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52. Dual drugs (microRNA-34a and paclitaxel)-loaded functional solid lipid nanoparticles for synergistic cancer cell suppression

Author

Lu Han, Yanling Zhang, Hongxin Shen, Li Deng, Sanjun Shi, Zhirong Zhang, Xun Sun, and Tao Gong

Subjects
Paclitaxel, Pharmaceutical Science, Antineoplastic Agents, Apoptosis, Pharmacology, chemistry.chemical_compound, Mice, Drug Delivery Systems, In vivo, Cell Line, Tumor, Solid lipid nanoparticle, Medicine, Animals, Humans, Tissue Distribution, Lung cancer, Cell Proliferation, business.industry, Melanoma, Cancer, Drug Synergism, medicine.disease, Antineoplastic Agents, Phytogenic, MicroRNAs, Hyaluronan Receptors, chemistry, MicroRNA 34a, Drug Design, Cancer cell, Nanoparticles, business
Abstract

A co-delivery system that can transport cancer related microRNAs and chemotherapeutics to their distinct targets in the tumors is an attractive strategy to eliminate tumor relapse in lung cancer therapy. In this study, we developed a dual-drug delivery system for an endogenous microRNA (miR-34a) and paclitaxel (PTX) for synergistic cancer therapy. PTX (a meiotic inhibitor) and miR-34a were loaded into cationic solid lipid nanoparticles (miSLNs-34a/PTX) which were used to treat murine B16F10-CD44(+) melanoma metastasized to the lungs of mice. This nanoparticle system demonstrated good protection for miR-34a and PTX from degradation in the serum, and had an average size of approximately 220 nm by photon correlation spectroscopy (PCS). In vitro, the parallel activity of PTX and miR-34a show synergistic anticancer efficacy. In vivo, miSLNs-34a/PTX showed passive targetability to the tumor-bearing lung tissues, and was demonstrated to be much more potent in inhibition of B16F10-bearing tumor growth and elimination of cancer cell populations in the lung than single drug-loaded solid lipid nanoparticles. It has been shown that such co-delivery of miR-34a and PTX is promising for enhanced cancer therapy to reduce tumor relapse.

Published
2014

54. Synthesis, transport and mechanism of a type I prodrug: L-carnitine ester of prednisolone

Author

Sanjun Shi, Tao Gong, Xun Sun, Zhirong Zhang, Qin Zhang, and Jingxin Mo

Subjects
Organic Cation Transport Proteins, Prednisolone, Anti-Inflammatory Agents, Pharmaceutical Science, Bronchi, Absorption (skin), Respiratory Mucosa, Pharmacology, SLC22A5, Cell Line, Substrate Specificity, chemistry.chemical_compound, Mice, Drug Stability, Carnitine, Drug Discovery, medicine, Animals, Humans, Prodrugs, RNA, Messenger, Solute Carrier Family 22 Member 5, Glucocorticoids, Biotransformation, biology, Symporters, Interleukin-6, Biological Transport, Succinates, Prodrug, In vitro, HEK293 Cells, chemistry, Gene Expression Regulation, Ergothioneine, biology.protein, Molecular Medicine, Glucocorticoid, medicine.drug
Abstract

Aerosol glucocorticoid medications have become more and more important in treating BA (bronchial asthma). Although these agents are dosed to directly target airway inflammation, adrenocortical suppression and other systematic effects are still seen. To tackle this problem in a novel way, two L-carnitine ester derivatives of prednisolone (as the model drug), namely, PDC and PDSC, were synthesized to increase the absorption of prednisolone across the human bronchial epithelial BEAS-2B cells by the organic cation/carnitine transporter OCTN2 (SLC22A5) and then to slowly and intracellularly release prednisolone. The transport of prednisolone, PDC and PDSC into the human bronchial epithelial BEAS-2B cells was in the order PDSC > prednisolone > PDC at 37 °C. It was found that PDSC displayed 1.79-fold increase of uptake compared to prednisolone. Transport of PDSC by BEAS-2B was temperature-, time-, and Na(+)-dependent and saturable, with an apparent K(m) value of 329.74 μM, suggesting the involvement of carrier-mediated uptake. An RT-PCR study showed that organic cation/carnitine transporters OCTN1 and OCTN2 are expressed in BEAS-2B cells, but little in HEK293T cells. The order of uptake by HEK293T was prednisolone > PDC > PDSC. In addition, the inhibitory effects of organic cations such as L-carnitine, ergothioneine, TEA(+) and ipratropium on PDSC uptake in BEAS-2B cells were in the order L-carnitine > ipratropium > TEA(+) > ergothioneine, whereas their inhibitory effects on PDSC uptake in HEK293T cells were negligible. Finally, in vitro LPS-induced IL-6 production from BEAS-2B was more and longer suppressed by PDSC than prednisolone and PDC. All of these results suggested PDSC may be an attractive candidate for asthma treatment.

