[Puerarin Inhibits the Proliferation,Invasion,and Migration of Non-small Cell Lung Cancer Cells through Regulating miR-490/Denticleless E3 Ubiquitin Protein Ligase].

Objective To explore the mechanism of puerarin inhibiting the proliferation,invasion,and migration of non-small cell lung cancer cells. Methods A549 cells were cultured and treated with different concentrations of puerarin.The inhibition rate (IR) on cell proliferation was detected by CCK-8,and qRT-PCR was performed to detect the mRNA levels of miR-490 and denticleless E3 ubiquitin protein ligase(DTL).Double luciferase reporter assay was employed to identify the targets of miR-490 and DTL based on the establishment of NC mimic group,miR-490 mimic group,NC inhibitor group,and miR-490 inhibitor group.The cells treated by 20 µmol/L puerarin were classified into six groups:DMSO,puerarin,puerarin+NC inhibitor,puerarin+miR-490 inhibitor,puerarin+miR-490 inhibitor+Si-NC,and puerarin+miR-490 inhibitor+Si-DTL.Transwell was used to detect cell migration and invasion.Western blotting was performed to detect the protein levels of epithelial-mesenchymal transition-related markers E-cadherin,N-cadherin,and Vimentin. Results With the increase in puerarin concentration,the IR gradually elevated (F=105.375,P<0.001),miR-490 expression gradually increased (F=32.919,P<0.001),and DTL expression gradually decreased (F=116.120,P<0.001).Compared with NC mimic group,miR-490 mimic group had decreased luciferase activity (t=7.762,P=0.016),raised miR-490 mRNA level (t=13.319,P<0.001),and declined DTL mRNA level (t=7.415,P=0.002).Compared with those in NC inhibitor group,miR-490 demonstrated decreased mRNA level (t=9.523,P=0.001) and DTL presented increased mRNA level (t=11.305,P<0.001) in miR-490 inhibitor group.Western blotting showed that the protein level of DTL was higher in NC mimic group (t=7.953,P=0.001) than in miR-490 mimic group and higher in miR-490 inhibitor group than in NC inhibitor group (t=10.552,P<0.001).Compared with DMSO group,puerarin group showed up-regulated mRNA level of miR-490 (t=10.255,P=0.001) while down-regulated mRNA level of DTL (t=6.682,P=0.003).Compared with those in puerarin+NC inhibitor group,the mRNA level of miR-490 declined (t=10.995,P<0.001) while that of DTL raised (t=12.478,P<0.001) in puerarin+miR-490 inhibitor group.The mRNA level of miR-490 had no significant difference between puerarin+miR-490 inhibitor+Si-NC group and puerarin+miR-490 inhibitor+Si-DTL group (t=1.081,P=0.341),and that of DTL was lower in the latter group (t=14.321,P<0.001).The protein level of DTL was higher in puerarin+miR-490 inhibitor group than in puerarin+NC inhibitor group (t=11.423,P<0.001),and lower in puerarin+miR-490 inhibitor+Si-DTL group than in puerarin+miR-490 inhibitor+Si-NC group (t=12.080,P<0.001).Compared with DMSO group,puerarin group showed inhibited cell proliferation (F=129.27,P<0.001).The activity of cell proliferation was higher in puerarin+miR-490 inhibitor group than in puerarin+NC inhibitor group (F=75.12,P<0.001),and higher in puerarin+miR-490 inhibitor+Si-NC group than in puerarin+miR-490 inhibitor+Si-DTL group (F=52.59,P<0.001).Compared with DMSO group,puerarin group had suppressed cell migration (t=8.963,P=0.001).The cell migration ability was higher in puerarin+miR-490 inhibitor group than in puerarin+NC inhibitor group (t=12.117,P<0.001) and higher in puerarin+miR-490 inhibitor+Si-NC group than in puerarin+miR-490 inhibitor+Si-DTL group (t=12.934,P<0.001).Puerarin group showed weakened cell invasion ability compared with DMSO group (t=4.710,P=0.009).The cell invasion ability was higher in puerarin+miR-490 inhibitor group than in puerarin+NC inhibitor group (t=13.264,P<0.001) and lower in puerarin+miR-490 inhibitor+Si-DTL group than in puerarin+miR-490 inhibitor+Si-NC group (t=13.476,P<0.001).Compared with DMSO group,puerarin group showed up-regulated protein level of E-cadherin (t=7.137,P=0.002) while down-regulated protein levels of N-cadherin (t=8.828,P=0.001) and vimentin (t=6.594,P=0.003).Compared with those in puerarin+NC inhibitor group,the protein level of E-cadherin (t=12.376,P<0.001) decreased while those of N-cadherin (t=13.436,P<0.001) and vimentin (t=11.467,P<0.001) increased in puerarin+miR-490 inhibitor group.Compared with puerarin+miR-490 inhibitor+Si-NC group,puerarin+miR-490 inhibitor+Si-DTL group up-regulated the protein level of E-cadherin (t=13.081,P<0.001) while down-regulated the protein levels of N-cadherin (t=10.835,P<0.001) and vimentin (t=11.862,P<0.001). Conclusion Puerarin could inhibit the proliferation,invasion,and migration of non-small cell lung cancer cells by up-regulating miR-490 and down-regulating DTL.

