Oncolytic virotherapy(OVT)is a promising option for cancer treatment.OVT involves selective oncolytic virus(OV)replication within cancer cells,which triggers anti-tumor responses and immunostimulation.Despite promisin...Oncolytic virotherapy(OVT)is a promising option for cancer treatment.OVT involves selective oncolytic virus(OV)replication within cancer cells,which triggers anti-tumor responses and immunostimulation.Despite promising potential,OVT faces critical challenges,including insufficient tumor-specific targeting,which results in limited tumor penetration and variability in therapeutic efficacy.These challenges are particularly pronounced in solid tumors with complex microenvironments and heterogeneous vascularization.A comprehensive research program is currently underway to develop and refine innovative delivery methods to address these issues to enhance OVT precision and efficacy.A principal area of investigation is the utilization of cellular carriers to enhance the delivery and distribution of OVs within tumor microenvironments,thereby optimizing immune system activation and maximizing anti-tumor effects.This review offers a comprehensive overview of the current strategies that are being used to enhance the delivery of OVs via cellular carriers with the goal of improving the clinical impact of OVT in cancer therapy.展开更多
Bioactive molecules have shown great promise for effectively regulating various bone formation processes,rendering them attractive therapeutics for bone regeneration.However,the widespread application of bioactive mol...Bioactive molecules have shown great promise for effectively regulating various bone formation processes,rendering them attractive therapeutics for bone regeneration.However,the widespread application of bioactive molecules is limited by their low accumulation and short half-lives in vivo.Hydrogels have emerged as ideal carriers to address these challenges,offering the potential to prolong retention times at lesion sites,extend half-lives in vivo and mitigate side effects,avoid burst release,and promote adsorption under physiological conditions.This review systematically summarizes the recent advances in the development of bioactive molecule-loaded hydrogels for bone regeneration,encompassing applications in cranial defect repair,femoral defect repair,periodontal bone regeneration,and bone regeneration with underlying diseases.Additionally,this review discusses the current strategies aimed at improving the release profiles of bioactive molecules through stimuli-responsive delivery,carrier-assisted delivery,and sequential delivery.Finally,this review elucidates the existing challenges and future directions of hydrogel encapsulated bioactive molecules in the field of bone regeneration.展开更多
The objective of this study was to develop a novel hybrid genipin-crosslinked dual-sensitive hydrogel/nanostructured lipid carrier(NLC) drug delivery platform. An ophthalmic antiinflammatory drug, baicalin(BN) was cho...The objective of this study was to develop a novel hybrid genipin-crosslinked dual-sensitive hydrogel/nanostructured lipid carrier(NLC) drug delivery platform. An ophthalmic antiinflammatory drug, baicalin(BN) was chosen as the model drug. BN –NLC was prepared using melt-emulsification combined with ultra-sonication technique. Additionally, a dual pH-and thermo-sensitive hydrogel composed of carboxymethyl chitosan(CMCS) and poloxamer 407(F127) was fabricated by a cross-linking reaction with a nontoxic crosslinker genipin(GP). GP-CMCS/F127 hydrogel was characterized by FTIR, NMR, XRD and SEM. The swelling studies showed GP-CMCS/F127 hydrogel was both pH-and thermo-sensitive. The results of in vitro release suggested BN –NLC gel can prolong the release of baicalin comparing with BN eye drops and BN –NLC. Ex vivo cornea permeation study was evaluated using Franz diffusion cells. The apparent permeability coefficient(Papp) of BN –NLC gel was much higher(4.46-fold) than that of BN eye drops. Through the determination of corneal hydration levels, BN –NLC gel was confirmed that had no significant irritation to cornea. Ex vivo precorneal retention experiments were carried out by a flow-through approach. The results indicated that the NLC-based hydrogel can prolong precorneal residence time. In conclusion, the hybrid NLCbased hydrogel has a promising potential for application in ocular drug delivery.展开更多
Topical administration is the most common and acceptable use for the treatment of ocular disease.However,the major problem of ocular drug delivery is the rapid drug elimination from the pre-ocular area leading to poor...Topical administration is the most common and acceptable use for the treatment of ocular disease.However,the major problem of ocular drug delivery is the rapid drug elimination from the pre-ocular area leading to poor ocular bioavailability[1].Nanostructure lipid carriers(NLC)possess a significant enhancement in ocular bioavailability by increasing the permeability and mucoadhesive property[2].In this study,indomethacin(IND),non-steroidal anti-inflammatory,was used as a model drug[3].展开更多
