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Objective@#To investigate the role of long non-coding RNA double homeobox A pseudogene 9 (DUXAP9) in head and neck squamous cell carcinoma (HNSCC) and to evaluate the expression level, molecular function and mechanism of DUXAP9 in HNSCC cells.@*Methods@#Differential expression of lncRNAs between normal and tumor tissues in HNSCC tissues were screened using lncRNA microarray, the expression level of DUXAP9 in HNSCC tissues and its relationship with prognosis were analyzed in the TCGA database. The expression levels of DUXAP9 in HNSCC tissues and cell lines were detected using qRT-PCR. The function in HNSCC cells after DUXAP9 silencing was evaluated using the CCK-8 assay, wound healing assay, Transwell migration assay and subcutaneous xenograft assay in nude mice. Changes in the transcription and translation of epithelial-mesenchymal transition (EMT)-related proteins in head and neck squamous cell carcinoma cells after DUXAP9 silencing were detected using qRT-PCR and Western blot.@*Results@#lncRNA microarray results showed that, compared to adjacent normal tissues, DUXAP9 was abnormally upregulated in HNSCC tissues. Analysis from TCGA database showed that, compared to HNSCC patients with low DUXAP9 expression, HNSCC patients with high DUXAP9 expression had poorer survival. The relative expression of DUXAP9 in HNSCC tissues and 4 HNSCC cell lines increased compared to paired adjacent normal tissues as detected using qRT-PCR. Silencing DUXAP9 significantly inhibited the proliferation, migration and expression of EMT-related genes in HNSCC cells. The silencing of DUXAP9 significantly inhibited subcutaneous tumorigenesis of the HNSCC cell line CAL27 in nude mice.@* Conclusion@#Silencing DUXAP9 significantly inhibited the proliferation of HNSCC cells and subcutaneous xenografts in nude mice. DUXAP9 may mediate the migration of head and neck squamous cell carcinoma cells via the EMT pathway.
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@#The aim of this study was to investigate the effect of transmembrane 9 superfamily protein member 2 (TM9SF2) in proliferation and migration of triple negative breast cancer cell line MDA-MB-231.The expression of TM9SF2 in triple negative breast cancer cell line MDA-MB-231 and nontumorigenic mammary epithelial cell line MCF-10A were measured by Western blot. MDA-MB-231 cells were treated with siRNA-TM9SF2 to knock-down the expression of TM9SF2. The effect of silencing TM9SF2 was measured with Western blot.The proliferation of cells was tested by MTS,and the migration was measured with Transwell and wound-healing assay.Proteins related to proliferation (PI3K,AKT,SRC and ERK) and migration (Snail,Slug and N-cadherin) were measured with Western blot.Protein expressions of TM9SF2 was better improved in triple negative breast cancer MDA-MB-231 cell line than MCF-10A.Compared with the control group, the siRNA-TM9SF2 infected group had lower expressions of PI3K, Snail, Slug and N-cadherin, and at the same time phosphorylation of AKT was decreased. The results suggest TM9SF2 can promote the proliferation and metastasis of triple negative breast cancer MDA-MB-231 cell line.
