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Size and surface modification are the two key factors affecting the effect of macrophages polarization induced by superparamagnetic iron oxide nanoparticles (SPIONs). The smaller the particle size, the better the polarization effect of SPIONs. Besides, the reasonable SPIONs surface modification method can also be used to enhance the polarization effect. In this study, SPIONs was prepared by solvothermal method and optimized by Box-Benhnken center combination design and response surface method. Furthermore, astragalus polysaccharide-superparamagnetic iron oxide nanocomplex (APS-SPIONs) was successfully constructed by EDC/NHS esterification method. The structure of APS-SPIONs was confirmed by dynamic light scatter and infrared spectrometer, and the contents of iron and polysaccharide were characterized by spectrophotometry. The effect of APS-SPIONs on inducing mouse macrophages RAW264.7 polarization was investigated by flow cytometry. The RAW264.7 macrophages-HepG2 human hepatoma cancer cells Transwell co-culture system was established to investigate APS-SPIONs improve anti-tumor function of macrophages in vitro, and the proliferation activity of APS-SPIONs on RAW264.7 detected by cell counting kit-8 (CCK-8) method. The results showed that the average particle size and zeta potential of APS-SPIONs were (82.93 ± 1.47) nm and (-24.00 ± 0.47) mV. Polysaccharide and Fe content were 8.69% and 7.04%, respectively. APS-SPIONs effectively induced the polarization of RAW264.7 into M1 type in vitro, improving the anti-tumor ability of macrophages in a co-culture system, without effecting the proliferation of macrophages. Our study provides a drug development strategy and preliminary research results to educate macrophages and reshape the tumor immune microenvironment to achieve tumor-killing effects.
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Fe-based metal-organic frameworks (MOFs) are a class of polymer crystals formed by the combination of Fe ions or Fe clusters with organic ligands through coordination bonds. At present, Fe-based MOFs can be mainly prepared by solvothermal synthesis, ultrasonic synthesis, microwave synthesis, and dry-gel conversion, etc. Fe-based MOFs have the characteristics of strong drug loading capacity of inorganic nano-carrier and high safety of organic nano-carrier, and have good tumor targeting and the capacity of inducting tumor's ferroptosis, which have high potential in the delivery of antitumor drugs. Recently, Fe-based MOFs have also been developed with various functions such as imaging, magnetic hyperthermia, photothermal therapy, photodynamic therapy, and intelligent response, which can facilitate diagnosis and monitor drug distribution while delivering antitumor drugs, and can produce synergistic antitumor effects combined with thermotherapy and phototherapy, and can also control the precise release of drugs. Reviewing the advances in the synthesis methods, characteristics as well as functions and types of Fe-based MOFs can provide a basis for the further applications of Fe-based MOFs in antitumor drug delivery.
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Age-related macular degeneration (AMD) is one of the main causes of vision loss among middle-aged and elderly people worldwide. The prevention and treatment of AMD is a current topic of interest in ophthalmology but remains challenging. Oxidative stress-induced retinal pigment epithelial cell autophagic dysfunction, cellular senescence, and an abnormal immune inflammatory response are key pathogenic factors for AMD. Many bioactive ingredients of traditional Chinese medicine not only exert anti-oxidative, anti-inflammatory, anti-aging, and anti-apoptotic effects, but also prevent/block the occurrence of AMD through different pathways. This review summarizes our current understanding of the pathogenesis of AMD, the types of natural bioactive ingredients capable of treating AMD, as well as the known mechanisms by which these agents act, and may provide new strategies for the prevention and treatment of AMD.
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Embolotherapy is a common method for clinical intervention in the treatment of diseases including aneurysms, arteriovenous malformations and solid tumors, and embolic agents are a decisive factor affecting the effect of embolization. Although various embolic agents like coils, microspheres, and Onyx have been used clinically, there are still some treatment limitations: such as weak blood vessel penetration, easy to aggregate, poor mechanical properties, adhesion to catheters, and the need for toxic solvents (e.g. dimethyl sulfoxide). In recent years, a number of studies have found that in situ hydrogels have good application prospects in the field of vascular embolization. When low viscosity precursor solution is injected into the targeted blood vessel via microcatheters, it will undergo a sol-gel transition through physical and/or chemical cross-linking to form hydrogel to block blood flow. In addition, these in situ hydrogels can load drugs by pore embedding, electrostatic interaction, chemical bonding, etc., and have excellent sustained-release properties. This review summarizes the research progress of injectable in situ hydrogel vascular embolic agents in the past ten years, with a view to provide references for the development of new embolic agents in the future.