The lack of efficient and non-toxic gene delivery, preferably with non-viral DNA vectors, is generally regarded as a major limitation for gene therapy. In this study, a wheat histone H4 gene was cloned from Triticum a...The lack of efficient and non-toxic gene delivery, preferably with non-viral DNA vectors, is generally regarded as a major limitation for gene therapy. In this study, a wheat histone H4 gene was cloned from Triticum aestivum, sequenced, modified and expressed in E. coli. The wheat histone H4 gene and reconstructed H4TL gene encoded wheat histone H4 and a recombinant protein of 141 amino acids with an approximate molecular weight of 15500. Gel electrophoresis mobility shift assays demonstrated that the purified protein had high affinity for DNA. Most significantly, the complex of plasmid pEGFP/C1 with H4TL was transfected with increased efficiency into MCF-7, HO8910, LNCap, A549 and HeLa cells in vitro. These results demonstrate that the targeting of non-viral vectors to tumor-specific receptors provides a cheap, simple and highly efficient tool for gene delivery.展开更多
[Objective] The experiment aimed to explore release rule of water-soluble chitosan (WSC) in vitro. [Method]The bovine serum albumin(BSA) was taken as a model protein drug and some existing release models such as Kinet...[Objective] The experiment aimed to explore release rule of water-soluble chitosan (WSC) in vitro. [Method]The bovine serum albumin(BSA) was taken as a model protein drug and some existing release models such as Kinetics model, Gompertz model, Weibull model, Higuchi model and Logistic model were used to fit the BSA release profile from WSC carriers. [Result] Except Higuchi model and Logistic model, other models could fit BSA release profile better. [Conclusion] Gompertz two-order kinetics model could fit the release of WSC nano-particles better and model parameters had practical physical meaning.展开更多
目的通过文献计量学分析,全面评估纳米结构脂质载体(NLCs)领域的当前研究状况和趋势。方法使用Web of Science核心合集(WOSCC)收集2003年1-9月间与NLCs研究相关的文章和综述。对收集到的文献数据进行人工筛选。采用VOSviewer、CiteSpac...目的通过文献计量学分析,全面评估纳米结构脂质载体(NLCs)领域的当前研究状况和趋势。方法使用Web of Science核心合集(WOSCC)收集2003年1-9月间与NLCs研究相关的文章和综述。对收集到的文献数据进行人工筛选。采用VOSviewer、CiteSpace和文献计量学在线分析平台进行计量学分析和可视化处理。结果识别出3312篇NLCs相关文献。国家:印度是其中贡献最多的国家。机构:埃及知识银行(EKB)是最主要机构。作者:Eliana B Souto是发表文章关于NLCs内容最多的作者。热点与前沿:乳腺癌、血脑屏障、局部递送和口服递送是该领域的主要研究方向。结论本研究总结了NLCs领域的出版物特征,明确了最具影响力的国家、机构、作者和期刊,并识别出了研究热点和趋势。这些发现为研究人员提供了对该领域研究现状的深入理解,并为未来研究方向提供了指导。展开更多
Polyethyleneimine(PEI),as a widely used polymer material in the field of gene delivery,has been extensively studied for modification and shielding to reduce its cytotoxicity.However,research aimed at preparing degrada...Polyethyleneimine(PEI),as a widely used polymer material in the field of gene delivery,has been extensively studied for modification and shielding to reduce its cytotoxicity.However,research aimed at preparing degradable PEI is scarce.In this work,the hydrogen peroxide(H_(2)O_(2))oxidation method was used to introduce degradable amide groups in the PEI and a series of oxidized PEI22k(oxPEI22k)with different degrees of oxidation were synthesized by regulating the dosage of H_(2)O_(2).The relationship between the oxidation degree of oxPEI22k and the gene transfection efficiency of oxPEI22k was studied in detail,confirming that the oxPEI22k with oxidation degrees of 16.7%and 28.6%achieved improved transfection efficiency compared to unmodified PEI.These oxPEI22k also proved reduced cytotoxicity and improved degradability.Further,this strategy was extended to the synthesis of low-molecular-weight oxPEI1.8k.The oxPEI1.8k with suitable oxidation degree also achieved improved transfection efficiency and reduced cytotoxicity.In brief,this work provided high-efficiency and low-cytotoxicity degradable gene delivery carriers by regulating the oxidation degree of PEI,which was of great significance for promoting clinical applications of PEI.展开更多
Upon the discovery of RNA interference(RNAi),canonical small interfering RNA(si RNA) has been recognized to trigger sequence-specific gene silencing. Despite the benefits of si RNAs as potential new drugs,there are ob...Upon the discovery of RNA interference(RNAi),canonical small interfering RNA(si RNA) has been recognized to trigger sequence-specific gene silencing. Despite the benefits of si RNAs as potential new drugs,there are obstacles still to be overcome,including off-target effects and immune stimulation. More recently,Dicer substrate si RNA(Dsi RNA) has been introduced as an alternative to si RNA. Similarly,it also is proving to be potent and target-specific,while rendering less immune stimulation. Dsi RNA is 25–30 nucleotides in length,and is further cleaved and processed by the Dicer enzyme. As with si RNA,it is crucial to design and develop a stable,safe,and efficient system for the delivery of Dsi RNA into the cytoplasm of targeted cells. Several polymeric nanoparticle systems have been well established to load Dsi RNA for in vitro and in vivo delivery,thereby overcoming a major hurdle in the therapeutic uses of Dsi RNA. The present review focuses on a comparison of si RNA and Dsi RNA on the basis of their design,mechanism,in vitro and in vivo delivery,and therapeutics.展开更多