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The functionality of DNA biomacromolecules has been widely excavated, as therapeutic drugs, carriers, and functionalized modification derivatives. In this study, we developed a series of DNA tetrahedron nanocages (Td),
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OBJECTIVE: To investigate the effect of autophagy gene Beclin1 silencing on enhancing the drug sensitivity of imatinib-resistant human myeloid leukemia cell line K562/IMA. METHODS: Imatinib-resistant human myeloid leukemia cell line K562/IMA was constructed by the combination of the first dose of high-dose shock therapy and gradual increase of dose. Imatinib interfered with K562 and K562/IMA cell lines. Cell viability was detected by CCK-8. Apoptosis rate was detected by flow cytometry. Western-blot assay was used to determine the drug resistance level. The expression of Beclin1 in drug resistant strains was detected. Small interfering RNA (siRNA) transfected Beclin1 siRNA-Beclin1 was used to silence the Beclin1 gene of K562/IMA. Control group (control), siRNA negative control group (siRNA-NC) and Beclin1 siRNA group (siRNA-Beclin1) were set up. RT-QPCR and Western-blot were used to identify the expression level of Beclin1 protein and mRNA in each group after silencing. CCK-8 method was used to detect the sensitivity of each group of cells to imatinib, and the half inhibitory concentration IC50 was calculated. The apoptosis rate of each group was detected by flow cytometry. The expression levels of Beclin 1, Bcl-2, Bax, cleaved-caspase 3, caspase-3 and cytochrome C(cyto-C) were detected by Western-blot assay, and the metastatic and invasive ability of cells was detected by Transwell chamber. RESULTS: K562 / IMA cell lines were resistant to imatinib at 10 μmol•L-1, and the expression of Beclin1 was higher than that of K562 cell lines. The cell viability of K562/IMA was significantly higher than that of K562 cell lines in the gradient concentration range, while the apoptosis rate was lower than that of K562 cell lines. After siRNA silencing Beclin-1, the cell viability and apoptosis rate of siRNA-Beclin 1 group were significantly lower than those of control group, and the IC50 value of half inhibitory concentration was significantly lower than that of control group. The levels of Bax, cleaved-caspase 3, caspase-3 and cyto-C in the cells were significantly higher than those in the control group, while the levels of Bcl-2 were significantly lower than those in the control group. CONCLUSION: Beclin1 plays an important role in imatinib resistance in human myeloid leukemia, and autophagy may be involved in the drug resistance process. After silencing Beclin1, cell resistance level can be reduced and drug sensitivity improved.
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Objective: To investigate the effects of silencing zinc finger E-box binding homeoboxl (ZEB1) gene on the expressions of mesenchymal markers and cell migration in the glioma U87 cells, and to clarify the effect of ZEB1 on the epithelial to mesenchymal transition (EMT) in the glioma cells. Methods: The constructed ZEB1 shRNA interfering plasmid and control plasmid (shCtrl) were transfected into the glioma U87 cells and the interfering effects were detected by Western blotting method. The glioma U87 cells were divided into control group (the glioma U87 cells were transfected with shCtrl), EMT group (EMT was induced by TGF-fil in the glioma U87 cells transfected with shCtrl) and ZEB1 silence group (EMT was induced by TGF-fil in the glioma U87 cells transfected with ZEB1 shRNAs plasmid). The protein expression levels of mesenchymal markers (N-cadherin, Vimentin), and matrix metalloproteinase-9 (MMP-9) in the glioma U87 cells were measured by Western blotting method. The scratch-healing assay was performed to examine the migration ability of glioma cells. Results: The Western blotting results showed that the expression levels of ZEB1 in the glioma U87 cells transfected with shZEBl # 1 and shZEBl # 2 were significantly lower than that in the cells transfected with shCtrl (P<0. 05 or P< 0. 01), and the inhibitory effect of shZEBl #2 on the ZEB1 expression was more obvious, indicating that ZEB1 was stably transfected into the U87 cells. Compared with control group, the expression levels of mesenchymal markers N-cadherin, Vimentin, and MMP-9 in EMT group were significantly increased (P<0. 05 or P<0. 01). Compared with EMT group, the expression levels of the above proteins in ZEB1 silencing group were markedly reduced (P< 0. 05 or P<0. 01). The cell migration rate in EMT group was obviously elevated compared with control group (P< 0. 01), and the cell migration rate of the glioma U87 cells in ZEB1 silence group was significantly lower than that in EMT group (P<0. 01). Conclusion: Silencing ZEB1 gene expression can inhibit the EMT in the glioma U87 cells and reduce the cell migration abilities, suggesting ZEB1 as an important therapeutic target of invasive glioma.
