Identification and Characterization of an Envelope Protein 168L in Cherax Quadricarinatus Iridovirus (CQIV)
In: VIRUS-D-22-00632
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In: VIRUS-D-22-00632
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In: info:eu-repo/semantics/altIdentifier/doi/10.2147/IJN.S187906
Chan Wu,1,* Yang Zhang,1,2,* Daoqiu Yang,3,* Jinfeng Zhang,4 Juanjuan Ma,1 Dan Cheng,1 Jianming Chen,1,5 Li Deng1 1Department of Pharmaceutics, School of Pharmacy, Second Military Medical University, Shanghai 200433, People's Republic of China; 2Department of Pharmacy, Shanghai Tenth People's Hospital, School of Medicine, Tongji University, Shanghai 200072, People's Republic of China; 3Department of Dermatology, 107th Hospital of PLA, Yantai 264000, People's Republic of China; 4Department of Traditional Chinese Medicine, Shanghai Hospital of Chinese Integrative Medicine, Shanghai, People's Republic of China; 5Tasly Diyi Pharmaceutical Group Co., Ltd, Jiangsu 223002, People's Republic of China *These authors contributed equally to this work Background: Many novel drug delivery systems have been extensively studied to exploit the full therapeutic potential of SN38, which is one of the most potent antitumor analogs of camptothecins (CPTs), whose clinical application is seriously hindered by poor water solubility, low plasmatic stability, and severe toxicity, but results are always unsatisfactory.Methods: In this study, combining the advantages of prodrug and nanotechnology, a lipophilic prodrug of SN38, SN38-PA, was developed by conjugating palmitic acid to SN38 via ester bond at C10 position, and then the lipophilic prodrug was encapsulated into a long-circulating liposomal carrier by film dispersion method.Results: The SN38-PA liposomes were characterized as follows: an average particle size of 80.13 nm, an average zeta potential of -33.53 mv, and the entrapment efficiency of 99%. Compared with CPT-11, SN38-PA liposome was more stable in close lactone form, more efficient in conversion rate to SN38, and more potent in cytotoxicity against tumor cells. Pharmacokinetic study showed that SN38-PA liposome had significantly enhanced plasma half-life (t1/2) value of SN38 and increased area under the curve (AUC) of SN38, which was 7.5-fold higher than that of CPT-11. Biodistribution study showed that SN38-PA liposome had more active metabolite SN38 in each tissue. Finally, the pharmacodynamic study showed that SN38-PA liposome had higher antitumor effect with the antitumor inhibition rate of 1.61 times than that of CPT-11.Conclusion: These encouraging data merit further investigation on this novel SN38-PA liposome. Keywords: SN38, lipophilic prodrug, long-circulating liposome, pharmacokinetics, biodistribution, pharmacodynamics, CPT-11
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In: info:eu-repo/semantics/altIdentifier/doi/10.2147/IJN.S210938
Yongwei Gu,1,2,* Juanjuan Ma,2,* Zhiqin Fu,1,2,* Youfa Xu,1,2 Baoan Gao,1,2 Jianzhong Yao,3 Wei Xu,1 Kedan Chu,1 Jianming Chen1,2 1Department of Pharmacy, Fujian University of Traditional Chinese Medicine, Fujian 350108, People's Republic of China; 2Shanghai Wei Er Biopharmaceutical Technology Co., Ltd., Shanghai 201707, People's Republic of China; 3School of Pharmacy, Second Military Medical University, Shanghai 200433, People's Republic of China*These authors contributed equally to this workCorrespondence: Wei Xu; Jianming ChenDepartment of Pharmacy, Fujian University of Traditional Chinese Medicine, Fujian 350108, People's Republic of ChinaTel/fax +86-591-22861693; +86-21-31198900-8949Email 2000017@fjtcm.edu.cn; chenjm0711@163.comPurpose: The objective of the present study was to develop a liposomal drug delivery system based on combretastatin A4 (CA4) prodrugs modified with varying alkyl chains and investigate the in vitro drug conversion from prodrug and in vivo antitumor effect.Methods: The prodrug of CA4 was synthesized with stearyl chloride (18-carbon chain), palmitoyl chloride (16-carbon chain), myristoyl chloride (14-carbon chain), decanoyl chloride (10-carbon chain), and hexanoyl chloride (6-carbon chain) at the 3′-position of the CA4. Subsequently, it was encapsulated with liposomes through the thin-film evaporation method. Furthermore, the characteristics of prodrug-liposome were evaluated using in vitro drug release, conversion, and cytotoxicity assays, as well as in vivo pharmacokinetic, antitumor, and biodistribution studies.Results: The liposome system with loaded CA4 derivatives was successfully developed with nano-size and electronegative particles. The rate of in vitro drug release and conversion