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Natural polysaccharides with good biocompatibility and unique tumor immunomodulatory activity are becoming an important adjuvant anticancer therapy in clinic. In the field of pharmaceutics, natural polysaccharides can be used as not only bioactive components but also drug delivery carriers, as well as tumor-targeted ligands. Besides, various novel drug delivery systems based on natural polysaccharides exhibit unique advantages in regulating tumor immune microenvironment. In this review, we summarize the progress on natural polysaccharides in tumor microenvironment (TME) regulation and the designs of nano-sized drug delivery system, and point out challenges of polysaccharide-based drug delivery systems in the future application, and also give the potential solutions for these issues.
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AIM To investigate the pharmacokinetic behaviors of total flavonoids from Epimedii Folium in osteoporotic rats in vivo.METHODS Twelve rats were divided into model group and sham group,after which the osteoporotic rat model was established by removing bilateral ovaries.After intragastric administration with total flavonoids (500 mg/kg),HPLC-DAD was applied to detecting the plasma concentrations of total flavonoids' prototype glycosides (epimedin A,epimedin B,epimedin C,icariin) and their metabolites (sagittatoside A,sagittatoside B,2-O-rhamnosylicariside Ⅱ,baohuoside Ⅰ,icaritin) at thirteen time points (0.083,0.25,0.5,0.75,1,2,3,4,6,8,12,24 and 48 h),then the plasma concentration-time curves were drawn,followed by the calculation of pharmacokinetic parameters.RESULTS Doubled peaks were observed in the plasma concentration-time curves of total flavonoids' prototype glycosides and their metabolites in both groups.Compared with the sham group,the integrated AUC and Cmax in the model group were significantly decreased (P < 0.01),as well as the prolonged t1/2 (P < 0.01).CONCLUSION The in vivo absorption and metabolism of total flavonoids from Epimedii Folium are much slower in the state of osteoporosis,thus affects the efficacy.
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This study was aimed to prepare tripterine-coix seed component microemulsions (TCC-MEs) with coix seed oil and coix seed polysaccharide as bimodal excipients and evaluate its activity on anti-lung cancer in vivo.Coix seed oil was extracted by supercritical extraction methods and coix seed polysaccharide was obtained through hot water extraction and alcohol precipitation from coix seed.Then,coix seed oil was used as the oil phase,and coix seed polysaccharide aqueous solution was used as the aqueous phase.RH40 was used as the surfactant.PEG400 was used as cosurfactant to prepare microemulsion.TCC-MEs were made by water titration method and characterized by size,polymer dispersity index (PDI),zeta potential,encapsulation efficiency and drug loading capacity.And then,anti-tumor activity of TCC-MEs was evaluated on the xenograft Lewis tumor mouse models.The liver and kidney toxicity was evaluated by HE staining and biochemical indicators.The results showed that the optimized prescription for TCC-MEs was coix seed oil 400 mg,RH40 300 mg,PEG 400 100 mg,coix seed polysaccharide 50 mg,tripterine 10 mg;and the tripterine encapsulation efficiency was (90.72 ± 0.28)%;the drug loading capacity was (1.08 ± 0.17)%;the mean diameter of microemulsion was (43.86 ± 0.22) nm;PDI was 0.10 ± 0.01;the zeta potential was (-13.14 ± 1.35) mV.The activity of anti-lung cancer in TCC-MEs was significantly better than that of the control group,with no significant liver and kidney toxicity after treatment with TCC-MEs.It was concluded that the prepared TCC-MEs had advantages of small amount of conventional auxiliary materials,small particle size and high stability.This study showed that the combination of triptolide and coix seed to microemulsion system has synergistic and attenuated effect.