Optimization, and in vitro and in vivo evaluation of etomidate intravenous lipid emulsion.

The aim of this investigation was to develop an etomidate intravenous lipid emulsion (ETM-ILE) and evaluate its properties in vitro and in vivo. Etomidate (ETM) is a hydrophobic drug, and organic solvents must be added to an etomidate injectable solution (ETM-SOL) to aid dissolution, that causes various adverse reactions on injection. Lipid emulsions are a novel drug formulation that can improve drug loading and reduce adverse reactions. ETM-ILE was prepared using high-pressure homogenization. Univariate experiments were performed to select key conditions and variables. The proportion of oil, egg lecithin, and poloxamer 188 (F68) served as variables for the optimization of the ETM-ILE formulation by central composite design response surface methodology. The optimized formulation had the following characteristics: particle size, 168.0 ± 0.3 nm; polydispersity index, 0.108 ± 0.028; zeta potential, -36.4 ± 0.2 mV; drug loading, 2.00 ± 0.01 mg/mL; encapsulation efficiency, 97.65% ± 0.16%; osmotic pressure, 292 ± 2 mOsmol/kg and pH value, 7.63 ± 0.07. Transmission electron microscopy images showed that the particles were spherical or spheroidal, with a diameter of approximately 200 nm. The stability study suggested that ETM-ILE could store at 4 ± 2 °C or 25 ± 2 °C for 12 months. Safety tests showed that ETM-ILE did not cause hemolysis or serious vascular irritation. The results of the pharmacokinetic study found that ETM-ILE was bioequivalent to ETM-SOL. However, a higher concentration of ETM was attained in the liver, spleen, and lungs after administration of ETM-ILE than after administration of ETM-SOL. This study found that ETM-ILE had great potential for clinical applications.

Design and in vivo evaluation of an indapamide transdermal patch.

The aim of the present study was to develop and evaluate a novel drug-in-adhesive transdermal patch system for indapamide. Initial in vitro experiments were conducted to optimize formulation parameters prior to transdermal delivery in rats. The effects of the type of adhesive and the content of permeation enhancers on indapamide transport across excised rat skin were evaluated. The results indicated that DURO-TAK adhesive 87-2852 is a suitable and compatible polymer for the development of transdermal drug delivery systems for indapamide. The final formulation contained 4% N-dodecylazepan-2-one, 6% l-menthol and 3% isopropyl myristate. For in vivo studies patch systems were administered transdermally to rats while orally administered indapamide in suspension was used as a control. The PK parameters, such as the maximum blood concentration (C(max)), time to reach the peak blood concentration (T(max)), mean residence time (MRT), area under the curve (AUC(0-t)) and terminal elimination half-life (T(1/2)) were significantly (p<0.05) different following transdermal administration compared with oral administration. In contrast to oral delivery, a sustained activity was observed over a period of 48h after transdermal administration. This sustained activity was due to the controlled release of drug into the systemic circulation following transdermal administration.