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Objective:To observe the changes of inflammatory damage in the brain of rats after focal cerebral ischemia-reperfusion, and explore the effect of the initiation of IκB kinases β (IKKβ), which is the key protein of activating nuclear factor (NF)-kappa B signaling pathway in inflammatory response, and the mechanism of electroacupuncture inhibiting inflammatory damage. Methods:A total of 240 male Sprague-Dawley rats were randomly divided into sham group, ischemia-reperfusion group, electroacupuncture group, IKKβ silencing group, IKKβ overexpression group and IKKβ overexpression + electroacupuncture group, each group was further divided into six hours, twelve hours, 24 hours, 48 hours and 72 hours subgroups. The right middle cerebral artery occlusion reperfusion model was established by modified thread embolization. The IKKβ gene was intervened by gene silencing and gene overexpression technology. Results:Compared with the model group, the neurological function score increased (P < 0.05), the cerebral infarction volume decreased (P < 0.05), the activation of NF-κB p65 was inhibited, and the content of proinflammatory factors decreased (P < 0.05) in IKKβ silencing group. Compared with IKKβ silencing group, the above results were significantly worse in IKKβ overexpression group (P < 0.05), and microglia in cerebral ischemic cortex were significantly activated. The activation of microglia and activation of IKKβ were significantly inhibited in IKKβ overexpression + electroacupuncture group. Conclusion:IKKβ gene silencing could inhibit the inflammatory response of cerebral ischemic cortex mediated by NF-κB signaling pathway, and over-expression of IKKβ could lead to severe inflammatory damage in ischemic cortex. Electroacupuncture could inhibit the inflammatory damage after focal cerebral ischemia-reperfusion by regulating the activity of IKKβ.
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Objective@#To study the oxidative damage of di- (2-ethylhexyl) phthalate (DEHP) on MCF-7 cells, and to investigate the effects of 3β-hydroxysteroid dehydrogenase (3β-HSD) gene silence or overexpression on DEHP-induced oxidative damage.@*Methods@#MCF-7 cells, 3β-HSD gene silencing cells and 3β-HSD gene overexpression cells were treated with different doses of DEHP (0,0.05,0.1,0.2,0.4,0.8 mmol/L) for 24h, then intracellular oxidative damage index such as MDA, SOD, GSH, GSH-PX were detected, DNA repair gene hOGG1, hMTH1 mRNA expression were tested by Q-PCR, hOGG1, hMTH1 protein expression were detected by western blot.@*Results@#After MCF-7 cells were treated by DEHP, MDA levels increased; SOD activity, GSH content, GSH-PX activity decreased, hOGG1 and hMTH1 mRNA expression levels increased, hOGG1 and hMTH1 protein expression levels increased, the differences were statistically significant when compared with control (P<0.05 or P<0.01) . In 3β-HSD gene silencing cells which were treated by DEHP, when compared with the same dose group of MCF-7 cells, MDA content increased, SOD activity, GSH content, GSH-PX activity decreased, hOGG1 and hMTH1 mRNA expression levels decreased, hOGG1 and hMTH1 protein expression levels decreased, the difference were statistically significant (P<0.05 or P<0.01) . In 3β-HSD gene overexpression cells which were treated by DEHP, when compared with the same dose group of MCF-7 cells, MDA content decreased; SOD activity, GSH content, GSH-PX activity increased, of hOGG1 and hMTH1 mRNA expression levels increased, hOGG1 and hMTH1 protein expression levels increased, the difference were statistically significant (P<0.05 or P<0.01) .@*Conclusion@#DEHP could cause oxidative damage in MCF-7 cells, induce the changes of related genes and proteins, 3β-HSD plays an antioxidant role in the process of DEHP ox-idative damage.
