1.Isolation of Sporothrix from Reed and Soil
Xuezhu JIN ; Fuqiu LI ; Mingji ZHU
Chinese Journal of Dermatology 1994;0(05):-
Objective To study the distribution of Sporothrix in natural environment in Jilin province. Methods Specimens of decayed reed, corn stalks, rotten wood and soil from areas of high incidence rate of sporotricosis (Tongyu county and Nongan county) and low incidence rate (Tumen county) were randomly collected, cultured and subcultured for sporothrix, and the isolates were identified. Results 21 strains of Sporothrix schenckii were isolated and identified. It is the first report that Sporothrix is isolated from corn stalks, rotten wood and soil in our country and is the first report in the world that Sporothrix is isolated from corn stalks. Conclusion The results of study show that there are parasitic Sporothrix schenckii in the reed, corn stalks, rotten wood and soil in the region with high incidence rate of sporotrichosis, and parasitic Sporothrix schenckii in the reed and rotten wood have also been found in the region with low incidence rate. The finding of biological distribution of Sporothrix in the province is of great significance for the prevention and treatment of sporothrichosis.
2.Small interfering RNA delivery mediated by mPEG-PCL-g-PEI polymer nanoparticles.
Wei HUANG ; Ming Lü ; Zhonggao GAO ; Mingji JIN ; Changqing YANG
Acta Pharmaceutica Sinica 2011;46(3):344-9
The aim of this paper is to report the synthesis of the mPEG-PCL-g-PEI copolymers as small interfering RNA (siRNA) delivery vector, and exploration of the siRNA delivery potential of mPEG-PCL-g-PEI in vitro. The diblock copolymers mPEG-PCL-OH was prepared through the ring-opening polymerization. Then, the hydroxyl terminal (-OH) of mPEG-PCL-OH was chemically converted into the carboxy (-COOH) and N-hydroxysuccinimide (NHS) in turn to prepare mPEG-PCL-NHS. The branched PEI was reacted with mPEG-PCL-NHS to synthesize the ternary copolymers mPEG-PCL-g-PEI. The structure of mPEG-PCL-g-PEI copolymers was characterized with Fourier transform infrared spectroscopy (FTIR), nuclear magnetic resonance (NMR) and gel permeation chromatography (GPC). The mPEG-PCL-g-PEI/siRNA nanoparticles were prepared by complex coacervation, and the nanoparticles size and zeta potential were determined, separately. The cytotoxicities of mPEG-PCL-g-PEI/siRNA nanoparticles and PEI/siRNA nanoparticles were compared through cells MTT assays in vitro. The inhibition efficiencies of firefly luciferase gene expression by mPEG-PCL-g-PEI/ siRNA nanoparticle at various N/P ratios were investigated through cell transfection in vitro. The experimental results suggested that the ternary (mPEG5k-PCL(1.2k))1.4-g-PEI(10k) copolymers were successfully synthesized. (mPEG(5k)-PCL(1.2k))1.4-g-PEI(10k) could condense siRNA into nanoparticles (50-200 nm) with positive zeta potential. MTT assay results showed that the cytotoxicity of (mPEG(5k)-PCL(1.2k))1.4-g-PEI(10k)/siRNA nanoparticles was significantly lower than that of PEI(10k)/siRNA nanoparticles (P < 0.05). The expression of firefly luciferase gene could be significantly down-regulated at a range of N/P ratio from 50 to 150 (P < 0.01), and maximally inhibited at the N/P ratio of 125. The mPEG-PCL-g-PEI polymers could delivery siRNA into cells to inhibit the expression of target gene with very low cytotoxicity, which suggested that mPEG-PCL-g-PEI could serve as a new type of siRNA delivery vector.
3.Preparation and in vitro evaluation of pH-sensitive TAT peptide conjugated micelles.
