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Wang QL, Zhang PX, Shen R, Xu M, Han L, Shi X, Zhou ZR, Yang JY, Liu JQ. Determination of arbutin in vitro and in vivo by LC-MS/MS: Pre-clinical evaluation of natural product arbutin for its early medicinal properties. JOURNAL OF ETHNOPHARMACOLOGY 2024; 330:118232. [PMID: 38670407 DOI: 10.1016/j.jep.2024.118232] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 01/18/2024] [Revised: 04/11/2024] [Accepted: 04/18/2024] [Indexed: 04/28/2024]
Abstract
ETHNOPHARMACOLOGICAL RELEVANCE Arbutin is a naturally occurring glucoside extracted from plants, known for its antioxidant and tyrosinase inhibiting properties. It is widely used in cosmetic and pharmaceutical industries. With in-depth study of arbutin, its application in disease treatment is expanding, presenting promising development prospects. However, reports on the metabolic stability, plasma protein binding rate, and pharmacokinetic properties of arbutin are scarce. AIM OF THE STUDY The aim of this study is to enrich the data of metabolic stability and pharmacokinetics of arbutin through the early pre-clinical evaluation, thereby providing some experimental basis for advancing arbutin into clinical research. MATERIALS AND METHODS We developed an efficient and rapid liquid chromatography-tandem mass spectrometry (LC-MS/MS) assay for determining arbutin in plasma. We investigated the metabolic and pharmacokinetic properties of arbutin through in vitro metabolism assay, cytochrome enzymes P450 (CYP450) inhibition studies, plasma protein binding rate analysis, Caco-2 cell permeability tests, and rat pharmacokinetics to understand its in vivo performance. RESULTS In vitro studies show that arbutin is stable, albeit with some species differences. It exhibits low plasma protein binding (35.35 ± 11.03% ∼ 40.25 ± 2.47%), low lipophilicity, low permeability, short half-life (0.42 ± 0.30 h) and high oral bioavailability (65 ± 11.6%). Arbutin is primarily found in the liver and kidneys and is eliminated in the urine. It does not significantly inhibit CYP450 up to 10 μM, suggesting a low potential for drug interactions. Futhermore, preliminary toxicological experiments indicate arbutin's safety, supporting its potential as a therapeutic agent. CONCLUSION This study provides a comprehensive analysis the drug metabolism and pharmacokinetics (DMPK) of arbutin, enriching our understanding of its metabolism stability and pharmacokinetics properties, It establishes a foundation for further structural optimization, pharmacological studies, and the clinical development of arbutin.
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Affiliation(s)
- Qiao-Lai Wang
- School of Medicine, Huaqiao University, 269 Chenghua North Road, Fengze District, Quanzhou, 362021, China.
| | - Pei-Xi Zhang
- School of Medicine, Huaqiao University, 269 Chenghua North Road, Fengze District, Quanzhou, 362021, China
| | - Rui Shen
- School of Medicine, Huaqiao University, 269 Chenghua North Road, Fengze District, Quanzhou, 362021, China
| | - Meng Xu
- School of Medicine, Huaqiao University, 269 Chenghua North Road, Fengze District, Quanzhou, 362021, China
| | - Liang Han
- Sheng Xia Innovation Pharmaceutical Technology Co., Ltd., Xiamen, 361000, China
| | - Xuan Shi
- Sheng Xia Innovation Pharmaceutical Technology Co., Ltd., Xiamen, 361000, China
| | - Zi-Rui Zhou
- School of Medicine, Huaqiao University, 269 Chenghua North Road, Fengze District, Quanzhou, 362021, China
| | - Jing-Yi Yang
- School of Medicine, Huaqiao University, 269 Chenghua North Road, Fengze District, Quanzhou, 362021, China
| | - Jie-Qing Liu
- School of Medicine, Huaqiao University, 269 Chenghua North Road, Fengze District, Quanzhou, 362021, China; Engineering Research Centre of Molecular Medicine of Ministry of Education, Key Laboratory of Fujian Molecular Medicine, Key Laboratory of Precision Medicine and Molecular Diagnosis of Fujian Universities, Key Laboratory of Xiamen Marine and Gene Drugs, Huaqiao University, Quanzhou, 362021, China.
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Cho S, Jo H, Hwang YJ, Kim C, Jo YH, Yun JW. Potential impact of underlying diseases influencing ADME in nonclinical safety assessment. Food Chem Toxicol 2024; 188:114636. [PMID: 38582343 DOI: 10.1016/j.fct.2024.114636] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/20/2024] [Revised: 03/19/2024] [Accepted: 03/31/2024] [Indexed: 04/08/2024]
Abstract
Nonclinical studies involve in vitro, in silico, and in vivo experiments to assess the toxicokinetics, toxicology, and safety pharmacology of drugs according to regulatory requirements by a national or international authority. In this review, we summarize the potential effects of various underlying diseases governing the absorption, distribution, metabolism, and excretion (ADME) of drugs to consider the use of animal models of diseases in nonclinical trials. Obesity models showed alterations in hepatic metabolizing enzymes, transporters, and renal pathophysiology, which increase the risk of drug-induced toxicity. Diabetes models displayed changes in hepatic metabolizing enzymes, transporters, and glomerular filtration rates (GFR), leading to variability in drug responses and susceptibility to toxicity. Animal models of advanced age exhibited impairment of drug metabolism and kidney function, thereby reducing the drug-metabolizing capacity and clearance. Along with changes in hepatic metabolic enzymes, animal models of metabolic syndrome-related hypertension showed renal dysfunction, resulting in a reduced GFR and urinary excretion of drugs. Taken together, underlying diseases can induce dysfunction of organs involved in the ADME of drugs, ultimately affecting toxicity. Therefore, the use of animal models of representative underlying diseases in nonclinical toxicity studies can be considered to improve the predictability of drug side effects before clinical trials.