Published
2011

55. Solid lipid nanoparticles loaded with anti-microRNA oligonucleotides (AMOs) for suppression of microRNA-21 functions in human lung cancer cells

Author

Zhirong Zhang, Jie Liu, Zhirong Zhong, Sanjun Shi, Xun Sun, and Tao Gong

Subjects
Lung Neoplasms, Oligonucleotides, Pharmaceutical Science, Adenocarcinoma of Lung, Antineoplastic Agents, Biology, Adenocarcinoma, Cell Line, Tumor, Solid lipid nanoparticle, microRNA, Zeta potential, Humans, Pharmacology (medical), Cell Proliferation, Pharmacology, A549 cell, Drug Carriers, Oligonucleotide, Organic Chemistry, Cell migration, Molecular biology, Lipids, In vitro, body regions, MicroRNAs, Cell culture, Cancer research, Molecular Medicine, Nanoparticles, Biotechnology
Abstract

Literature has highlighted the practical use of solid lipid nanoparticles (SLNs) in research, but few reports have combined SLNs with miRNA-based therapy. We aimed to prepare SLNs to load anti-miRNA oligonucleotide (AMO) for miRNA-based therapy in vitro. SLNs were employed to encapsulate AMO by a solvent diffusion method, and then the properties of AMO-CLOSs (cationic lipid binded oligonucleotide (AMO)-loaded SLNs) were characterized. We studied cellular uptake and activation properties of AMO-CLOSs in A549 cells, including antisense efficiency, cell migration and invasion. AMO-CLOSs were 187 nm in size and 46.6 mV in zeta potential with an approximately toroid morphology in the TEM image. AMO-CLOSs uptake by A549 cells was increased significantly higher and more effective than free AMO. Further results demonstrated that AMO-CLOSs showed high antisense efficiency of microRNA-21 and subsequently decreased the proliferation, migration and invasion of tumor cells. These findings suggest that AMO-CLOSs represent a potential new approach for carrying anti-miRNA inhibitors for cancer therapy.

Published
2011

56. Lipid nanoparticles loaded with 10-hydroxycamptothecin-phospholipid complex developed for the treatment of hepatoma in clinical application

Author

Ke Ren, Xiao-Ning Zhang, Sanjun Shi, Dong Zhao, Zhirong Zhang, Xun Sun, Jie Liu, Wei Wei, and Tao Gong

Subjects
Male, Pathology, medicine.medical_specialty, Carcinoma, Hepatocellular, Phospholipid, Pharmaceutical Science, Nanoparticle, Phospholipid complex, Mice, Nude, chemistry.chemical_compound, Mice, Drug Delivery Systems, Liver Neoplasms, Experimental, Pharmaceutical technology, medicine, 10-hydroxycamptothecin, Animals, Humans, Tissue Distribution, Microparticle, Particle Size, Phospholipids, Drug Carriers, Mice, Inbred BALB C, Chromatography, Chemistry, Hep G2 Cells, Antineoplastic Agents, Phytogenic, In vitro, Delayed-Action Preparations, Nanoparticles, lipids (amino acids, peptides, and proteins), Camptothecin, Female
Abstract

For the purpose of clinical intravenous injection of 10-hydroxycamptothecin, a novel formulation of lipid nanoparticles loaded with 10-hydroxycamptothecin-phospholipid complex (HCPT-PC-LNs) was prepared by solvent evaporation and high-pressure homogenization methods. Spherical particles with a mean particle size of 200 nm and high encapsulation efficiency of 97.39 +/- 0.91% could be achieved under optimal conditions. In vitro release profile showed that the release pattern of HCPT from nanoparticles was retarded with neglectable initial burst release and well-fitted to Ritger-Peppas equation. In vivo distribution studies in mice showed that HCPT-PC-LNs were mainly localized in liver. Besides, in situ mouse hepatoma model was established and tumor uptake of HCPT-PC-LNs was much higher than that of free HCPT (more than 18-fold). It was found that HCPT-PC-LNs exhibited high growth inhibitory effect on human liver cancer cells by MTT assay. The cellular uptake of HCPT was 24.33 +/- 1.30 x 10(-7) microg/cell in HCPT-PC-LNs treated group at 12 h, which was almost 14-fold higher than that of free HCPT (1.72 +/- 0.57 x 10(-7) microg/cell). This study suggested that the HCPT-PC-LNs could be utilized as a novel formulation for liver tumors therapy, which might be applied in clinic in the near future.