Wei CHEN ; Mingji JIN ; Zhonggao GAO ; Liping WANG ; Haifeng PIAO
Acta Pharmaceutica Sinica 2011;46(5):599-604
Doxorubicin loaded micelles were prepared by film-hydration method using stearyl sulfadiazine (SA-SD) which is pH sensitive, methoxy (polyethylene glycol)-2000-1, 2-dioleoyl-sn-glycero-3-phosphoethanolamine (mPEG-DOPE) and transactivator of transcription (TAT) peptide conjugated PEG-DOPE. Mean diameter of the pH-sensitive micelles was about 20 nm with a (99.1 +/- 2.1) % drug entrapment efficiency at pH 7.4. Flow cytometry studies revealed that the simple TAT micelles was taken up rapidly at the same level at pH 6.8 and pH 7.4. However, the pH-sensitive micelles entered the tumor cell less at pH 7.4 and significantly increase at pH 6.8. After 1 h incubation at pH 6.8, the amount of the pH-sensitive micelles taken up by cancer cell 4T1 was almost similar to simple TAT micelles. The confocal microscopy indicated that the pH-sensitive micelles entered the 4T1 cells at pH 6.8 more than at pH 7.4. It was indicated that the pH-sensitive micelles could shield TAT peptide at normal pH 7.4 and deshield it at pH 6.8. Hence, TAT peptides lead the drug-loaded micelles into the tumor cells and killed them selectively. The pH-sensitive micelle may provide a novel strategy for design of cancer targeting drug delivery system.
4.Establishment of a keloid model in nude mice with human keloid-derived fibroblasts
Lianhua ZHU ; Hongshuang WAN ; Mingji JIN ; Yuhui FANG ; Zhouna LI ; Zhehu JIN ; Zhonggao GAO
Chinese Journal of Dermatology 2014;47(12):845-848
Objective To establish a simple and efficient method for developing a keloid model in nude mice with human keloid-derived fibroblasts.Methods Twenty-seven female BALB/c nude mice were randomly divided into five groups with 5,5,5,8 and 4 mice in group A,B,C,D and E respectively.The mice in group A,B and C were inoculated with 0.1 ml of suspension containing human keloid-derived fibroblasts at concentrations of 1.0 × 104,3.0 × 104 and 5.0 × 104 per microliter Matrigel,respectively,at the right axillary fossa.The tumors that formed in one mouse in group C were taken out,and cut into several parts measuring 5 mm × 5 mm × 5 mm in size,which were then subcutaneously transplanted into the right axillary fossa of mice in group D.The mice in group E were subcutaneously injected with 100 μl of Matrigel and served as the control group.The formation of tumor in mice was observed by naked eyes,and the size of tumors was measured until day 30 after tumor formation in group A,B and C as well as after tumor transplantation in group D.Mice were sacrificed on day 30 after tumor formation,and histopathologic examination was performed to analyze histological features of transplanted tumors and pathological changes in visceral organs such as heart,liver,spleen,lung and kidney.Results The tumor formation rate was consistently 100% in group A,B and C,and the time required for tumor formation was (90.20 ± 3.96),(61.00 ± 2.92) and (39.60 ± 3.20) days in group A,B and C respectively.There was a significant difference in tumor volume on the 30th day after tumor formation between group A,B and C ((288.34 ± 25.29) vs.(1 370.63 ± 105.24) vs.(1 940.98 ± 184.37) mm3,F =138.74,P < 0.05).The size of implanted tumor mass in group D firstly increased,then gradually decreased,but began to continuously increase since the 14~ day,and tumor finally formed in 7 out of 8 mice.There was no evidence of tumor formation in group E.Histopathologic examination showed uniform histological manifestations,which were similar to those of human scar,in tumor tissues from mice in group A,B,C and D.Neither pathological changes nor metastases were observed in visceral organs of these mice.Conclusion Keloid-bearing nude mouse model can be established by subcutaneous inoculation with human keloidderived fibroblasts,or by subcutaneous transplantation of tumor masses of a certain size that have formed in nude mice.
5.The influence of the gut microbiota on the bioavailability of oral drugs.
Xintong ZHANG ; Ying HAN ; Wei HUANG ; Mingji JIN ; Zhonggao GAO
Acta Pharmaceutica Sinica B 2021;11(7):1789-1812
Due to its safety, convenience, low cost and good compliance, oral administration attracts lots of attention. However, the efficacy of many oral drugs is limited to their unsatisfactory bioavailability in the gastrointestinal tract. One of the critical and most overlooked factors is the symbiotic gut microbiota that can modulate the bioavailability of oral drugs by participating in the biotransformation of oral drugs, influencing the drug transport process and altering some gastrointestinal properties. In this review, we summarized the existing research investigating the possible relationship between the gut microbiota and the bioavailability of oral drugs, which may provide great ideas and useful instructions for the design of novel drug delivery systems or the achievement of personalized medicine.
6.Nanocarrier-mediated co-delivery of chemotherapeutic drugs and gene agents for cancer treatment.