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Affiliation(s)
- Sumin Cho
- Laboratory of Veterinary Toxicology, College of Veterinary Medicine and Research Institute for Veterinary Science, Seoul National University, Seoul, 08826, Republic of Korea
| | - Harin Jo
- Laboratory of Veterinary Toxicology, College of Veterinary Medicine and Research Institute for Veterinary Science, Seoul National University, Seoul, 08826, Republic of Korea
| | - Yeon Jeong Hwang
- Laboratory of Veterinary Toxicology, College of Veterinary Medicine and Research Institute for Veterinary Science, Seoul National University, Seoul, 08826, Republic of Korea
| | - Changuk Kim
- Department of Biotechnology, The Catholic University of Korea, Bucheon, 14662, Republic of Korea
| | - Yong Hyeon Jo
- Laboratory of Veterinary Toxicology, College of Veterinary Medicine and Research Institute for Veterinary Science, Seoul National University, Seoul, 08826, Republic of Korea
| | - Jun-Won Yun
- Laboratory of Veterinary Toxicology, College of Veterinary Medicine and Research Institute for Veterinary Science, Seoul National University, Seoul, 08826, Republic of Korea.
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Li Y, Jin X, Wang F, Zhou H, Gu Y, Yang Y, Qian Z, Li W. Multi-channel Small Animal Drug Metabolism Real-Time Monitoring Fluorescence System. Mol Imaging Biol 2024; 26:138-147. [PMID: 38114709 DOI: 10.1007/s11307-023-01883-w] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/26/2023] [Revised: 11/29/2023] [Accepted: 11/30/2023] [Indexed: 12/21/2023]
Abstract
PURPOSE The data acquisition of drug metabolism analysis requires a lot of time and animal resources. However, there are often many deviations in the results of pharmacokinetic analysis. Conventional methods cannot measure the blood drug concentration data in multiple tissues at the same time, and the data is obtained by in vitro measurement, which produces time errors, in vitro data errors, and individual differences between animals. In the analysis of pharmacokinetic parameters, it will seriously affect the pass rate of clinical trials of R&D drugs and the accuracy of the dosing schedule. To the best of our knowledge, we have not found the study of in vivo blood drug concentration using multi-channel equipment. Therefore, the purpose of this paper is to build a set of multi-organ monitoring and analysis instruments for synchronously monitoring the metabolism of drugs in various tissues of small animals, so as to obtain real in vivo data of blood drug concentration in real time. PROCEDURES Using the fluorescence properties and laser-induced fluorescence principle of drugs, we designed six channels to monitor the changes of fluorescence-labeled drugs in their main metabolic organs, a multi-channel calibration method was proposed to improve the accuracy of the time-division multiplexing, the real-time collection of drug concentration in vivo is realized, and the drug metabolism curve in vivo can be observed. RESULTS The instrument satisfies the collection of small doses of drugs such as microgram; the detection sensitivity can reach 10 ng/ml, and can monitor and collect the drug metabolism of multiple small animal tissues at the same time, which greatly reduces the use of animals, reduces the differences between individuals, and reduces consumption cost and improve the detection efficiency of parameters, and obtain data information that is closer to the real biology. CONCLUSION The real-time continuous monitoring and data collection of the drug metabolism in the plasma of living small animals and the important organs such as kidney, liver, and spleen were realized. The research and development of new drugs and clinical research have higher practical value.
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Affiliation(s)
- Yiran Li
- Department of Biomedical Engineering, College of Automation Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, 211106, China
| | - Xiaofei Jin
- Department of Biomedical Engineering, College of Automation Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, 211106, China
| | - Feilong Wang
- Department of Biomedical Engineering, College of Automation Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, 211106, China
| | - Huijing Zhou
- Department of Biomedical Engineering, College of Automation Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, 211106, China
| | - Yueqing Gu
- Engineering College, China Pharmaceutical University, Nanjing, 211198, China
| | - Yamin Yang
- Department of Biomedical Engineering, College of Automation Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, 211106, China
| | - Zhiyu Qian
- Department of Biomedical Engineering, College of Automation Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, 211106, China.
| | - Weitao Li
- Department of Biomedical Engineering, College of Automation Engineering, Nanjing University of Aeronautics and Astronautics, Nanjing, 211106, China.
