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Inhaled antibiotics such as colistin and ciprofloxacin are increasingly used to treat bacterial lung in-fections in cystic fibrosis patients.In this study,we established and validated a new HPLC-MS/MS method that could simultaneously detect drug concentrations of ciprofloxacin,colistin and ivacaftor in rat plasma,human epithelial cell lysate,cell culture medium,and drug transport media.An aliquot of 200 μL drug-containing rat plasma or cell culture medium was treated with 600 μL of extraction solution(acetonitrile containing 0.1% formic acid and 0.2% trifluoroacetic acid (TFA)).The addition of 0.2% TFA helped to break the drug-protein bonds.Moreover,the addition of 0.1% formic acid to the transport medium and cell lysate samples could significantly improve the response and reproducibility.After vortexing and centrifuging,the sample components were analyzed by HPLC-MS/MS.The multiple re-action monitoring mode was used to detect the following transitions:585.5-101.1 (colistin A),578.5-101.1 (colistin B),393.2-337.2 (ivacaftor),332.2-314.2 (ciprofloxacin),602.3-101.1 (polymyxin 81 as internal standard (IS)) and 595.4-101.1 (polymyxin B2 as IS).The running time of a single sample was only 6 min,making this a time-efficient method.Linear correlations were found for colistin A at 0.029-5.82 μg/mL.colistin B at 0.016-3.14 μg/mL.ivacaftor at 0.05-10.0 μg/mL,and ciprofloxacin at 0.043-8.58 μg/mL.Accuracy,precision,and stability of the method were within the acceptable range.This method would be highly useful for research on cytotoxicity,animal pharmacokinetics,and in vitro drug delivery.
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Objective To investigate the effects of 5-hydroxy-1-methylhydantoin (HMH) on kidney injury induced by paraquat (PQ). Methods Fifteen SPF healthy Kunming mice were randomly divided into normal saline (NS) control group, PQ poisoning model group and HMH intervention group, with 5 mice in each group. PQ poisoning model was challenged by one-time gavage of 30 mg/kg PQ solution. The NS group received the same amount of NS by gavage. The HMH group was given 100 mg/kg of HMH immediately after the model was made and continued to be gavaged. Mice in each group were sacrificed 1 day after HMH gavage and heart blood and renal tissue were harvested for examination. The morphological changes of renal tissue were observed under light microscope by hematoxylin-eosin (HE) staining. The content of malondialdehyde (MDA) and the activity of superoxide dismutase (SOD) in renal tissue were detected according to the instructions of the kit. The expression of heme oxygenase-1 (HO-1) and interleukin-1β (IL-1β) in renal tissues were detected by Western Blot. The serum metabolites were detected by gas chromatography time-of-flight mass spectrometry (GC-TOF-MS), the overall distribution of each sample was observed by principal component analysis (PCA), the accuracy of the model was evaluated by multidimensional analysis orthogonal partial least squares-discriminant analysis (OPLS-DA), and the difference metabolites were screened by variable importance in the projection (VIP) value > 1. Results Light microscopic observation showed that: glomerular structure in NS group was clear, there was no hyperemia and inflammatory cell infiltration in renal interstitium and blood vessels. In PQ group, some glomeruli atrophy and necrosis, capillary congestion in glomeruli, infiltration of inflammatory cells around glomeruli, swelling of renal tubular epithelial cells, slight stenosis of lumen, and occasional necrosis and exfoliation of epithelial cells occurred. The degree of kidney injury in HMH group was significantly less than that in PQ group. Compared with the NS group, the content of MDA in the PQ group was significantly increased (nmol/g: 6.70±0.84 vs. 2.70±0.43, P < 0.01) and the activity of SOD was significantly decreased (kU/L: 33.30±4.66 vs. 50.20±3.23, P < 0.05), the protein expression of HO-1 and IL-1β were significantly increased (HO-1/β-actin: 1.11±0.12 vs. 0.61±0.13, IL-1β/β-actin: 0.93±0.13 vs. 0.32±0.06, both P < 0.05). Compared with the PQ group, the content of MDA in the HMH group was significantly decreased (nmol/g: 5.10±0.93 vs. 6.70±0.84, P < 0.05) and the activity of SOD was significantly increased (kU/L:61.00±9.02 vs. 33.30±4.66, P < 0.05), the protein expression of HO-1 was significantly decreased (HO-1/β-actin:0.77±0.07 vs. 1.11±0.12, P < 0.05), however, there was no significant difference in the protein expression of IL-1β (IL-1β/β-actin: 0.87±0.13 vs. 0.93±0.13, P > 0.05). Metabolite detection results showed that: compared with NS group, the levels of creatinine, glycine, succinic acid, fumaric acid and citric acid were significantly increased in the PQ group (VIP value was 1.50, 1.58, 1.64, 1.74 and 1.95 respectively, all P < 0.05), while the levels of palmitic acid, α-tocopherol and 6-phosphogluconic acid were significantly decreased (VIP value was 1.10, 1.55 and 1.56 respectively, all P < 0.05). Compared with the PQ group, the levels of creatinine and citric acid were significantly decreased in the HMH group (VIP value was 1.50 and 1.86, both P < 0.05), while trans-4-hydroxy-proline, D-glyceric acid, 2, 6-fructose phosphate, 6-phosphate gluconic acid and aminomalonic acid were significantly increased (VIP value was 1.36, 1.55, 1.63, 1.68 and 1.76 respectively, all P < 0.05). Conclusions HMH protects kidney injury caused by PQ poisoning by correcting tricarboxylic acids cycle disturbance, lipid peroxidation and energy metabolism disturbance, and its mechanism is related to the regulation of HO-1 protein expression through Nrf2 pathway.
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Objective To establish a HPLC-MS method for determination of aconitum alkaloids in biological samples. Methods The aconitum alkaloids were extracted from the whole blood by using acetonitrile-methanol (5:1 v/v) and then analyzed using HPLC-MS in multiple reaction monitoring (MRM) mode with positive ionization. The analytical column was Agilent Zorbax SB C18 (2.1mm×50mm, 1.8μm)and the mobile phase were water containing 0. 1 % formic acid : acetonitrile (60 : 40 v/v) in isocratic elution. Results The retention time of detection of the aconitine, hypaconitine and mesaconitine were 0.73 min, 0.77 min and 0.63 min, and the precursor product ion combinations of m/z 646.4 → 586.4, 616.1 → 556.5 and 632.4 → 572.1 were used for quantitative analysis, respectively. Calibration curve was linear within the range of 0.1-250 ng/mL with the LOD was 0.1ng/mL, and the coefficient of variation (CV) less than 5.42 % (n=6). The extraction recoveries of aconitine in blood were more than 90 %.Conclusion The results demonstrated that the present method was reliable and robust for natural drugs.