Published
2010

57. Preparation and gene delivery of alkaline amino acids-based cationic liposomes

Author

Junxiao Yang, Bin He, Kui Luo, Yang Yang, Li Li, Zhongwei Gu, Sanjun Shi, Yu Nie, and Rong Zhu

Subjects
Light, Tetrazolium Salts, Gene delivery, Arginine, Transfection, Cell Line, chemistry.chemical_compound, Microscopy, Electron, Transmission, Genes, Reporter, Cations, Drug Discovery, PEG ratio, Deoxyribonuclease I, Humans, Scattering, Radiation, Cationic liposome, Histidine, Amino Acids, Luciferases, Electrophoresis, Agar Gel, Liposome, Drug Carriers, Chemistry, Lysine, Organic Chemistry, HEK 293 cells, technology, industry, and agriculture, Cationic polymerization, Gene Transfer Techniques, Thiazoles, Cholesterol, Biochemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Liposomes, Molecular Medicine, lipids (amino acids, peptides, and proteins), Ethylene glycol
Abstract

Cationic lipids 1, 2, and 3, based on hydrophobic cholesterol linked to L-lysine, L-histidine or L-arginine, respectively, were designed and tested as gene delivery vectors. Physicochemical and biological properties of all liposomes and lipoplexes were evaluated, including lipid-DNA interactions, size, morphology, zeta potential, acid-base buffering capability, protection of DNA from DNase I digestion, and cytotoxity. The efficiency of luciferase gene transfection of lipoplexes 1–3 was compared with that of commercial dioleoyl-trimethylammonium propane (DOTAP) and polyethyleneimine (PEI) in 293T cells and HepG2 cells with or without poly(ethylene glycol) PEG stabilizer. The complexation and protection of DNA of liposome 3 was the strongest among the three liposomes. The efficiency of gene transfection of liposomes 1–3 was two-to threefold higher than that of PEI and/or DOTAP in 293T cells. Liposomes 1 and 3 in PEG as stabilizer showed sixfold higher transfection efficiency than that of PEI and/or DOTAP, whereas liposome 2 showed very low transfection efficiency. In HepG2 cells, the transfection efficiency of all the cationic liposomes was much lower than that of DOTAP. In conclusion, lipids 1–3 were efficient and non-toxic gene vectors; the headgroup of cationic lipids and the stabilizer of liposome formulation had an important influence on gene transfection.

Published
2008

58. Circulating Tumor Cells: From Theory to Nanotechnology-Based Detection.

Author

Yue Ming, Yuanyuan Li, Haiyan Xing, Minghe Luo, Ziwei Li, Chen, Jianhong, Jingxin Mo, and Sanjun Shi

Subjects
CANCER stem cells, NANOTECHNOLOGY, METASTASIS
Abstract

Cancer stem cells with stem-cell properties are regarded as tumor initiating cells. Sharing stem-cell properties, circulating tumor cells (CTCs) are responsible for the development of metastasis, which significant affects CTC analysis in clinical practice. Due to their extremely low occurrence in blood, however, it is challenging to enumerate and analyze CTCs. Nanotechnology is able to address the problems of insufficient capture efficiency and low purity of CTCs owing to the unique structural and functional properties of nanomaterials, showing strong promise for CTC isolation and detection. In this review, we discuss the role of stem-like CTCs in metastases, provide insight into recent progress in CTC isolation and detection approaches using various nanoplatforms, and highlight the role of nanotechnology in the advancement of CTC research. [ABSTRACT FROM AUTHOR]

Published
2017
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61. Preparation, characterization, and in vivo evaluation of a self-nanoemulsifying drug delivery system (SNEDDS) loaded with morin-phospholipid complex

Author

Zhirong Zhang, Tao Gong, Sanjun Shi, Qiang Zhang, Jinjie Zhang, Xun Sun, and Qiang Peng

Subjects
Male, Medicine (General), Materials science, Biophysics, Pharmaceutical Science, Administration, Oral, Bioengineering, Morin, Glycerides, Polyethylene Glycols, Biomaterials, chemistry.chemical_compound, R5-920, Pharmacokinetics, Microscopy, Electron, Transmission, In vivo, Oral administration, immune system diseases, International Journal of Nanomedicine, Drug Discovery, Animals, Solubility, Particle Size, Rats, Wistar, Chromatography, High Pressure Liquid, Phospholipids, Original Research, Flavonoids, Drug Carriers, Chromatography, phospholipid complex, Organic Chemistry, General Medicine, morin, Bioavailability, Rats, chemistry, oral bioavailability, Drug delivery, Emulsions, Ethylene Glycols, self-nanoemulsifying drug delivery system, Drug carrier
Abstract

