Objective: To construct Bifidobacterium Infantis/CD targeting gene therapy system. Methods: CD gene was amplified from E. Coli K12λ using PCR method, pGEX-1LamdaT plasmid and CD gene were digested with dual restric...Objective: To construct Bifidobacterium Infantis/CD targeting gene therapy system. Methods: CD gene was amplified from E. Coli K12λ using PCR method, pGEX-1LamdaT plasmid and CD gene were digested with dual restriction endonucleas of EcoR Ⅰ and BamH Ⅰ and two segments of 4.9 kb and 1.3 kb were obtained. T4 DNA ligase was added to these two segments to make a recombinant CD/pGEX-1LamdaT plasmid. Then the recombinant plasmid was transfected into Bifidobacterium Infantis by electroporation. The recombinant plasmid was extracted from the positively transfected Bifidobacterium Infantis and digested with dual restriction endonucleases. Then the size of digested fragments was detected and sequencing of the gene segment inserted in extracted recombinant plasmid was performed according to the method of Sanger dideoxynucleotide triphosphate chain termination. Results: 6.2 kb recombinant plasmid was obtained from the positively transfected bacterial colony of Bifidobacterium Infantis. After being digested with dual restriction endonucleases, two segments of approximate 4.9 kb and 1.3 kb were gained from the extracted recombinant plasmid, which were equal to the size of pGEX-1LamdaT plasmid and CD gene, respectively. The full length and sequence of nucleotide acid of the inserted gene in extracted recombinant plasmid was completely identical to the CD gene. Conclusion: The foreign gene, CD gene was correctly inserted into pGEX-1LambdaT plasmid and transferred into Bifidobacterium Infantis. Bifidobacterium Infantis/CD targeting gene therapy system was successfully constructed.展开更多
Objective: Observing the expression changes of serum proteome in model rats after intervention of the Granules of Eliminating Phlegm and Removing Blood Stasis (豁痰祛瘀颗粒 also known as GEPRB), screening out and iden...Objective: Observing the expression changes of serum proteome in model rats after intervention of the Granules of Eliminating Phlegm and Removing Blood Stasis (豁痰祛瘀颗粒 also known as GEPRB), screening out and identifying the differentially expressed proteins by mass spectrometry and bioinformatics analysis, discussing the molecular mechanism of control the Diabetes deafness by GEPRB. Methods: By use of proteomics technology, the serum protein serum proteome of the control group, model control group, Duxil and each observation group were observed for 2-DE gel pattern matching, and the difference in the relative content of 2 times was chosen for the differentially expressed proteins. Identification of differentially expressed proteins by MALDI-TOF MS/MS, the authors further analysis the phosphorylation, subcellular localization, interaction, direct regulation, and transmembrane of the differences proteins by the way of bioinformatics analysis. Sixty SPF level SD rats elected in diabetic rats model group (abbreviated as DM group) were be randomly divided into 5 groups based on random number sheet, namely model control group, positive drug control group (Du-ke-xi group) and Mai-tong-fang high, medium and low dose group respectively. In addition, set of normal control group. 10 rats in each group. Results: By Coomassie brilliant blue staining, identified 51 differential protein spots dug from 2-D gel by mass spectrometry, successfully identified 13 non-redundant proteins. Most of the identified proteins were secreted protein and belong to different protein families. There were about 12 proteins have the transmembrane region from the authors’ result, ten of them were plasma membrane proteins. Conclusion: It’s suggesting that 13 differential proteins is most likely the protein response to GEPRB in vivo, these proteins may play key role for the treatment of GEPRB to Diabetes deafness. The two highly differentially expressed proteins Apolipoprotein E (apoE) and C3 may be a potential drug target of GEPRB.展开更多
Individual inorganic nanoparticles (NPs) have been widely used in the fields of drug delivery, cancer imaging and therapy. There are still many hurdles that limit the performance of individual NPs for these applicat...Individual inorganic nanoparticles (NPs) have been widely used in the fields of drug delivery, cancer imaging and therapy. There are still many hurdles that limit the performance of individual NPs for these applications. The utilization of highly ordered NP ensembles opens a door to resolve these problems, as a result of their new or advanced collective properties. The assembled NPs show several advantages over individual NP-based systems, such as improved cell internalization and tumor targeting, enhanced multimodality imaging capability, superior combination therapy arising from synergistic effects, possible complete clearance from the whole body by degradation of assemblies into original small NP building blocks, and so on. In this review, we discuss the potential of utilizing assembled NP ensembles for cancer imaging and treatment by taking plasmonic vesicular assemblies of Au NPs as an example. We first summarize the recent developments in the self-assembly of plasmonic vesicular structures of NPs from amphiphilic polymer-tethered NP building blocks. We further review the utilization of plasmonic vesicles of NPs for cancer imaging (e.g. multi-photon induced luminescence, photothermal, and photoacoustic imaging), and cancer therapy (e.g., photothermal therapy, and chemotherapy). Finally, we outline current challenges and our perspectives along this line.展开更多