Spinal cord injury results in significant loss of motor, sensory, and autonomic functions. Although a wide range of therapeutic agents have been shown to attenuate secondary injury or promote regeneration/repair in an...Spinal cord injury results in significant loss of motor, sensory, and autonomic functions. Although a wide range of therapeutic agents have been shown to attenuate secondary injury or promote regeneration/repair in animal models of spinal cord injury, clinical translation of these strategies has been limited, in part due to difficulty in safely and effectively achieving therapeutic concentrations in the injured spinal cord tissue. Hydrogelbased drug delivery systems offer unique opportunities to locally deliver drugs to the injured spinal cord with sufficient dose and duration, while avoiding deleterious side effects associated with systemic drug administration. Such local drug delivery systems can be readily fabricated from biocompatible and biodegradable materials. In this review, hydrogel-based strategies for local drug delivery to the injured spinal cord are extensively reviewed, and recommendations are made for implementation.展开更多
Alpha-mangostin(AMG),a natural xanthone extracted from Garcinia mangostana Linn,has a variety of pharmacological therapeutic effects such as antioxidant activity,antibacterial activity,anticancer,and anti-inflammatory...Alpha-mangostin(AMG),a natural xanthone extracted from Garcinia mangostana Linn,has a variety of pharmacological therapeutic effects such as antioxidant activity,antibacterial activity,anticancer,and anti-inflammatory[1].However,it has poor aqueous-solubility and dissolution,which results in low bioavailability.Solid self-emulsifying drug delivery system(solid-SEDDS),an effective pharmaceutical strategy,offers the potential for enhancing the oral bioavailability of poorly water-soluble drugs[2].Therefore,solid-SEDDS is of interest as a potential method for enhancing the solubility and dissolution of AMG.展开更多
Inflammatory bowel disease(IBD)is a chronic illness characterized by relapsing inflammation of the intestines.The disorder is stratified according to the severity and is marked by its two main phenotypical representat...Inflammatory bowel disease(IBD)is a chronic illness characterized by relapsing inflammation of the intestines.The disorder is stratified according to the severity and is marked by its two main phenotypical representations:Ulcerative colitis and Crohn’s disease.Pathogenesis of the disease is ambiguous and is expected to have interactivity between genetic disposition,environmental factors such as bacterial agents,and dysregulated immune response.Treatment for IBD aims to reduce symptom extent and severity and halt disease progression.The mainstay drugs have been 5-aminosalicylates(5-ASAs),corticosteroids,and immunosuppressive agents.Parenteral,oral and rectal routes are the conventional methods of drug delivery,and among all,oral administration is most widely adopted.However,problems of systematic drug reactions and low specificity in delivering drugs to the inflamed sites have emerged with these regular routes of delivery.Novel drug delivery systems have been introduced to overcome several therapeutic obstacles and for localized drug delivery to target tissues.Enteric-coated microneedle pills,various nano-drug delivery techniques,prodrug systems,lipid-based vesicular systems,hybrid drug delivery systems,and biologic drug delivery systems constitute some of these novel methods.Microneedles are painless,they dislodge their content at the affected site,and their release can be prolonged.Recombinant bacteria such as genetically engineered Lactococcus Lactis and eukaryotic cells,including GM immune cells and red blood cells as nanoparticle carriers,can be plausible delivery methods when evaluating biologic systems.Nano-particle drug delivery systems consisting of various techniques are also employed as nanoparticles can penetrate through inflamed regions and adhere to the thick mucus of the diseased site.Prodrug systems such as 5-ASAs formulations or their derivatives are effective in reducing colonic damage.Liposomes can be modified with both hydrophilic and lipophilic particles and act as lipid-based vesicular systems,while hybrid drug delivery systems containing an internal nanoparticle section for loading drugs are potential routes too.Leukosomes are also considered as possible carrier systems,and results from mouse models have revealed that they control anti-and pro-inflammatory molecules.展开更多
