Xyloketal B, a marine compound, acts on a network of molecular proteins and regulates the&amp;nbsp;activity and expression of rat cytochrome P450 3a: a bioinformatic and animal study

Su, Juanjuan; Cui, Chang; Xiang, Qi; Zhou, Zhi Wei; Luo, Rong; Yang, Lun; He, Zijiang J.; Yang, Hang; Li, Jianan; Yu, Bin; Xu, Jing; Zhang, Minjing; Zhang, Qihao; Su, Zhijian; Huang, Yadong; Pang, Jiyan; Zhou, Shu Feng

doi:10.2147/dddt.s73476

Cited by 10 publications

(2 citation statements)

References 52 publications

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“…Saxagliptin, an antidiabetic, is primarily metabolized by CYP3A4/5 and might be co-administered with the antihypertensive nicardipine in patients with cardiovascular chronic conditions. Human CYP3A4 shares about 70% homology with rat CYP3A2 [ 16 ]. Thus, assuming saxagliptin is primarily metabolized by CYP3A2 in rats, we constructed and validated a rat PBPK model using in vivo experiments after administering saxagliptin and nicardipine concurrently in rats.…”

Section: Discussionmentioning

confidence: 99%

“…Our research involved validating a PBPK model using experimental data to predict drug interactions in rats. This model posits that saxagliptin’s metabolism in rats is primarily mediated by CYP3A2, an enzyme homologous to human CYP3A4 [ 16 ]. Subsequently, this model was extrapolated to a human PBPK model for the prediction of clinical drug interactions.…”

Section: Introductionmentioning

confidence: 99%

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Physiologically Based Pharmacokinetic (PBPK) Modeling to Predict CYP3A-Mediated Drug Interaction between Saxagliptin and Nicardipine: Bridging Rat-to-Human Extrapolation

Lee,

Yoon,

Maeng

et al. 2024

Pharmaceutics

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The aim of this study was to predict the cytochrome P450 3A (CYP3A)-mediated drug–drug interactions (DDIs) between saxagliptin and nicardipine using a physiologically based pharmacokinetic (PBPK) model. Initially, in silico and in vitro parameters were gathered from experiments or the literature to construct PBPK models for each drug in rats. These models were integrated to predict the DDIs between saxagliptin, metabolized via CYP3A2, and nicardipine, exhibiting CYP3A inhibitory activity. The rat DDI PBPK model was completed by optimizing parameters using experimental rat plasma concentrations after co-administration of both drugs. Following co-administration in Sprague–Dawley rats, saxagliptin plasma concentration significantly increased, resulting in a 2.60-fold rise in AUC, accurately predicted by the rat PBPK model. Subsequently, the workflow of the rat PBPK model was applied to humans, creating a model capable of predicting DDIs between the two drugs in humans. Simulation from the human PBPK model indicated that nicardipine co-administration in humans resulted in a nearly unchanged AUC of saxagliptin, with an approximate 1.05-fold change, indicating no clinically significant changes and revealing a lack of direct translation of animal interaction results to humans. The animal-to-human PBPK model extrapolation used in this study could enhance the reliability of predicting drug interactions in clinical settings where DDI studies are challenging.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Physiologically Based Pharmacokinetic (PBPK) Modeling to Predict CYP3A-Mediated Drug Interaction between Saxagliptin and Nicardipine: Bridging Rat-to-Human Extrapolation

Lee,

Yoon,

Maeng

et al. 2024

Pharmaceutics

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Identification of sirtuin 5 inhibitors by ultrafast microchip electrophoresis using nanoliter volume samples

et al. 2015

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Sirtuin 5 (SIRT5) is a member of the sirtuin family of protein deacylases that catalyzes removal of post-translational modifications, such as succinyl and malonyl moieties, on lysine residues. In light of SIRT5’s roles in regulating metabolism, and its reported oncogenic functions, SIRT5 modulators would be valuable tools for basic biological research and perhaps clinically. Several fluorescence assays for sirtuin modulators have been developed; however, the use of fluorogenic substrates has the potential to cause false positive results due to interactions of engineered substrates with enzyme or test compounds. Therefore, development of high-throughput screening (HTS) assays based on other methods is valuable. In this study, we report the development of a SIRT5 assay using microchip electrophoresis (MCE) for identification of SIRT5 modulators. A novel SIRT5 substrate based on succinate dehydrogenase (SDH) was developed to allow rapid and efficient separation of substrate and product peptide. To achieve high throughput, samples were injected onto the microchip using a droplet-based scheme. By coupling this approach to existing HTS sample preparation workflows, 1408 samples were analyzed at 0.5 Hz in 46 min. Using a 250 ms separation time, 8 MCE injections could be made from each sample generating >11,000 electropherograms during analysis. Of the 1280 chemicals tested, eight were identified as inhibiting SIRT5 activity by at least 70 percent and verified by dose-response analysis.

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Theophylline as a quorum sensing and biofilm inhibitor in Pseudomonas aeruginosa and Chromobacterium violaceum

Mohan,

Rajan,

Kumar

et al. 2024

Int Microbiol

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Xyloketal B, a marine compound, acts on a network of molecular proteins and regulates the activity and expression of rat cytochrome P450 3a: a bioinformatic and animal study

Cited by 10 publications

References 52 publications

Physiologically Based Pharmacokinetic (PBPK) Modeling to Predict CYP3A-Mediated Drug Interaction between Saxagliptin and Nicardipine: Bridging Rat-to-Human Extrapolation

Physiologically Based Pharmacokinetic (PBPK) Modeling to Predict CYP3A-Mediated Drug Interaction between Saxagliptin and Nicardipine: Bridging Rat-to-Human Extrapolation

Identification of sirtuin 5 inhibitors by ultrafast microchip electrophoresis using nanoliter volume samples

Theophylline as a quorum sensing and biofilm inhibitor in Pseudomonas aeruginosa and Chromobacterium violaceum

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