was reduced as the fatty acid carbon chain lengthened. On the contrary, in vivo antitumor effects were improved with the enlargement of the fatty acid carbon chain. The results of the in vivo pharmacokinetic and tissue distribution studies indicated that the reduced rate of CA4 release with a long carbon chain could prolong the circulation time and increase the drug concentration in the tumor tissue.Conclusion: These results suggested that the release or hydrolysis of the parent drug from the prodrug was closely related with the in vitro and in vivo properties. The slow drug release of CA4 modified with longer acyl chain could prolong the circulation time and increase the concentration of the drug in the tumor tissue. These effects play a critical role in increasing the antitumor efficacy.Keywords: combretastatin A4, liposome, prodrug, drug release, anticancer
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In: info:eu-repo/semantics/altIdentifier/doi/10.2147/IJN.S34801
Li Deng,1,# Xingfa Ke,4,# Zhiying He,3,# Daoqiu Yang,5 Hai Gong,6 Yingying Zhang,1 Xiaolong Jing,4 Jianzhong Yao,2 Jianming Chen11Department of Pharmaceutics, 2Department of Medicinal Chemistry, School of Pharmacy, 3Department of Cell Biology, Second Military Medical University, Shanghai, People's Republic of China; 4Department of Pharmacy, Fujian University of Traditional Chinese Medicine, Fujian, People's Republic of China; 5Department of Dermatology, 107th Hospital of PLA, Yantai, People's Republic of China; 6Department of Radiation Oncology, General Hospital of Jinan Military Region, Jinan, People's Republic of China#These authors contributed equally to this workAbstract: Pancreatic cancer is a highly lethal disease with a 5-year survival rate less than 5% due to the lack of an early diagnosis method and effective therapy. To provide a novel early diagnostic method and targeted therapy for pancreatic cancer, a multifunctional nanoimmunoliposome with high loading of ultrasmall superparamagnetic iron oxides (USPIOs) and doxorubicin (DOX) was prepared by transient binding and reverse-phase evaporation method, and was conjugated with anti-mesothelin monoclonal antibody by post-insertion method to target anti-mesothelin-overexpressed pancreatic cancer cells. The in vitro and in vivo properties of this anti-mesothelin antibody-conjugated PEGlyated liposomal DOX and USPIOs (M-PLDU; and PEGlyated nanoimmunoliposome without antibody conjugation [PLDU]) were evaluated both in human pancreatic cancer cell line Panc-1 cell and in a pancreatic cancer xenograft animal model. Results showed that M-PLDUs were spherical and uniform with a diameter about ~180 nm, with a zeta potential of about −28~−30 mV, and had good efficacy encapsulating DOX and USPIOs. The in vitro study demonstrated that M-PLDUs possessed good magnetic resonance imaging (MRI) capability with a transverse relaxivity (r2) of about 58.5 mM–1 • s–1. Confocal microscopy showed more efficient uptake of M-PLDU in Panc-1 cells by antibody-mediated targeting. Methyl thiazolyl tetrazolium assay results showed significant inhibitory effect of M-PLDU against Panc-1 cells (half-maximal inhibitory concentration, 1.95 µM). The in vivo imaging study showed that the tumor signal intensity (SI) dropped significantly about 4 hours after intravenous injection of M-PLDU. The decrease in tumor SI induced by M-PLDUs (∆ SI = 145.98 ± 20.45) or PLDUs (∆ SI = 75.69 ± 14.53) was much more significant than that by free USPIOs (∆ SI = 42.78 ± 22.12; P < 0.01). The in vivo antitumor study demonstrated that compared with FD (free DOX) and PLDU, M-PLDU possessed higher inhibitory effect on tumor growth and the tissue distribution assay further proved that M-PLDUs could selectively accumulate in the tumor xenograft. These results indicated that M-PLDU not only well retained the inherent MRI capability of USPIOs, but significantly improved the targeting distribution of USPIOs and therapeutic agents in pancreatic tumor tissues. They may serve as a promising theranostic nanomedicine not only for early detection but also for MRI-monitored targeting therapy of human pancreatic cancer.Keywords: theranostic nanomedicine, nanoimmunoliposome, mesothelin, USPIO, doxorubicin, pancreatic cancer
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In: info:eu-repo/semantics/altIdentifier/doi/10.2147/IJN.S180957