Lin KANG ; Zhonggao GAO ; Wei HUANG ; Mingji JIN ; Qiming WANG
Acta Pharmaceutica Sinica B 2015;5(3):169-175
The efficacy of chemotherapeutic drug in cancer treatment is often hampered by drug resistance of tumor cells, which is usually caused by abnormal gene expression. RNA interference mediated by siRNA and miRNA can selectively knock down the carcinogenic genes by targeting specific mRNAs. Therefore, combining chemotherapeutic drugs with gene agents could be a promising strategy for cancer therapy. Due to poor stability and solubility associated with gene agents and drugs, suitable protective carriers are needed and have been widely researched for the co-delivery. In this review, we summarize the most commonly used nanocarriers for co-delivery of chemotherapeutic drugs and gene agents, as well as the advances in co-delivery systems.
7.Multifunctional oral delivery systems for enhanced bioavailability of therapeutic peptides/proteins.
Ying HAN ; Zhonggao GAO ; Liqing CHEN ; Lin KANG ; Wei HUANG ; Mingji JIN ; Qiming WANG ; You Han BAE
Acta Pharmaceutica Sinica B 2019;9(5):902-922
In last few years, therapeutic peptides/proteins are rapidly growing in drug market considering their higher efficiency and lower toxicity than chemical drugs. However, the administration of therapeutic peptides/proteins is mainly limited in parenteral approach. Oral therapy which was hampered by harsh gastrointestinal environment and poorly penetrating epithelial barriers often results in low bioavailability (less than 1%-2%). Therefore, delivery systems that are rationally designed to overcome these challenges in gastrointestinal tract and ameliorate the oral bioavailability of therapeutic peptides/proteins are seriously promising. In this review, we summarized various multifunctional delivery systems, including lipid-based particles, polysaccharide-based particles, inorganic particles, and synthetic multifunctional particles that achieved effective oral delivery of therapeutic peptides/proteins.
8.Research advances in peptide‒drug conjugates.
Liming GONG ; Heming ZHAO ; Yanhong LIU ; Hao WU ; Chao LIU ; Shuangyan CHANG ; Liqing CHEN ; Mingji JIN ; Qiming WANG ; Zhonggao GAO ; Wei HUANG
Acta Pharmaceutica Sinica B 2023;13(9):3659-3677
Peptide‒drug conjugates (PDCs) are drug delivery systems consisting of a drug covalently coupled to a multifunctional peptide via a cleavable linker. As an emerging prodrug strategy, PDCs not only preserve the function and bioactivity of the peptides but also release the drugs responsively with the cleavable property of the linkers. Given the ability to significantly improve the circulation stability and targeting of drugs in vivo and reduce the toxic side effects of drugs, PDCs have already been extensively applied in drug delivery. Herein, we review the types and mechanisms of peptides, linkers and drugs used to construct PDCs, and summarize the clinical applications and challenges of PDC drugs.
9.Versatile flexible micelles integrating mucosal penetration and intestinal targeting for effectively oral delivery of paclitaxel.
Chao LIU ; Wei LIU ; Yanhong LIU ; Hongxia DUAN ; Liqing CHEN ; Xintong ZHANG ; Mingji JIN ; Minhu CUI ; Xiuquan QUAN ; Libin PAN ; Jiachun HU ; Zhonggao GAO ; Yan WANG ; Wei HUANG
Acta Pharmaceutica Sinica B 2023;13(8):3425-3443
The extremely low bioavailability of oral paclitaxel (PTX) mainly due to the complicated gastrointestinal environment, the obstruction of intestinal mucus layer and epithelium barrier. Thus, it is of great significance to construct a coordinative delivery system which can overcome multiple intestinal physicochemical obstacles simultaneously. In this work, a high-density PEGylation-based glycocholic acid-decorated micelles (PTX@GNPs) was constructed by a novel polymer, 9-Fluorenylmethoxycarbonyl-polyethylene glycocholic acid (Fmoc-PEG-GCA). The Fmoc motif in this polymer could encapsulate PTX via π‒π stacking to form the core of micelles, and the low molecular weight and non-long hydrophobic chain of Fmoc ensures the high-density of PEG. Based on this versatile and flexible carriers, PTX@GNPs possess mucus trapping escape ability due to the flexible PEG, and excellent intestine epithelium targeting attributed to the high affinity of GCA with apical sodium-dependent bile acid transporter. The in vitro and in vivo results showed that this oral micelle could enhance oral bioavailability of PTX, and exhibited similar antitumor efficacy to Taxol injection via intravenous route. In addition, oral PTX@GNPs administered with lower dosage within shorter interval could increase in vivo retention time of PTX, which supposed to remodel immune microenvironment and enhance oral chemotherapy efficacy by synergistic effect.