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AIM To determine the contents of five marker components and total flavonoids in Paishi Granules (a medication to remove stones in the body,containing Glechomae Herba,Akebiae Caulis,Cynanchi Paniculati Radix et Rhizoma,etc.).METHODS The content determination of various components in 50% methanol extract of Paishi Granules was accomplished by RP-HPLC.The analysis was performed on a 30 ℃ thermostatic Aglient SBC1s column (250 mm ×4.6 mm,5 μm),with the mobile phase comprising of acetonitrile-0.05% phosphoric acid flowing at 1.0 mL/min in a gradient elution manner,and the detection wavelength was set at 240 nm.The content of total flavonoids was detected by ultraviolet spectrophotometry.RESULTS Chlorogenic acid,loganin,rutin,rosmarinic acid and ammoninm glycyrrhizinate showed good linear relationships within the ranges of 18.88-604.00,18.50-592.00,20.25-648.00,18.75-600.00 and 18.81-602.00 μg/mL,whose average recoveries were 97.9%,100.7%,103.3%,96.4% and 102.4% with theRSDsof1.4%,0.4%,2.7%,1.2% and 2.3%,respectively.The contents of total flavonoids in twenty batches of samples all met pharmacopeia requirements,while those of marker components were found to be different,among which loganin displayed the most significant change,followed by rutin and ammoninm glycyrrhizinate.CONCLUSION This simple,accurate and reliable method can be used for the quality control of Paishi Granules.
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AIM To prepare the liposomes loaded with celastrol,tanshinone Ⅱ A and tanshinone Ⅱ A sodium sulfonate and to evaluate the effects of preparation technologies and entrapment materials on the encapsulation efficiencies.METHODS The liposomes for three constituents were prepared by film dispersion method and reverse phase evaporation method,respectively.50% Lecithin high potency,80% egg yolk lecithin,92% lecithin high potency and complex phospholipid (5 ∶ 1 for ratio of dipalmitoyl phosphatidylcholine to 50% lecithin high potency) were served as entrapment materials.The encapsulation efficiencies were thus calculated based on the measured ean sizes and polydispersity of the liposomes.RESULTS Celastrol and tanshinone Ⅱ A sodium sulfonate liposomes accomplished by reverse phase evaporation method got the highest encapsulation efficiency when entrapped with 80% egg yolk lecithin and 92% lecithin high potency,respectively,which were higher than those prepared by film dispersion method.And celastrol liposomes exhibited an even superior performance than tanshinone Ⅱ A sodium sulfonate liposomes.Tanshinone Ⅱ A lipisome prepared by film dispersion method and then entrapped with 50% lecithin high potency obtained its the highest value of encapsulation efficiency,which was much lower than those of another two liposomes.CONCLUSION Reverse phase evaporation method is appropriate for hydrophobic celastrol with multiple hydrogen bonds and hydrophilic sodium tanshinone Ⅱ A without hydrogen bonds to prepare their liposomes,while film dispersion method is applicable to hydrophobic tanshinone Ⅱ A without hydrogen bonds.
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Silver nanoparticles were synthesized from the extract of Fagopyri Dibotryis Rhizoma and the optimization of synthesis was studied. The absorbance of UV-visible spectroscopy was determined under the different influencing factors such as extracting time of Fagopyri Dibotryis Rhizoma powder, reation temperature of synthesis, volume of Fagopyri Dibotryis Rhizoma extract and concentration of AgNO3 to seek the optimization conditions. By means of FT-IR, TEM, DLS and XRD, the silver nanoparticles were characterized. The results showed that when the boiling time of Fagopyri Dibotryis Rhizoma powder was 5 min, resultant temperature was 25 degrees C, the volume ratio of 0.1 g x mL(-1) Fagopyri Dibotryis Rhizoma extract and 1 mmol x L(-1) AgNO3 was 1 to 10, and the reaction time was 3.5 h, the obtained silver nanoparticles had mean size about 27 nm and Zeta potential about -34.3 mV with good uniformity and dispersivity. Therefore, the green synthesis method of silver nanoparticles using extract of traditional Chinese medicine is stable and feasible.