RESUMO
Renal transporters involved in tubular excretion pathway are considered to be the key concern in drug evaluations in nephrotoxicity. However, the relationship between the alternation of renal transporters and the kinetic process of vancomycin (VCM)-induced nephrotoxicity has not been fully elucidated. The present study investigated the alteration of renal transporters expression in the kinetic process of VCM-induced nephrotoxicity in mice. C57BL/6 mice were administrated with normal saline or VCM for 7 days. Biochemical and pathological analyses were conducted to investigate the nephrotoxicity induced by VCM administration. Renal oxidative status, plasma, and kidney content of VCM were monitored. Quantitative real-time polymerase chain reaction and immunohistochemistry analyses were performed to analyze the expression of renal transporters. Finally, our data showed that the exposure of VCM (400 mg/kg) caused a slight nephrotoxicity in mice, whereas exposure of VCM (600 mg/kg) resulted in the severe nephrotoxicity in mice as evidenced by biochemical parameters and renal morphological changes. In addition, the accumulation of VCM in kidney is higher than plasma. Interestingly, VCM (600 mg/kg, body weight) resulted in the induction of Oct2-Mate1 and Oat1/3-Mrp2/Mrp4/Bcrp pathways. However, VCM (400 mg/kg, body weight) caused the induction of Oct2-Mate1/Mate2 and Oat1/3-Mrp4/Bcrp pathways. The changes of renal transporters in association with the kinetic process of VCM-induced nephrotoxicity may exert important practical implications for its optimal use in clinic.
RESUMO
Stevens-Johnson syndrome (SJS) is a disorder that causes severe damage to the skin and mucous membranes with bullous and erosive properties. Drug-induced liver injury (DILI) is closely related to non-steroidal anti-inflammatory drugs (such as ibuprofen). Liver injury caused by ibuprofen is often related to overdose, and liver injury caused by normal dose is rare, and there are individual differences in different situations. In this case, a child developed SJS and acute liver injury after treatment with ibuprofen suspension. We described the characteristics of related adverse reactions induced by ibuprofen, and analyzed the relationship between SJS caused by the drug and related drug genes. Glucocorticoids and antihistamines were used to treat dermatitis, reduced glutathione (GSH) to protect the liver and plasma exchange detoxification. Finally, the patient's dermatitis healed and the liver injury was significantly improved. Many studies have suggested that DILI may be related to human leukocyte antigen (HLA) genotyping. The detection of drug-related genes revealed that the SJS and liver damage caused by ibuprofen might have been related to the positive HLA-B*5801. This article suggests that attention should be paid to checking liver function indicators after taking ibuprofen, and genetic screening can be used to reduce the risk of gene-related adverse reactions when necessary.
RESUMO
Polyphyllin II, a major steroidal saponin isolated from Paris polyphylla, exhibits significant pharmacological activities. In this study, a rapid and sensitive liquid chromatography-tandem mass spectrometry method was established and validated for the determination of polyphyllin II in plasma. Polyphyllin II and polyphyllin VII (internal standard) were separated on a Waters Acquity™ HSS T3 column and the mass analysis was performed in a triple quadrupole mass spectrometer equipped with an electrospray ionization ion source. Results showed that the method was sensitive (lower limit of quantitation 0.5 ng/ml), precise (<15%) and linear in the range of 0.5-500 ng/ml (r > 0.99). Interestingly, the sensitivity in current study was ~10 times higher than that in the previous study. The results of the pharmacokinetic study of polyphyllin II in rats suggested that polyphyllin II was poorly absorbed into blood and reached its highest concentration at ~3.67-5.00 h with a slow elimination half-life of 8.34-13.37 h. The bioavailability was 6.1-8.2%. The results indicated that the absorption of polyphyllin II may primarily occur via passive diffusion in rats. This study provides valuable information that can be used as a reference for the pharmacokinetic investigation of other steroidal saponins.