Jinjie Zhang1, Qiang Peng1, Sanjun Shi1, Qiang Zhang2, Xun Sun1, Tao Gong1, Zhirong Zhang11Key Laboratory of Drug Targeting and Drug Delivery System, Ministry of Education, West China School of Pharmacy, Sichuan University, Chengdu, People's Republic of China; 2State Key Laboratory of Natural and Biomimetic Drugs, School of Pharmaceutical Sciences, Peking University, Peking, People's Republic of ChinaBackground: As a poorly water-soluble drug, the oral application of morin is limited by its low oral bioavailability. In this study, a new self-nanoemulsifying drug delivery system (SNEDDS), based on the phospholipid complex technique, was developed to improve the oral bioavailability of morin.Methods: Morin-phospholipid complex (MPC) was prepared by a solvent evaporation method and characterized by infrared spectroscopy and X-ray diffraction. After formation of MPC, it was found that the liposolubility of morin was significantly increased, as verified through solubility studies. An orthogonal design was employed to screen the blank SNEDDS, using emulsifying rate and particle size as evaluation indices. Ternary phase diagrams were then constructed to investigate the effects of drug loading on the self-emulsifying performance of the optimized blank SNEDDS. Subsequently, in vivo pharmacokinetic parameters of the morin-phospholipid complex self-nanoemulsifying drug delivery system (MPC-SNEDDS) were investigated in Wistar rats (200 mg/kg of morin by oral administration).Results: The optimum formulation was composed of Labrafil® M 1944 CS, Cremophor® RH 40, and Transcutol® P (3:5:3, w/w), which gave a mean particle size of approximately 140 nm. Oral delivery of the MPC-SNEDDS exhibited a significantly greater Cmax (28.60 µg/mL) than the morin suspension (5.53 µg/mL) or MPC suspension (23.74 µg/mL) (all P < 0.05). Tmax was prolonged from 0.48 to 0.77 hours and to 1 hour for MPC and MPC-SNEDDS, respectively. In addition, the relative oral bioavailability of morin formulated in the MPC-SNEDDS was 6.23-fold higher than that of the morin suspension, and was significantly higher than that of the MPC suspension (P < 0.05).Conclusion: The study demonstrated that a SNEDDS combined with the phospholipid complex technique was a promising strategy to enhance the oral bioavailability of morin.Keywords: morin, phospholipid complex, self-nanoemulsifying drug delivery system, oral bioavailability

62. Improvement of adenoviral vector-mediated gene transfer to airway epithelia by folate-modified anionic liposomes

Author

Yu Wan, Zhirong Zhang, Sanjun Shi, Xun Sun, Zhirong Zhong, and Jianfeng Han

Subjects
Anions, Male, Medicine (General), primary-cultured airway epithelia, viruses, Genetic Vectors, Biophysics, Pharmaceutical Science, Bioengineering, Respiratory Mucosa, Biology, Gene delivery, Adenoviridae, Viral vector, Biomaterials, Mice, Transduction (genetics), Folic Acid, R5-920, International Journal of Nanomedicine, Drug Discovery, Animals, gene delivery, Particle Size, Receptor, Edetic Acid, Original Research, Analysis of Variance, Organic Chemistry, adenovirus vector, Gene Transfer Techniques, General Medicine, biochemical phenomena, metabolism, and nutrition, Flow Cytometry, Molecular biology, In vitro, Cell biology, folate receptor, Mice, Inbred C57BL, Lac Operon, Folate receptor, Liposomes, Respiratory epithelium, Airway
Abstract

Zhirong Zhong1,2, Yu Wan1, Jianfeng Han1, Sanjun Shi1, Zhirong Zhang1, Xun Sun11Key Laboratory of Drug Targeting and Drug Delivery Systems, Ministry of Education, West China School of Pharmacy, Sichuan University, Chengdu, Sichuan, People's Republic of China; 2Luzhou Medical College, Luzhou, Sichuan, People's Republic of ChinaAbstract: Despite remarkable progress in the development of both viral and nonviral gene delivery vectors for airway disease treatment, poor gene transfer efficiency to the airway epithelium is a major obstacle in clinical application. To take advantage of the unique features of viral and nonviral vectors, we have developed complexes of adenovirus vector and anionic liposomes (AL-Ad5) by the calcium-induced phase change method. In the current study, based on the fact that there are overexpressed folate receptors on the surface of airway epithelia, we further modified the AL-Ad5 complexes with folate (F-AL-Ad5) to improve the transduction ability of Ad5 in airway epithelia. The transduction efficiencies of the obtained F-AL-Ad5 and AL-Ad5 complexes were assessed in primary-cultured airway epithelia in vitro. Our results indicated that compared with naked adenovirus vector, both AL-Ad5 and F-AL-Ad5 could significantly enhance the gene transduction efficiency of adenovirus vector in primary-cultured airway epithelial cells. Moreover, the enhancement mediated by F-AL-Ad5 was more dramatic than that by AL-Ad5. These results suggested that F-AL-Ad5 may be a useful strategy to deliver therapeutic genes to the airway epithelia and is promising in clinical application.Keywords: gene delivery, adenovirus vector, folate receptor, primary-cultured airway epithelia

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