The emergence of the clustered regularly interspaced short palindromic repeats(CRISPR)/CRISPR-associated protein 9(Cas9)genome-editing system has brought about a significant revolution in the realm of managing human d...The emergence of the clustered regularly interspaced short palindromic repeats(CRISPR)/CRISPR-associated protein 9(Cas9)genome-editing system has brought about a significant revolution in the realm of managing human diseases,establishing animal models,and so on.To fully harness the potential of this potent gene-editing tool,ensuring efficient and secure delivery to the target site is paramount.Consequently,developing effective delivery methods for the CRISPR/Cas9 system has become a critical area of research.In this review,we present a comprehensive outline of delivery strategies and discuss their biomedical applications in the CRISPR/Cas9 system.We also provide an indepth analysis of physical,viral vector,and non-viral vector delivery strategies,including plasmid-,mRNA-and protein-based approach.In addition,we illustrate the biomedical applications of the CRISPR/Cas9 system.This review highlights the key factors affecting the delivery process and the current challenges facing the CRISPR/Cas9 system,while also delineating future directions and prospects that could inspire innovative delivery strategies.This review aims to provide new insights and ideas for advancing CRISPR/Cas9-based delivery strategies and to facilitate breakthroughs in biomedical research and therapeutic applications.展开更多
A simple and fast capillary electrophoresis method has been developed to determine the amount of piroxicam loaded in a drug delivery system based on nanostructured lipid carriers(NLCs).The entrapment efficiency of t...A simple and fast capillary electrophoresis method has been developed to determine the amount of piroxicam loaded in a drug delivery system based on nanostructured lipid carriers(NLCs).The entrapment efficiency of the nanostructured lipid carrier was estimated by measuring the concentration of drug not entrapped in a suspension of NLC.The influence of different parameters on migration times,peak symmetry,efficiency and resolution was studied;these parameters included the pH of the electrophoretic buffer solution and the applied voltage.The piroxicam peak was obtained with a satisfactory resolution.The separation was carried out using a running buffer composed of 50 mM ammonium acetate and 13.75 mM ammonia at pH 9.The optimal voltage was 20 kV and the cartridge temperature was 20 ℃.The corresponding calibration curve was linear over the range of 2.7-5.4 μg/mL of NLC suspension.The reproducibility of migration time and peak area were investigated,and the obtained RSD%values(n = 5) were 0.99 and 2.13.respectively.展开更多
The traditional Chinese medicine tripterygium glycosides(TPG)is used clinically to treat some Rheumatism,Eczema,immunosuppression and tumor,with the activities of hypnosis,antipyretic,analgesic,antiinflammatory,allerg...The traditional Chinese medicine tripterygium glycosides(TPG)is used clinically to treat some Rheumatism,Eczema,immunosuppression and tumor,with the activities of hypnosis,antipyretic,analgesic,antiinflammatory,allergy and antitumor.However TPG has low water solubility and low skin permeability,so its clinical use is limited.Transdermal delivery systems can provide a controlled drug release rate that can keep constant concentrations of drug in the plasma for up to multiple days,improved patient compliance,and the possibility ofreducing the rate and severity of side effects.In this study,a fast and sensitive technique skin-blood two sites synchronous microdialysis coupled with LC-MS was used to study the pharmacokinetic parameter of three different formulations(TPG nanoemulsion,TPG nanoemulsion based gels and TPG gel).Creating a multilayer model,use the model to simulate the three formulations dynamics in transdermal-drug delivery system.The experiment results showed that the TPG nanoemulsion,TPG nanoemulsion based gels can significantly raise the drug concentrations in skin more than that of TPG gels.The numerical simulation results indicating that TPG gel and TPG nanoemulsion are close to practical measurements,only in the concentration increase phase the numerical simulation result has some difference with the experimental results.TPG nanoemulsion based gels have significant difference with the experimental results,both in concentration increase stage and concentration decreasing stage,but its trend was same.The study shows that the skin-blood synchronous microdialysis technique provided a new method for the pharmacokinetics study of nanocarriers transdermal delivery systems.In addition,the microdialysis technique combined with mathematical modeling provides a very good platform for the further study of transdermal delivery system.展开更多
A host type non-virus gene delivery car- rier, phenanthroline-β-cyclodextrin derivative host molecule, was produced which can be used as mo- lecular probe. Interactions between DZY-1 and DNA were investigated by elec...A host type non-virus gene delivery car- rier, phenanthroline-β-cyclodextrin derivative host molecule, was produced which can be used as mo- lecular probe. Interactions between DZY-1 and DNA were investigated by electrophoresis assay. Hind III enzyme inhibition assay was carried out using DNA condensates induced by host molecules or host- vip molecule complexes to explore their ability to inhibit enzyme digestion. Micro-structure of DNA condensates induced by host molecules and host-vip molecule complexes was observed by scanning electron microscope (SEM). Our work in- dicates the delivery mechanism of DZY-1 used as a gene delivery carrier and also provides a method to design and produce non-virus gene delivery carriers.展开更多
基金supported by the National Cancer Institute(1R37CA251318-01,1R01CA248111-01A1,R01CA258477-01,R01CA278911,and R01CA288403)the CPRIT Scholar Award(RR210067).