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Objective To investigate the role of RUNX3 in the regulation of macrophage polarization so as to provide a new therapeutic approach for immunity-related diseases.Methods ① After RAW264.7 cells were stimulated by IFN-γ,LPS and IL-4,respectively,the expressions of their surface markers(arginase-1 and iNOS) were detected by RT-PCR to observe whether RAW264.7 cells polarized to M1 or M2 after stimulation by IFN-γ, LPS and IL-4.The cells stimulated by IFN-γ and LPS were named group M1 and those stimulated by IL-4 were group M2;the control group was group M0.② The expression of RUNX3 was detected by immunofluorescence and RT-PCR methods in each cell group(M1,M2 and M0).③ RUNX3 over-expression vector was established.The RUNX3 gene in RAW264.7 cells was silenced.Cell lines with stable expression were screened with G 418 culture medium.The expressions of cell surface markers iNOS and CD86 were detected by RT-PCR;cell secretion(TNF-α) was detected using ELESA method.Results ① Stimulation of RAW264.7 cells with IFN-γ and LPS could induce RAW264.7 cells to polarize into M1 type macrophages.The mRNA expression of iNOS in M1 group was higher than that in group M0 detected by RT-PCR(P= 0.002),while using IL-4 to stimulate RAW264.7 cells could induce RAW264.7 cells to polarize into M2 macrophages.The results of RT-PCR detection showed that the expression of arginase-1 was higher in M2 group than in group M0(P=0.021).② The expression of RUNX3 mRNA in the M1 cells group was higher than that in the M0 cells group(P= 0.001),but the expression in the M2 cells group was decreased(P=0.041).③ After silencing of RUNX3,the expressions of RAW264.7 cell surface markers CD86 and iNOS(P=0.005)and the cells secretion of TNF-α(P<0.001)were decreased compared with those in the control group.Conclusion RUNX3 transcriptional activation may promote the differentiation of macrophages into M1 type.
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Objective The aims of this study were to construct short hairpin RNA(shRNA)lentiviral vector in breast cancer T47D cells,to carry out RNA interference on lysine acetyltransferase 6B(KAT6B/MORF)gene,to down-regulate its expression and to explore its function.Methods Two pairs of single-stranded short hairpin RNA(shRNA5 and shRNA8)and the corresponding control sequences(Scramble5 and Scramble8)were synthesized based on the CDS of KAT6B gene.Polymerase chain reaction(PCR) was used to amplify double-stranded and ligated with the entry vector(pENTR/pSM2(CMV)GFP),which were subjected to a doub-le digestion(EcoRl and Xhol)linearization and homologous recombination with the entry vector(pENTR/pSM2(CMV)GFP)to obtain an entry clone containing the desired fragment.The target fragment was recombined onto the target vector(pLenti x1 puro DEST)via the LR cloning reaction of the Gateway system.The lentiviral packaging plasmids were co-transfected into HEK-293T cells with two pairs of target plasmids. The supernatant of HEK -293T cells was collected and transformed into T47D cells. The expression of KAT6B protein was detected in T47D cells by Western blot.Results The single colony obtained from the transformation was identi-fied by sequencing,which was consistent with the target sequence,indicating that the lentiviral vector had been successfully construc-ted.The expression of KAT6B protein was significantly lower in the shRNA KAT6B group than that in the control group,which indica-ted that the constructed gene silencing vector could play a role in the KAT6B gene in T47D cells.Conclusion The shRNA lentiviral gene silencing vectors of KAT6B were constructed and identified in T47D cells,which indicated that the foundation for further study
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CD36, the major scavenger receptor, is intimately involved in the uptake of oxLDL in macrophages. To further study the function of CD36 in macrophages, we constructed CD36 gene silence cell lines (J774A.1) by lentivirus-mediated RNA interference technique, and analyzed the effect of CD36 in caveolin-1 protein expression. At first, 5 shRNA fragments were designed and synthesized according to the coding sequence (CDS) region of CD36 gene. Next, the CD36-shRNA was inserted into lentiviral vector to yield pLKO.1-CD36-shRNA plasmid. After DNA sequencing, the pLKO.1-CD36-shRNA plasmid and psiCHECK-II-CD36 were co-transfected into the 293T cells to screen the efficient CD36-shRNA. The efficient CD36-shRNA plasmid and the helper plasmid were co-transfected into the 293T cells to package the lentivirus, and then infected the J774A.1 cells. After screening by puromycin, CD36 gene silence cell lines (J774A.1) was established. Western blotting and confocal fluorescence microscopy results showed that the CD36 silencing efficiency in the gene silence cell line was 90%. Accompanied by a decrease in CD36 protein on cell surface, oxLDL binding to CD36 was significantly inhibited, indicating that the CD36 gene silence cell line is successfully established. Finally, the oxLDL stimulation and inhibitor experiments results showed that the CD36 knockdown significantly suppresses the phosphorylation of JNK and ERK, thereby inhibiting the oxLDL-induced caveolin-1 protein expression, demonstrating that CD36 modulates the caveolin-1 protein expression through the JNK/ERK-mediated signaling transduction.