While STING(STimulator of INterferon Genes) has been shown to be essential for cytosolic DNA-triggered innate immune activation, accumulated evidence obtained from various studies suggested that an intrinsic relevance...While STING(STimulator of INterferon Genes) has been shown to be essential for cytosolic DNA-triggered innate immune activation, accumulated evidence obtained from various studies suggested that an intrinsic relevance of STING-associated signaling in tumorigenesis can be observed. Also, several clinical trials using immunostimulatory adjuvants, particularly agonistic as well as non-agonistic ligands for STING, have revealed their therapeutic potential not only as vaccine adjuvants but also as anti-tumor agents. However, cases have also been reported where the involvement of STING shows a protective role in tumor growth. Here we summarize recent findings that have pointed towards the STING pathway as an innate immune sensing mechanism driving type I interferon production in the tumor context. Better understanding of this pathway can guide further development of novel immunotherapeutic strategies in the treatment of cancer.展开更多
Objective:To construct a novel non-viral vector loaded with growth and differentiation factor-5(GDF-5) plasmid using chitosan,hyaluronic acid,and chondroitin sulfate for osteoarthritis (OA)gene therapy.Methods: Nano-m...Objective:To construct a novel non-viral vector loaded with growth and differentiation factor-5(GDF-5) plasmid using chitosan,hyaluronic acid,and chondroitin sulfate for osteoarthritis (OA)gene therapy.Methods: Nano-microspheres (NMPs)were prepared by mixing chitosan,hyaluronic acid,and chondreitin sulfate.GDF-5 plasmid was encapsulated in the NMPs through electrostatic adsorption.The basic characteristics of the NMPs were observed,and then they were co-cultured with chondrocytes to observe their effects on extracellular matrix (ECM) protein expression.Finally,NMPs loaded with GDF-5were inje.cted into the articular cavities of rabbits to observe their therapeutic effects on OA in vivo.Results:NMPs exhibited good physicochemical properties and low cytotoxicity.Their average diameter was (0.61±0.20)μm,and encapsulation efficiency was (38.19±0.36)%.According to Cell Counting Kit-8(CCK-8)assay,relative cell viability was 75%-99%when the total weight of NMPs was less than 560μg. Transfection efficiency was (62.0±2.1)% in a liposome group,and (60.0±1.8)% in the NMP group.There was no sig- nificant difference between the two groups (P>0.05).Immunohistochemical staining results suggested that NMPs can successfully transfect chondrocytes and stimulate ECM protein expression in vitro.Compared with the control groups, the NMP group significantly promoted the expression of chondrocyte ECM in vivo (P<0.05),as shown by analysis of the biochemical composition of chondrocyte ECM.When NMPs were injected into OA model rabbits,the expression of ECM proteins in chondrocytes was significantly promoted and the progression of OA was slowed down.Conclusions: Based on these data,we think that these NMPs with excellent physicochemical and biological properties could be promising non-viral vectors for OA gene therapy.展开更多
文摘Objective: To construct Bifidobacterium Infantis/CD targeting gene therapy system. Methods: CD gene was amplified from E. Coli K12λ using PCR method, pGEX-1LamdaT plasmid and CD gene were digested with dual restriction endonucleas of EcoR Ⅰ and BamH Ⅰ and two segments of 4.9 kb and 1.3 kb were obtained. T4 DNA ligase was added to these two segments to make a recombinant CD/pGEX-1LamdaT plasmid. Then the recombinant plasmid was transfected into Bifidobacterium Infantis by electroporation. The recombinant plasmid was extracted from the positively transfected Bifidobacterium Infantis and digested with dual restriction endonucleases. Then the size of digested fragments was detected and sequencing of the gene segment inserted in extracted recombinant plasmid was performed according to the method of Sanger dideoxynucleotide triphosphate chain termination. Results: 6.2 kb recombinant plasmid was obtained from the positively transfected bacterial colony of Bifidobacterium Infantis. After being digested with dual restriction endonucleases, two segments of approximate 4.9 kb and 1.3 kb were gained from the extracted recombinant plasmid, which were equal to the size of pGEX-1LamdaT plasmid and CD gene, respectively. The full length and sequence of nucleotide acid of the inserted gene in extracted recombinant plasmid was completely identical to the CD gene. Conclusion: The foreign gene, CD gene was correctly inserted into pGEX-1LambdaT plasmid and transferred into Bifidobacterium Infantis. Bifidobacterium Infantis/CD targeting gene therapy system was successfully constructed.