文摘Oncolytic virotherapy(OVT)is a promising option for cancer treatment.OVT involves selective oncolytic virus(OV)replication within cancer cells,which triggers anti-tumor responses and immunostimulation.Despite promising potential,OVT faces critical challenges,including insufficient tumor-specific targeting,which results in limited tumor penetration and variability in therapeutic efficacy.These challenges are particularly pronounced in solid tumors with complex microenvironments and heterogeneous vascularization.A comprehensive research program is currently underway to develop and refine innovative delivery methods to address these issues to enhance OVT precision and efficacy.A principal area of investigation is the utilization of cellular carriers to enhance the delivery and distribution of OVs within tumor microenvironments,thereby optimizing immune system activation and maximizing anti-tumor effects.This review offers a comprehensive overview of the current strategies that are being used to enhance the delivery of OVs via cellular carriers with the goal of improving the clinical impact of OVT in cancer therapy.
基金supported by the National Natural Science Foundation of China(51925304)Natural Science Foundation of Sichuan Province(2024NSFSC1023)Medical Research Program of Sichuan Province(Q23015).
文摘Bioactive molecules have shown great promise for effectively regulating various bone formation processes,rendering them attractive therapeutics for bone regeneration.However,the widespread application of bioactive molecules is limited by their low accumulation and short half-lives in vivo.Hydrogels have emerged as ideal carriers to address these challenges,offering the potential to prolong retention times at lesion sites,extend half-lives in vivo and mitigate side effects,avoid burst release,and promote adsorption under physiological conditions.This review systematically summarizes the recent advances in the development of bioactive molecule-loaded hydrogels for bone regeneration,encompassing applications in cranial defect repair,femoral defect repair,periodontal bone regeneration,and bone regeneration with underlying diseases.Additionally,this review discusses the current strategies aimed at improving the release profiles of bioactive molecules through stimuli-responsive delivery,carrier-assisted delivery,and sequential delivery.Finally,this review elucidates the existing challenges and future directions of hydrogel encapsulated bioactive molecules in the field of bone regeneration.
基金National Natural Science Foundation of China (projects 81473163 and 81773670) for supporting the research
文摘The objective of this study was to develop a novel hybrid genipin-crosslinked dual-sensitive hydrogel/nanostructured lipid carrier(NLC) drug delivery platform. An ophthalmic antiinflammatory drug, baicalin(BN) was chosen as the model drug. BN –NLC was prepared using melt-emulsification combined with ultra-sonication technique. Additionally, a dual pH-and thermo-sensitive hydrogel composed of carboxymethyl chitosan(CMCS) and poloxamer 407(F127) was fabricated by a cross-linking reaction with a nontoxic crosslinker genipin(GP). GP-CMCS/F127 hydrogel was characterized by FTIR, NMR, XRD and SEM. The swelling studies showed GP-CMCS/F127 hydrogel was both pH-and thermo-sensitive. The results of in vitro release suggested BN –NLC gel can prolong the release of baicalin comparing with BN eye drops and BN –NLC. Ex vivo cornea permeation study was evaluated using Franz diffusion cells. The apparent permeability coefficient(Papp) of BN –NLC gel was much higher(4.46-fold) than that of BN eye drops. Through the determination of corneal hydration levels, BN –NLC gel was confirmed that had no significant irritation to cornea. Ex vivo precorneal retention experiments were carried out by a flow-through approach. The results indicated that the NLC-based hydrogel can prolong precorneal residence time. In conclusion, the hybrid NLCbased hydrogel has a promising potential for application in ocular drug delivery.
文摘Topical administration is the most common and acceptable use for the treatment of ocular disease.However,the major problem of ocular drug delivery is the rapid drug elimination from the pre-ocular area leading to poor ocular bioavailability[1].Nanostructure lipid carriers(NLC)possess a significant enhancement in ocular bioavailability by increasing the permeability and mucoadhesive property[2].In this study,indomethacin(IND),non-steroidal anti-inflammatory,was used as a model drug[3].