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Objective:Vacuolar ATPase (V-ATPase) was found within the membranes and internal organelles of a vast array of eukaryotic cells,and was related to various kinds of highly metastatic tumors.LASS2/TMSG1 gene was a novel tumor metastasis suppressor gene cloned from human prostate cancer cell line PC-3M in 1999 by our laboratory.It was found out that protein encoded by LASS2/TMSG1 could interact with the c subunit of V-ATPase (ATP6V0C).In this study,To use RNA interference to suppress the expression of ATP6V0C and try to further investigate the molecular mechanism of ATP6V0C in tumor metastasis and its relationship with LASS2/TMSG1 gene.Methods and Results:The expression level of ATP6V0C mRNA and protein in high metastatic potential prostate cancer cell lines (PC-3M-1E8 and PC-3M) was significantly higher than that in low metastatic potential prostate cancer cell lines (PC-3M-2B4 and PC-3),the expression level in PC-3M-1E8 being the highest.Follow-up tests selected PC-3M-1E8 cells for gene silencing.The expression and secretion of MMP-2 and the expression of MMP-9 in ATP6V0C siRNA transfected PC-3M-1E8 cells displayed no obvious change,but the activity of secreted MMP-9 was abated noticeably compared with the controls (P < 0.05).Extracellular hydrogen ion concentration and V-ATPase activity in interference group were both reduced significantly compared with the controls (P < 0.05).The migration and invasion capacity of ATP6V0C siRNA interfered cells in vitro were diminished significantly compared with the controls (P < 0.05).Furthermore,a dramatic reduction of LASS2/TMSG1 mRNA and protein level after transfection of siRNA in PC-3M-1 E8 cells was discovered (P < 0.05).Confocal immunofluorescence showed a vast co-localization of ATP6V0C protein and LASS2/TMSG1 protein in plasma and membrane.The co-localization signals of control group were much stronger than those of interference group.Conclusion:Specific siRNA silencing of ATP6V0C gene inhibits the invasion of human prostate cancer cells in vitro by mechanism of inhibiting V-ATPase activity and then reducing the extracellular hydrogen ion concentration,inhibiting MMP-9 activation and affecting ECM degradation and reconstruction.Meanwhile,ATP6V0C and LASS2/TMSG1 have interaction and it is likely that ATP6V0C functions as a feedback regulator of LASS2/TMSG1.
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Objective To screen and determine the effective silencing targets of β2-microglobulin(B2m)gene at the cellular level in marmoset.Methods By homology comparison of the b2m gene in human and the B2m gene in marmoset, choose homology small hairpin RNA(shRNA)sequences targeting marmoset B2m gene were designed, We choose homology small hairpin RNA(shRNA)sequences targeting designed B2m gene to make homology analysis, and insert into lentivirus-based gene silencing constructs FUGW-TDT.The vectors were transfected into HEK293T cells induced by polyethylenimine(PEI).The suppression of B2m mRNA was detected by real-time PCR.Results Two gene-silencing sequences were screened that lied in 290~310 bp and 665~685 bp of the marmoset B2m mRNA, and have statistical significance in the silencing rate:(46.54±7.91)% (P < 0.05) and(83.22±4.37)%(P < 0.0001).Conclusions Two effective silencing target sequences are screened at cellular level, which can be further used in studies on gene silencing in marmoset.
