPL and BMP-2, respectively.
ObjectiveTo investigate the microRNA (miRNA) expression profile during chondrogenic differentiation of human adipose-derived stem cells (hADSCs), and assess the roles of involved miRNAs during chondrogenesis. MethodshADSCs were harvested and cultured from donors who underwent elective liposuction or other abdominal surgery. When the cells were passaged to P3, chondrogenic induction medium was used for chondrogenic differentiation. The morphology of the cells was observed by inverted phase contrast microscopy. Alcian blue staining was carried out at 21 days after induction to access the chondrogenic status. The expressions of chondrogenic proteins were detected by ELISA at 0, 7, 14, and 21 days. The miRNA expression profiles at pre- and post-chondrogenic induction were obtained by microarray assay, and differentially expressed miRNAs were verified by real-time quantitative PCR (qRT-PCR). The targets of the miRNAs were predicted by online software programs. ResultshADSCs were cultured successfully and induced with chondrogenic medium. At 21 days after chondrogenic induction, the cells were stained positively for alcian blue staining. At 7, 14, and 21 days after chondrogenic induction, the levels of collogen type Ⅱ, Col2a1, aggrecan, Col10a1, and chondroitin sulfate in induced hADSCs were significantly higher than those in noninduced hADSCs (P<0.05). Eleven differentially expressed miRNAs were found, including seven up-regulated and four down-regulated. Predicted target genes of the differentially expressed miRNAs were based on the overlap from three public prediction algorithms, with the known functions of regulating chondrogenic differentiation of stem cells, selfrenewal, signal transduction, intracellular signaling cascade, and cell cycle control. ConclusionA group of miRNAs and their target genes are identified, which may play important roles in regulating chondrogenic differentiation of hADSCs. These results will facilitate the initial understanding of the molecular mechanism of chondrogenic differentiation in hADSCs and subsequently control hADSCs differentiation, and provide high performance seed cells for cartilage tissue engineering.
MicroRNA-92a (miR-92a) is an evolutionarily highly conserved pathogenic microRNA that is a member of the microRNA-17-92 gene cluster and is involved in the regulation of biological activities such as cell proliferation, apoptosis and differentiation. Recent studies have revealed that disorders of miR-92a expression are associated with disease development and exert pathogenic effects mainly through the regulation of target genes or target proteins. The current research related to miR-92a is mainly focused on malignant tumors, and its high expression has been found to be associated with cancer cell malignancy and reduced sensitivity of tumors to radiotherapy. miR-92a targeting target genes or target proteins to cause disease and its relationship with radiotherapy has been a hot research topic in recent years. Based on this, This article reviews the latest research on miR-92a target gene or target protein pathogenesis and its impact on chemotherapy in order to provide targets for clinical disease treatment.