基金Supported by the National Natural Science Foundation of China(Nos.30471248 30871850)
文摘The lack of efficient and non-toxic gene delivery, preferably with non-viral DNA vectors, is generally regarded as a major limitation for gene therapy. In this study, a wheat histone H4 gene was cloned from Triticum aestivum, sequenced, modified and expressed in E. coli. The wheat histone H4 gene and reconstructed H4TL gene encoded wheat histone H4 and a recombinant protein of 141 amino acids with an approximate molecular weight of 15500. Gel electrophoresis mobility shift assays demonstrated that the purified protein had high affinity for DNA. Most significantly, the complex of plasmid pEGFP/C1 with H4TL was transfected with increased efficiency into MCF-7, HO8910, LNCap, A549 and HeLa cells in vitro. These results demonstrate that the targeting of non-viral vectors to tumor-specific receptors provides a cheap, simple and highly efficient tool for gene delivery.
基金Supported by the National Natural Science Foundation of China(20776054)~~
文摘[Objective] The experiment aimed to explore release rule of water-soluble chitosan (WSC) in vitro. [Method]The bovine serum albumin(BSA) was taken as a model protein drug and some existing release models such as Kinetics model, Gompertz model, Weibull model, Higuchi model and Logistic model were used to fit the BSA release profile from WSC carriers. [Result] Except Higuchi model and Logistic model, other models could fit BSA release profile better. [Conclusion] Gompertz two-order kinetics model could fit the release of WSC nano-particles better and model parameters had practical physical meaning.
文摘目的通过文献计量学分析,全面评估纳米结构脂质载体(NLCs)领域的当前研究状况和趋势。方法使用Web of Science核心合集(WOSCC)收集2003年1-9月间与NLCs研究相关的文章和综述。对收集到的文献数据进行人工筛选。采用VOSviewer、CiteSpace和文献计量学在线分析平台进行计量学分析和可视化处理。结果识别出3312篇NLCs相关文献。国家:印度是其中贡献最多的国家。机构:埃及知识银行(EKB)是最主要机构。作者:Eliana B Souto是发表文章关于NLCs内容最多的作者。热点与前沿:乳腺癌、血脑屏障、局部递送和口服递送是该领域的主要研究方向。结论本研究总结了NLCs领域的出版物特征,明确了最具影响力的国家、机构、作者和期刊,并识别出了研究热点和趋势。这些发现为研究人员提供了对该领域研究现状的深入理解,并为未来研究方向提供了指导。
基金financially supported by National Key Research and Development Program of China(No.2021YFB3800900)the National Natural Science Foundation of China(Nos.51925305,51833010 and 52203183)+2 种基金Natural Science Foundation of Xiamen,China(No.3502Z202371004)Fundamental Research Funds for the Central Universities(No.20720230004)the talent cultivation project Funds for the Innovation Laboratory for Sciences and Technologies of Energy Materials of Fujian Province(No.HRTP-[2022]52)。
文摘Polyethyleneimine(PEI),as a widely used polymer material in the field of gene delivery,has been extensively studied for modification and shielding to reduce its cytotoxicity.However,research aimed at preparing degradable PEI is scarce.In this work,the hydrogen peroxide(H_(2)O_(2))oxidation method was used to introduce degradable amide groups in the PEI and a series of oxidized PEI22k(oxPEI22k)with different degrees of oxidation were synthesized by regulating the dosage of H_(2)O_(2).The relationship between the oxidation degree of oxPEI22k and the gene transfection efficiency of oxPEI22k was studied in detail,confirming that the oxPEI22k with oxidation degrees of 16.7%and 28.6%achieved improved transfection efficiency compared to unmodified PEI.These oxPEI22k also proved reduced cytotoxicity and improved degradability.Further,this strategy was extended to the synthesis of low-molecular-weight oxPEI1.8k.The oxPEI1.8k with suitable oxidation degree also achieved improved transfection efficiency and reduced cytotoxicity.In brief,this work provided high-efficiency and low-cytotoxicity degradable gene delivery carriers by regulating the oxidation degree of PEI,which was of great significance for promoting clinical applications of PEI.
基金financial support received from Centre of Research and Instrumentation (CRIM), Universiti Kebangsaan Malaysia
文摘Upon the discovery of RNA interference(RNAi),canonical small interfering RNA(si RNA) has been recognized to trigger sequence-specific gene silencing. Despite the benefits of si RNAs as potential new drugs,there are obstacles still to be overcome,including off-target effects and immune stimulation. More recently,Dicer substrate si RNA(Dsi RNA) has been introduced as an alternative to si RNA. Similarly,it also is proving to be potent and target-specific,while rendering less immune stimulation. Dsi RNA is 25–30 nucleotides in length,and is further cleaved and processed by the Dicer enzyme. As with si RNA,it is crucial to design and develop a stable,safe,and efficient system for the delivery of Dsi RNA into the cytoplasm of targeted cells. Several polymeric nanoparticle systems have been well established to load Dsi RNA for in vitro and in vivo delivery,thereby overcoming a major hurdle in the therapeutic uses of Dsi RNA. The present review focuses on a comparison of si RNA and Dsi RNA on the basis of their design,mechanism,in vitro and in vivo delivery,and therapeutics.