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OBJECTIVE: To prepare amphiphilic polycaprolactone-poly (arginine polymer) (PCL-R15)/siRNA Nanopexes, and two kinds of nanoparticles with different particle size were prepared by different process. After encapsulated siRNA with electrostatic interaction, both of two nanoplexes (NR60/siRNA and NR160/siRNA) were used to compare the effects in vitro cell levels. METHODS: The particle size and Zeta potential, siRNA loading and protection ability, cytotoxicity, cellular uptake mechanism and gene silencing efficiency of the two nanoplexes were investigated. RESULTS: The results show that the two nanoplexes have similar siRNA protection ability and cytotoxicity, but the difference between the two sizes is about 100 nm and the potential difference is about 20 mV. Moreover, NR160/siRNA complexes have higher cell uptake efficiency, more complex uptake pathways, and show greater gene silencing efficiency. CONCLUSION: These nanoplexes with different particle sizes can cause different transfection efficiency for siRNA delivery in cells.
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Objective · To explore the inhibitive effect of silencing the CD147 gene on the proliferation of triple negative breast cancer cells and relevant mechanisms. Methods · Normal human mammary epithelial cell line HMEC and three triple negative breast cancer cell lines MDA-MB-231, HCC70 and T4-2 were cultured in vitro. mRNA and protein expressions in cells were measured using realtime-PCR and Western blotting, respectively. A siRNA sequence targeting the coding region of human CD147 gene was designed and used to construct a recombinant lentivirus Lv-shRNA-CD147, which was used to infect the three breast cancer cell lines. The negative control group (Lv-NC infected group) and the noninfected cell control group (cell control group) were simultaneously used. The effects of silencing the CD147 gene were measured with real-time PCR and Western blotting. The proliferation and migration of cells were measured with MTT and Transwell assay, respectively. HCC70 cells were collected 72 h after viral infection and proteins related to proliferation, migration and apoptosis of cells (β-catenin, MMP2, MMP9, and Bax) were measured with Western blotting. Results · mRNA and protein expressions of CD147 were significantly higher in three breast cancer cell lines than in HMEC (P<0.01). The Lv-shRNA-CD147 infected group had lower mRNA and protein expressions of CD147, cell proliferation, and cell migration as compared with the Lv-NC infected group and the cell control group,the differences were statistically significant (P<0.01). The Lv-shRNA-CD147 infected group had lower expressions of β-catenin, MMP2, and MMP9, and higher Bax expression in HCC70 cells 72h after viral infection as compared with the Lv-NC infected group and the cell control group, the differences were statistically significant (P<0.01). Conclusion · Silencing the CD147 gene can inhibit the proliferation and migration of triple negative breast cancer cells.
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Objective: To study the effects of inhibited Annexin A2 (ANXA2) on human umbilical vein endothelial cells (HUVECs) in vitro. Methods: Short hairpin RNA (shRNA) targeting ANXA2 was designed and cloned into double marked lentivirial vector GV248 for RNAi to generate the recombinant expression plasmids, which were stably transfected into HUVECs. The protein and mRNA expression levels of ANXA2 were analyzed by western blotting and real-time polymerase chain reaction, respectively. Cell proliferation (cell counting kit-8 assay), apoptosis (flow cytometry analysis), the expression (western blotting) and the activity of caspases (enzyme-linked immunosorbent assay) were used to assess the effects of silencing ANXA2 on HUVECs in vitro. Results: The plasmids to express ANXA2-specific shRNA were constructed and were infected into HUVEC resulting in the stably transfected experimental (ANXA2-shRNA), control (control-shRNA) and mock (no plasmid) cell lines, which were verified with western blot and real-time PCR. HUVEC/ANXA2-shRNA showed an inhibition rate 91.89% of ANXA2 expression compared to the mock HUVEC. ANXA2 silencing cell strain obviously presented a lower cell proliferation activity compared to the control and mock HUVECs, with an inhibition rate 82.35% on day 7 in vitro. FACS analysis indicated that the HUVEC/ANXA2-shRNA cells undergoing apoptosis increased by 102.61% compared to the mock HUVECs (P < 0.01). Moreover, the activity levels of caspase-3, caspase-8 and caspase-9 in HUVEC/ANXA2-shRNA cells were increased and the activated cleaved caspase-3, cleaved caspase-8 and cleaved caspase-9 were upregulated evidently compared with that of the control and mock HUVECs by 56.29%, 89.59% and 144.58% (P < 0.01). Conclusions: shRNA-mediated silencing of ANXA2 could not only be able to suppress HUVECs proliferation but to upregulate the enzyme activity of caspases, which bring to an increase of cell apoptosis. This work suggested that ANXA2 may represent a useful target of future molecular therapies.