文摘Objective: Observing the expression changes of serum proteome in model rats after intervention of the Granules of Eliminating Phlegm and Removing Blood Stasis (豁痰祛瘀颗粒 also known as GEPRB), screening out and identifying the differentially expressed proteins by mass spectrometry and bioinformatics analysis, discussing the molecular mechanism of control the Diabetes deafness by GEPRB. Methods: By use of proteomics technology, the serum protein serum proteome of the control group, model control group, Duxil and each observation group were observed for 2-DE gel pattern matching, and the difference in the relative content of 2 times was chosen for the differentially expressed proteins. Identification of differentially expressed proteins by MALDI-TOF MS/MS, the authors further analysis the phosphorylation, subcellular localization, interaction, direct regulation, and transmembrane of the differences proteins by the way of bioinformatics analysis. Sixty SPF level SD rats elected in diabetic rats model group (abbreviated as DM group) were be randomly divided into 5 groups based on random number sheet, namely model control group, positive drug control group (Du-ke-xi group) and Mai-tong-fang high, medium and low dose group respectively. In addition, set of normal control group. 10 rats in each group. Results: By Coomassie brilliant blue staining, identified 51 differential protein spots dug from 2-D gel by mass spectrometry, successfully identified 13 non-redundant proteins. Most of the identified proteins were secreted protein and belong to different protein families. There were about 12 proteins have the transmembrane region from the authors’ result, ten of them were plasma membrane proteins. Conclusion: It’s suggesting that 13 differential proteins is most likely the protein response to GEPRB in vivo, these proteins may play key role for the treatment of GEPRB to Diabetes deafness. The two highly differentially expressed proteins Apolipoprotein E (apoE) and C3 may be a potential drug target of GEPRB.
文摘Individual inorganic nanoparticles (NPs) have been widely used in the fields of drug delivery, cancer imaging and therapy. There are still many hurdles that limit the performance of individual NPs for these applications. The utilization of highly ordered NP ensembles opens a door to resolve these problems, as a result of their new or advanced collective properties. The assembled NPs show several advantages over individual NP-based systems, such as improved cell internalization and tumor targeting, enhanced multimodality imaging capability, superior combination therapy arising from synergistic effects, possible complete clearance from the whole body by degradation of assemblies into original small NP building blocks, and so on. In this review, we discuss the potential of utilizing assembled NP ensembles for cancer imaging and treatment by taking plasmonic vesicular assemblies of Au NPs as an example. We first summarize the recent developments in the self-assembly of plasmonic vesicular structures of NPs from amphiphilic polymer-tethered NP building blocks. We further review the utilization of plasmonic vesicles of NPs for cancer imaging (e.g. multi-photon induced luminescence, photothermal, and photoacoustic imaging), and cancer therapy (e.g., photothermal therapy, and chemotherapy). Finally, we outline current challenges and our perspectives along this line.
基金supported by the National Natural Science Foundation of China(91129000)
文摘While STING(STimulator of INterferon Genes) has been shown to be essential for cytosolic DNA-triggered innate immune activation, accumulated evidence obtained from various studies suggested that an intrinsic relevance of STING-associated signaling in tumorigenesis can be observed. Also, several clinical trials using immunostimulatory adjuvants, particularly agonistic as well as non-agonistic ligands for STING, have revealed their therapeutic potential not only as vaccine adjuvants but also as anti-tumor agents. However, cases have also been reported where the involvement of STING shows a protective role in tumor growth. Here we summarize recent findings that have pointed towards the STING pathway as an innate immune sensing mechanism driving type I interferon production in the tumor context. Better understanding of this pathway can guide further development of novel immunotherapeutic strategies in the treatment of cancer.
基金Project supported by the National Natural Science Foundation of China(No.81201407)the Bureau of Science&Technology and Intellectual Property Nanchong City(Nos.NSMC20170203 and NSMC20170310)+1 种基金the Health and Family Planning Commission of Sichuan Province(No.17JP496)the Research Projects of North Sichuan Medical College(No.CBY13-A-ZD09),China
文摘Objective:To construct a novel non-viral vector loaded with growth and differentiation factor-5(GDF-5) plasmid using chitosan,hyaluronic acid,and chondroitin sulfate for osteoarthritis (OA)gene therapy.Methods: Nano-microspheres (NMPs)were prepared by mixing chitosan,hyaluronic acid,and chondreitin sulfate.GDF-5 plasmid was encapsulated in the NMPs through electrostatic adsorption.The basic characteristics of the NMPs were observed,and then they were co-cultured with chondrocytes to observe their effects on extracellular matrix (ECM) protein expression.Finally,NMPs loaded with GDF-5were inje.cted into the articular cavities of rabbits to observe their therapeutic effects on OA in vivo.Results:NMPs exhibited good physicochemical properties and low cytotoxicity.Their average diameter was (0.61±0.20)μm,and encapsulation efficiency was (38.19±0.36)%.According to Cell Counting Kit-8(CCK-8)assay,relative cell viability was 75%-99%when the total weight of NMPs was less than 560μg. Transfection efficiency was (62.0±2.1)% in a liposome group,and (60.0±1.8)% in the NMP group.There was no sig- nificant difference between the two groups (P>0.05).Immunohistochemical staining results suggested that NMPs can successfully transfect chondrocytes and stimulate ECM protein expression in vitro.Compared with the control groups, the NMP group significantly promoted the expression of chondrocyte ECM in vivo (P<0.05),as shown by analysis of the biochemical composition of chondrocyte ECM.When NMPs were injected into OA model rabbits,the expression of ECM proteins in chondrocytes was significantly promoted and the progression of OA was slowed down.Conclusions: Based on these data,we think that these NMPs with excellent physicochemical and biological properties could be promising non-viral vectors for OA gene therapy.