基金the USA Department of Education’s Graduate Assistance in Areas of National Need(GAANN)Programthe National Institute of Biomedical Imaging and Bioengineering of the National Institutes of Health under Award Number T32EB005583。
文摘Spinal cord injury results in significant loss of motor, sensory, and autonomic functions. Although a wide range of therapeutic agents have been shown to attenuate secondary injury or promote regeneration/repair in animal models of spinal cord injury, clinical translation of these strategies has been limited, in part due to difficulty in safely and effectively achieving therapeutic concentrations in the injured spinal cord tissue. Hydrogelbased drug delivery systems offer unique opportunities to locally deliver drugs to the injured spinal cord with sufficient dose and duration, while avoiding deleterious side effects associated with systemic drug administration. Such local drug delivery systems can be readily fabricated from biocompatible and biodegradable materials. In this review, hydrogel-based strategies for local drug delivery to the injured spinal cord are extensively reviewed, and recommendations are made for implementation.
文摘Alpha-mangostin(AMG),a natural xanthone extracted from Garcinia mangostana Linn,has a variety of pharmacological therapeutic effects such as antioxidant activity,antibacterial activity,anticancer,and anti-inflammatory[1].However,it has poor aqueous-solubility and dissolution,which results in low bioavailability.Solid self-emulsifying drug delivery system(solid-SEDDS),an effective pharmaceutical strategy,offers the potential for enhancing the oral bioavailability of poorly water-soluble drugs[2].Therefore,solid-SEDDS is of interest as a potential method for enhancing the solubility and dissolution of AMG.
文摘Inflammatory bowel disease(IBD)is a chronic illness characterized by relapsing inflammation of the intestines.The disorder is stratified according to the severity and is marked by its two main phenotypical representations:Ulcerative colitis and Crohn’s disease.Pathogenesis of the disease is ambiguous and is expected to have interactivity between genetic disposition,environmental factors such as bacterial agents,and dysregulated immune response.Treatment for IBD aims to reduce symptom extent and severity and halt disease progression.The mainstay drugs have been 5-aminosalicylates(5-ASAs),corticosteroids,and immunosuppressive agents.Parenteral,oral and rectal routes are the conventional methods of drug delivery,and among all,oral administration is most widely adopted.However,problems of systematic drug reactions and low specificity in delivering drugs to the inflamed sites have emerged with these regular routes of delivery.Novel drug delivery systems have been introduced to overcome several therapeutic obstacles and for localized drug delivery to target tissues.Enteric-coated microneedle pills,various nano-drug delivery techniques,prodrug systems,lipid-based vesicular systems,hybrid drug delivery systems,and biologic drug delivery systems constitute some of these novel methods.Microneedles are painless,they dislodge their content at the affected site,and their release can be prolonged.Recombinant bacteria such as genetically engineered Lactococcus Lactis and eukaryotic cells,including GM immune cells and red blood cells as nanoparticle carriers,can be plausible delivery methods when evaluating biologic systems.Nano-particle drug delivery systems consisting of various techniques are also employed as nanoparticles can penetrate through inflamed regions and adhere to the thick mucus of the diseased site.Prodrug systems such as 5-ASAs formulations or their derivatives are effective in reducing colonic damage.Liposomes can be modified with both hydrophilic and lipophilic particles and act as lipid-based vesicular systems,while hybrid drug delivery systems containing an internal nanoparticle section for loading drugs are potential routes too.Leukosomes are also considered as possible carrier systems,and results from mouse models have revealed that they control anti-and pro-inflammatory molecules.
基金supported by the National Natural Science Foundation of China[32271464]the Hunan Provincial Natural Science Foundation for Distinguished Young Scholars[2022JJ10086]+4 种基金the Innovation-Driven Project of Central South University[2020CX048]the Joint Fund of the Hunan Provincial Natural Science Foundation and the Hunan Medical Products Adminstration[2023JJ60501]the Natural Science Foundation of Changsha[kq2202131]the Postgraduate Innovation Project of Central South University[2021zzts0977,2022ZZTS0980]the Hunan Provincial Innovation Foundation for Postgraduate[CX20210340,CX20220372].