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Aim To explore the effects of tanshinone IIA on cell proliferation via G protein-coupled estrogen receptor inductive and regulative pathway in typical es-trogen receptor and G protein-coupled estrogen receptor positive T47D breast cancer cells. Methods The pro-liferation rate of T47 D cells influenced by tanshinone IIA was analyzed by MTT assay. G protein-coupled es-trogen receptor agonist G1 and GPER antagonist G15 were employed as tools. GPER SiRNA was applied to build GPER gene silence T47D cells. GPER expres-sion influenced by tanshinone IIA was measured by Western blot. Results The proliferation rates of T47D cells treated with 1 × 10 -5 mol·L-1 - 1 × 10 -7 mol· L-1 of tanshinone IIA were decreased significantly. Such effects could be attenuated by G1 or enhanced by G15 . Growth of GPER SiRNA transfected T47 D cells were significantly inhibited by 1 × 10 -5 mol·L-1 - 1 × 10 -7 mol·L-1 of tanshinone IIA treating. Result of Western blot showed that tanshinone IIA at 1 × 10 -5 mol· L-1 and 1 × 10 -6 mol · L-1 could induce de-crease of GPER protein expression in T47D cells. Conclusions Tanshinone IIA shows inhibitory effects on proliferation rate of T47 D breast cancer cells via GPER pathway. Tanshinone IIA could perform regula-tive function on GPER expression level in target cells.
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OBJECTIVE@#To study the effects of inhibited Annexin A2 (ANXA2) on human umbilical vein endothelial cells (HUVECs) in vitro.@*METHODS@#Short hairpin RNA (shRNA) targeting ANXA2 was designed and cloned into double marked lentivirial vector GV248 for RNAi to generate the recombinant expression plasmids, which were stably transfected into HUVECs. The protein and mRNA expression levels of ANXA2 were analyzed by western blotting and real-time polymerase chain reaction, respectively. Cell proliferation (cell counting kit-8 assay), apoptosis (flow cytometry analysis), the expression (western blotting) and the activity of caspases (enzyme-linked immunosorbent assay) were used to assess the effects of silencing ANXA2 on HUVECs in vitro.@*RESULTS@#The plasmids to express ANXA2-specific shRNA were constructed and were infected into HUVEC resulting in the stably transfected experimental (ANXA2-shRNA), control (control-shRNA) and mock (no plasmid) cell lines, which were verified with western blot and real-time PCR. HUVEC/ANXA2-shRNA showed an inhibition rate 91.89% of ANXA2 expression compared to the mock HUVEC. ANXA2 silencing cell strain obviously presented a lower cell proliferation activity compared to the control and mock HUVECs, with an inhibition rate 82.35% on day 7 in vitro. FACS analysis indicated that the HUVEC/ANXA2-shRNA cells undergoing apoptosis increased by 102.61% compared to the mock HUVECs (P < 0.01). Moreover, the activity levels of caspase-3, caspase-8 and caspase-9 in HUVEC/ANXA2-shRNA cells were increased and the activated cleaved caspase-3, cleaved caspase-8 and cleaved caspase-9 were upregulated evidently compared with that of the control and mock HUVECs by 56.29%, 89.59% and 144.58% (P < 0.01).@*CONCLUSIONS@#shRNA-mediated silencing of ANXA2 could not only be able to suppress HUVECs proliferation but to upregulate the enzyme activity of caspases, which bring to an increase of cell apoptosis. This work suggested that ANXA2 may represent a useful target of future molecular therapies.