Yue Lu,1 Wenjun Jiang,1 Xin Wu,2 Saixu Huang,1 Zhiyong Huang,1 Yamin Shi,3 Qi Dai,1 Jianming Chen,2 Fuzheng Ren,1 Shen Gao4 1Shanghai Key Lab New Drug Design, School of Pharmacy, East China University of Science and Technology, Shanghai, People's Republic of China; 2Shanghai Weier Biological Medicine Science and Technology Co. Ltd., Shanghai, People's Republic of China; 3Department of Pharmacy, Fujian University of Traditional Chinese Medicine, Fuzhou, People's Republic of China; 4Department of Pharmaceutics, Changhai Hospital, Second Military Medical University, Shanghai, People's Republic of China Background: Vectors are essential for successful gene delivery. In the present study, a tumor-targeting cationic gene vector, known as the disulfide cross-linked arginine-aspartic acid peptide modified by HAIYPRH (T7) peptide (CRD-PEG-T7), was designed for targeted delivery of plasmid DNA (pDNA) for gene therapy of prostate cancer (PCa). Methods: The structure of CRD-PEG-T7 was determined and the cellular uptake efficacy, gene transfection efficacy, cytotoxicity, and the targeting effect of the CRD-PEG-T7–plasmid DNA complex were examined. Results: The results demonstrated that the CRD-PEG-T7–plasmid DNA complex was nanosized and had a positively charged surface, good cellular uptake efficacy, minimal cytotoxicity, and a dual-targeting effect as compared with the CRD-PEG–plasmid DNA complex. The peptide T7-modifed new delivery system was able to target the highly expressed transferrin receptor (TfR) on tumor cells with an efficiency four-fold higher than that of the non-modified system. Conclusion: The results above indicatd that the CRD-PEG-T7–plasmid DNA complex may prove to be a promising gene delivery system targeting bone-metastatic tumor. Keywords: arginine peptide, aspartic acid peptide, tumor targeting, DNA delivery, bone metastasis prostate cancer
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In: info:eu-repo/semantics/altIdentifier/doi/10.2147/IJN.S47597
Li Deng,1,* Yingying Zhang,1,* Lulu Ma,1,5,* Xiaolong Jing,1,3 Xingfa Ke,1,3 Jianhao Lian,1,3 Qiang Zhao,1,3 Bo Yan,1,3 Jinfeng Zhang,4 Jianzhong Yao,2 Jianming Chen1 1Department of Pharmaceutical Science, 2Department of Medicinal Chemistry, School of Pharmacy, Second Military Medical University, Shanghai, People's Republic of China; 3Department of Pharmacy, Fujian University of Traditional Chinese Medicine, Fujian, People's Republic of China; 4Shanghai TCM Integrated Hospital, Shanghai, People's Republic of China; 5Department of Pharmacy, First Affiliated Hospital of Bengbu Medical College, Bengbu, People's Republic of China *These authors contributed equally to this paper Background: Targeted liposome-polycation-DNA complex (LPD), mainly conjugated with antibodies using functionalized PEG derivatives, is an effective nanovector for systemic delivery of small interference RNA (siRNA). However, there are few studies reporting the effect of different conjugation linkers on LPD for gene silencing. To clarify the influence of antibody conjugation linkers on LPD, we prepared two different immunoliposomes to deliver siRNA in which DSPE-PEG-COOH and DSPE-PEG-MAL, the commonly used PEG derivative linkers, were used to conjugate anti-EGFR Fab' with the liposome. Methods: First, 600 µg of anti-EGFR Fab' was conjugated with 28.35 µL of a micelle solution containing DSPE-PEG-MAL or DSPE-PEG-COOH, and then post inserted into the prepared LPD. Various liposome parameters, including particle size, zeta potential, stability, and encapsulation efficiency were evaluated, and the targeting ability and gene silencing activity of TLPD-FPC (DSPE-PEG-COOH conjugated with Fab') was compared with that of TLPD-FPM (DSPE-PEG-MAL conjugated with Fab') in SMMC-7721 hepatocellular carcinoma cells. Results: There was no significant difference in particle size between the two TLPDs, but the zeta potential was significantly different. Further, although there was no significant difference in siRNA encapsulation efficiency, cell viability, or serum stability between TLPD-FPM and TLPD-FPC, cellular uptake of TLPD-FPM was significantly greater than that of TLPD-FPC in EGFR-overexpressing SMMC-7721 cells. The luciferase gene silencing efficiency of TLPD-FPM was approximately three-fold high than that of TLPD-FPC. Conclusion: Different conjugation linkers whereby antibodies are conjugated with LPD can affect the physicochemical properties of LPD and antibody conjugation efficiency, thus directly affecting the gene silencing effect of TLPD. Immunoliposomes prepared by DSPE-PEG-MAL conjugation with anti-EGFR Fab' are more effective than TLPD containing DSPE-PEG-COOH in targeting hepatocellular carcinoma cells for siRNA delivery. Keywords: liposome-polycation-DNA, anti-EGFR Fab', immunoliposomes, small interfering RNA delivery, conjugation technology, hepatocellular carcinoma
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