文摘The emergence of the clustered regularly interspaced short palindromic repeats(CRISPR)/CRISPR-associated protein 9(Cas9)genome-editing system has brought about a significant revolution in the realm of managing human diseases,establishing animal models,and so on.To fully harness the potential of this potent gene-editing tool,ensuring efficient and secure delivery to the target site is paramount.Consequently,developing effective delivery methods for the CRISPR/Cas9 system has become a critical area of research.In this review,we present a comprehensive outline of delivery strategies and discuss their biomedical applications in the CRISPR/Cas9 system.We also provide an indepth analysis of physical,viral vector,and non-viral vector delivery strategies,including plasmid-,mRNA-and protein-based approach.In addition,we illustrate the biomedical applications of the CRISPR/Cas9 system.This review highlights the key factors affecting the delivery process and the current challenges facing the CRISPR/Cas9 system,while also delineating future directions and prospects that could inspire innovative delivery strategies.This review aims to provide new insights and ideas for advancing CRISPR/Cas9-based delivery strategies and to facilitate breakthroughs in biomedical research and therapeutic applications.
基金financial support of Universidad Nacional del Sur(24/Q054)Consejo Nacional de Investigaciones Cientificas y Tecnicas(CONICET)
文摘A simple and fast capillary electrophoresis method has been developed to determine the amount of piroxicam loaded in a drug delivery system based on nanostructured lipid carriers(NLCs).The entrapment efficiency of the nanostructured lipid carrier was estimated by measuring the concentration of drug not entrapped in a suspension of NLC.The influence of different parameters on migration times,peak symmetry,efficiency and resolution was studied;these parameters included the pH of the electrophoretic buffer solution and the applied voltage.The piroxicam peak was obtained with a satisfactory resolution.The separation was carried out using a running buffer composed of 50 mM ammonium acetate and 13.75 mM ammonia at pH 9.The optimal voltage was 20 kV and the cartridge temperature was 20 ℃.The corresponding calibration curve was linear over the range of 2.7-5.4 μg/mL of NLC suspension.The reproducibility of migration time and peak area were investigated,and the obtained RSD%values(n = 5) were 0.99 and 2.13.respectively.
基金The project supported by National Natural Science Foundation of China(81573613,81373896)the Major Program for the Fundamental Research of Shanghai Committee of Science and Technology(14JC1491300)Open Fund of State Key Laboratory of Natural Medicines(SKLNMKF201612)
文摘The traditional Chinese medicine tripterygium glycosides(TPG)is used clinically to treat some Rheumatism,Eczema,immunosuppression and tumor,with the activities of hypnosis,antipyretic,analgesic,antiinflammatory,allergy and antitumor.However TPG has low water solubility and low skin permeability,so its clinical use is limited.Transdermal delivery systems can provide a controlled drug release rate that can keep constant concentrations of drug in the plasma for up to multiple days,improved patient compliance,and the possibility ofreducing the rate and severity of side effects.In this study,a fast and sensitive technique skin-blood two sites synchronous microdialysis coupled with LC-MS was used to study the pharmacokinetic parameter of three different formulations(TPG nanoemulsion,TPG nanoemulsion based gels and TPG gel).Creating a multilayer model,use the model to simulate the three formulations dynamics in transdermal-drug delivery system.The experiment results showed that the TPG nanoemulsion,TPG nanoemulsion based gels can significantly raise the drug concentrations in skin more than that of TPG gels.The numerical simulation results indicating that TPG gel and TPG nanoemulsion are close to practical measurements,only in the concentration increase phase the numerical simulation result has some difference with the experimental results.TPG nanoemulsion based gels have significant difference with the experimental results,both in concentration increase stage and concentration decreasing stage,but its trend was same.The study shows that the skin-blood synchronous microdialysis technique provided a new method for the pharmacokinetics study of nanocarriers transdermal delivery systems.In addition,the microdialysis technique combined with mathematical modeling provides a very good platform for the further study of transdermal delivery system.
基金supported by the National Natural Science Foundation of China(Grant No.90403140)the Tianjin Natural Science Foundation(Grant No.TJ043801111)the Scientific Research Foundation for the Returned Overseas Chinese Scholars,Ministry of Education of China(Grant No.B04970).
文摘A host type non-virus gene delivery car- rier, phenanthroline-β-cyclodextrin derivative host molecule, was produced which can be used as mo- lecular probe. Interactions between DZY-1 and DNA were investigated by electrophoresis assay. Hind III enzyme inhibition assay was carried out using DNA condensates induced by host molecules or host- vip molecule complexes to explore their ability to inhibit enzyme digestion. Micro-structure of DNA condensates induced by host molecules and host-vip molecule complexes was observed by scanning electron microscope (SEM). Our work in- dicates the delivery mechanism of DZY-1 used as a gene delivery carrier and also provides a method to design and produce non-virus gene delivery carriers.