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Vaccine immunization represents the most effective strategy against viral infections .Antiviral vaccine candi-dates currently include live attenuated vaccine , inactivated vaccine , DNA vaccine and genetic engineering vaccine .Live at-tenuated vaccines , eliciting efficient humoral and cellular immune response by simulating natural virus infection , are clini-cally widely used.Traditionally, live attenuated vaccine strains are obtained by serial passaging in vitro or in vivo, a costly procedure accumulating random mutations .microRNA( miRNA)-targeting host gene regulation exhibits high species and tis-sue specificity .Introducing certain miRNA target sequence into viral genome by reverse genetic technique can effectively attenuate virus strains, which has great potential in vaccine design and development .In this article,attenuation strategies and progress in its application in vaccine research are disscussed .
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Objective To explore the effect of the gene silencing of phosphatidic acid-preferring phospholipase A1 (PA-PLA1) on insulin secretion in mouse insulin-secreting cell line MIN6. Methods The siRNA expression vector of mouse PA-PLA1 gene targeting was constructed using mouse PA-PLA1 mRNA sequence available in GenBank, and MIN6 cells were transfected with the vector. Fluorescence quantitative PCR and Western-blotwere applied to screen efficient RNAi-vector. After transfection with obtained efficient RNAi-vectors for 48 hours, glucose-stimulated insulin secretion experiments were conducted, and the changes of insulin secretion were examined. Results Four siRNA expression vectors of mouse PA-PLA1 gene targeting were confirmed to be successfully constructed by the analyses of enzyme cleavage and sequencing. The results of fluorescence quantitative PCR and Western blot analyses indicated that the siRNA expression vectorpGPU6-PA-PLA1-1885was the most effective RNAi-vector in the four vectors. The expression levels of the PA-PLA1 mRNA and protein of the MIN6 cells transfectedwith pGPU6-PA-PLA1-1885 decreased to 46.3% and 33.9% of that of the control, respectively, and meanwhile the insulin secretion levels of the cells decreased to 65.0% of that of the control (P < 0.05). Conclusion The gene silencing of phosphatidic acid-preferring phospholipase A1 might decrease insulin secretion in MIN6 cells.
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Objective In order to establish a rhesus monkey model of p53 gene silencing, firstly we screened and determined the effective silencing targets of p53 gene at the cellular level in rhesus monkey.Methods The expression of p53 gene was detected in COS-7 cells ( derived from the kidney of the African Green Monkey, Cercopithecus aethiops).Three small hairpin RNA ( shRNA) sequences targeting rhesus monkey p53 gene were designed, analysed by bioinformatics, and inserted into lentivirus-based gene silencing constructs FUGW-TDT.The plasmids of p53-RNAi and control vector were transfected into the COS-7 cells, respectively.The suppression of p53 mRNA was detected by real-time PCR, and the changes of p53 protein expression were detected by Western blot assay.Results p53 gene expression was detected in COS-7 cells.Bioinformatics analysis showed that three gene-silencing sequences were screened which lied in the open reading frame ( ORF) region and targeted 238 -258bp, 681 -701bp, 169 -189bp of the rhesus monkey p53 mRNA.At 48 hrs after transfection of the three silencing constructs, p53 mRNA was suppressed by(87.17 ±4.03)%, ( 72.62 ±4.11)% and(76.22 ±0.98 )%, and p53 protein was suppressed by ( 84.44 ±2.18 )%, ( 71.04 ±1.18)% and ( 74.17 ±0.95 )%, respectively. Conclusions We obtained three effective target sequences showing high efficiency in p53silencing, which can be used in further studies on gene silencing in rhesus monkey.