Effect of nanoparticles of different stiffness combined with menthol/curcumol on mechanical properties of bEnd.3 cells / 中国中药杂志

This study aimed to investigate the effects of nanoparticles PLGA-NPs and mesoporous silicon nanoparticles(MSNs) of different stiffness before and after combination with menthol or curcumol on the mechanical properties of bEnd.3 cells. The particle size distributions of PLGA-NPs and MSNs were measured by Malvern particle size analyzer, and the stiffness of the two nanoparticles was quantified by atomic force microscopy(AFM). The bEnd.3 cells were cultured in vitro, and the cell surface morphology, roughness, and Young's modulus were examined to characterize the roughness and stiffness of the cell surface. The changes in the mechanical properties of the cells were observed by AFM, and the structure and expression of cytoskeletal F-actin were observed by a laser-scanning confocal microscope. The results showed that both nanoparticles had good dispersion. The particle size of PLGA-NPs was(98.77±2.04) nm, the PDI was(0.140±0.030), and Young's modulus value was(104.717±8.475) MPa. The particle size of MSNs was(97.47±3.92) nm, the PDI was(0.380±0.016), and Young's modulus value was(306.019±8.822) MPa. The stiffness of PLGA-NPs was significantly lower than that of MSNs. After bEnd.3 cells were treated by PLGA-NPs and MSNs separately, the cells showed fine pores on the cell surface, increased roughness, decreased Young's modulus, blurred and broken F-actin bands, and reduced mean gray value. Compared with PLGA-NPs alone, PLGA-NPs combined with menthol or curcumol could allow deepened and densely distributed surface pores of bEnd.3 cells, increase roughness, reduce Young's modulus, aggravate F-actin band breakage, and diminish mean gray value. Compared with MSNs alone, MSNs combined with menthol could allow deepened and densely distributed surface pores of bEnd.3 cells, increase roughness, reduce Young's modulus, aggravate F-actin band breakage, and diminish mean gray value, while no significant difference was observed in combination with curcumol. Therefore, it is inferred that the aromatic components can increase the intracellular uptake and transport of nanoparticles by altering the biomechanical properties of bEnd.3 cells.

Study on serum pharmacodynamic material basis of Gegen Qinlian Decoction in treatment of ulcerative colitis based on UHPLC-Q-Orbitrap-MS / 中国中药杂志

This study established a mouse model of ulcerative colitis and explored the serum transitional components of Gegen Qinlian Decoction by UHPLC-Q-Orbitrap-MS. Based on the exact relative molecular weight and MS/MS spectrum, 55 prototype components and 59 metabolites were identified from the model group, while 18 prototype components and 35 metabolites from the control group. The prototype components in serum were mainly flavonoids and the characteristic components of the model group were alkaloids. Glucuronidation, sulfonation, and glycosylation have been confirmed to be the main metabolic types in vivo. The results of comparative analysis of differences indicated that puerarin, baicalin, wogonoside, wogonin, chrysin, oroxylin A, berberine, berberrubine, and palmatine were the characteristic components in model state, which at the same time, were confirmed by pharmacological studies to be the serum pharmacodynamic material basis of Gegen Qinlian Decoction in the treatment of ulcerative colitis. This study has provided reference for explaining the metabolic transformation pattern and mechanism of action of Gegen Qinlian Decoction in vivo.

Preparation of ligustrazine microemulsion and comparative study on in vitro release of different size microemulsions / 中草药

Objective: To study the preparation process of ligustrazine microemulsion delivery system and evaluate its physical pharmacy properties; Microemulsions of different particle sizes were prepared in different oil phases, and the effect of particle size factors on the release behavior of the preparation was investigated. Methods: Taking the solubility of ligustrazine as index, the oil phase, emulsifier, and co-emulsifier were screened. The microemulsion formulation was optimized by pseudo-ternary phase diagram method. The encapsulation efficiency and drug loading was studied by ultrafiltration centrifugation. The particle size and potential were detected by the particle size analyzer. The release behavior of microemulsions with different particle sizes was compared by dialysis bag method. Results: The tetramethylpyrazine microemulsion was successfully prepared, and the appearance was clear and transparent. The average pH value was about 5.46. The detection method of microemulsion encapsulation rate was successfully established. When the drug loading of ligustrazine was 1.2 mg/mL, the encapsulation efficiency was (87.43 ± 0.20)%. The microemulsions of different particle sizes were prepared by changing the oil phase (ethyl oleate, oleic acid, and IPM). When the drug loading was 1.2 mg/mL, the three particle sizes were (16.80 ± 0.91), (129.50 ± 1.21), and (18.51 ± 0.24) nm, respectively. The release test showed that the release rate of all three could reach more than 90% within 4 h, and there was no significant difference. Conclusion: The uniform and stable tetramethylpyrazine microemulsion is successfully prepared; The release behavior of different tetramethylpyrazine microemulsions is not affected by the particle size factor.

In vitro transdermal permeation of main compositions in Baimai Ointment / 中国中药杂志

To establish a determination method for the contents of ammonium glycyrrhetate,nardosinone,and curcumin in transdermal receptor liquid of Baimai Ointment,and investigate the percutaneous permeability of Baimai Ointment and the effects of two kinds of penetration enhancers on percutaneous absorption of three components. The contents of ammonium glycyrrhetate,nardosinone,and curcumin in transdermal receptor liquid were determined by high pressure liquid chromatography( HPLC). The vertical modified Franz diffusion cell was used to perform a transdermal experiment in vitro with the abdominal skin of mice( treated and untreated). The transdermal receptor liquid was preferably used to investigate the transdermal absorption rule of the Baimai Ointment and the effect of the penetration enhancer. The results showed that the comprehensive solubility of PEG-ET-NS( 3 ∶3 ∶4) was best among three types of receptor liquid PG-ET-NS( 3 ∶3 ∶4),PEG-ET-NS( 3 ∶3 ∶4),ET-NS( 3 ∶7). PEG-ET-NS was used as the receptor liquid for in vitro transdermal experiments. The cumulative permeation area of ammonium glycyrrhetate,nardosinone and curcumin within 24 h was 5. 73,18. 99,0. 38 μg·cm~(-2)respectively. Taking QEFand ER as comprehensive evaluation indicators of permeation performance,the comprehensive penetration-promoting performance of ammonium glycyrrhizinate: 3% PEG 400-ethanol-normal saline ≈ 1. 19 times( 3%azone) = 1. 94 times( blank); comprehensive penetration-promoting performance of nardosinone: 3% PEG 400-ethanol-normal saline≈1. 28 times( 3% azone) = 1. 37 times( blank); the comprehensive penetration performance of curcumin: 3% PEG 400-ethanol-normal saline≈1. 77 times( 3% azone) ≈3. 42 times( blank). The comprehensive penetration enhancement properties of the two penetration enhancers were as follows: 3% PEG 400-ethanol-normal saline>3%azone>blank. The transdermal absorption curve of ammonium glycyrrhetate,nardosinone and curcumin in Baimai Ointment were consistent with the zero-order equation,indicating that the transdermal absorption process was irrelevant to the concentration of three components,and its was a diffusion process. This experiment provides reference for the study of ointment transdermal preparations.