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Miri AH, Kamankesh M, Llopis-Lorente A, Liu C, Wacker MG, Haririan I, Asadzadeh Aghdaei H, Hamblin MR, Yadegar A, Rad-Malekshahi M, Zali MR. The Potential Use of Antibiotics Against Helicobacter pylori Infection: Biopharmaceutical Implications. Front Pharmacol 2022; 13:917184. [PMID: 35833028 PMCID: PMC9271669 DOI: 10.3389/fphar.2022.917184] [Citation(s) in RCA: 4] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/10/2022] [Accepted: 05/31/2022] [Indexed: 11/13/2022] Open
Abstract
Helicobacter pylori (H. pylori) is a notorious, recalcitrant and silent germ, which can cause a variety of debilitating stomach diseases, including gastric and duodenal ulcers and gastric cancer. This microbe predominantly colonizes the mucosal layer of the human stomach and survives in the inhospitable gastric microenvironment, by adapting to this hostile milieu. In this review, we first discuss H. pylori colonization and invasion. Thereafter, we provide a survey of current curative options based on polypharmacy, looking at pharmacokinetics, pharmacodynamics and pharmaceutical microbiology concepts, in the battle against H. pylori infection.
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Affiliation(s)
- Amir Hossein Miri
- Department of Pharmaceutical Biomaterials and Medical Biomaterials Research Center, Faculty of Pharmacy, Tehran University of Medical Sciences, Tehran, Iran
- Foodborne and Waterborne Diseases Research Center, Research Institute for Gastroenterology and Liver Diseases, Shahid Beheshti University of Medical Sciences, Tehran, Iran
| | - Mojtaba Kamankesh
- Polymer Chemistry Department, School of Science, University of Tehran, Tehran, Iran
| | - Antoni Llopis-Lorente
- Institute for Complex Molecular Systems, Eindhoven University of Technology, Eindhoven, Netherlands
| | - Chenguang Liu
- College of Marine Life Science, Ocean University of China, Qingdao, China
| | - Matthias G. Wacker
- Department of Pharmacy, National University of Singapore, Singapore, Singapore
| | - Ismaeil Haririan
- Department of Pharmaceutical Biomaterials and Medical Biomaterials Research Center, Faculty of Pharmacy, Tehran University of Medical Sciences, Tehran, Iran
| | - Hamid Asadzadeh Aghdaei
- Basic and Molecular Epidemiology of Gastrointestinal Disorders Research Center, Research Institute for Gastroenterology and Liver Diseases, Shahid Beheshti University of Medical Sciences, Tehran, Iran
| | - Michael R. Hamblin
- Laser Research Centre, Faculty of Health Science, University of Johannesburg, Doornfontein, South Africa
- *Correspondence: Michael R. Hamblin, ; Abbas Yadegar, ; Mazda Rad-Malekshahi, ; Mohammad Reza Zali,
| | - Abbas Yadegar
- Foodborne and Waterborne Diseases Research Center, Research Institute for Gastroenterology and Liver Diseases, Shahid Beheshti University of Medical Sciences, Tehran, Iran
- *Correspondence: Michael R. Hamblin, ; Abbas Yadegar, ; Mazda Rad-Malekshahi, ; Mohammad Reza Zali,
| | - Mazda Rad-Malekshahi
- Department of Pharmaceutical Biomaterials and Medical Biomaterials Research Center, Faculty of Pharmacy, Tehran University of Medical Sciences, Tehran, Iran
- *Correspondence: Michael R. Hamblin, ; Abbas Yadegar, ; Mazda Rad-Malekshahi, ; Mohammad Reza Zali,
| | - Mohammad Reza Zali
- Gastroenterology and Liver Diseases Research Center, Research Institute for Gastroenterology and Liver Diseases, Shahid Beheshti University of Medical Sciences, Tehran, Iran
- *Correspondence: Michael R. Hamblin, ; Abbas Yadegar, ; Mazda Rad-Malekshahi, ; Mohammad Reza Zali,
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Li J, Zhou M, Lai X, Wang Y, Zou Y, Li K, Li W, Zheng J. Toxicokinetic and bioavailability studies on retrorsine in mice, and ketoconazole-induced alteration in toxicokinetic properties. Biomed Chromatogr 2021; 36:e5270. [PMID: 34727371 DOI: 10.1002/bmc.5270] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 07/27/2021] [Revised: 10/22/2021] [Accepted: 10/23/2021] [Indexed: 11/11/2022]
Abstract
Retrorsine (RTS) is a toxic retronecine-type pyrrolizidine alkaloid, which is widely distributed. The purpose of this study was to develop a high-performance liquid chromatography-tandem mass spectrometric (LC-MS/MS) method for serum RTS determination in mice. Serum samples were deproteinated by acetonitrile, separated on a C18 -PFP column and delivered at 0.8 ml/min with an eluting system composed of water containing 0.1% (v/v) formic acid and acetonitrile containing 0.1% (v/v) formic acid as mobile phases. RTS and the internal standard S-hexylglutathione (H-GSH) were quantitatively monitored with precursor-to-product transitions of m/z 352.1 → 120.1 and m/z 392.2 → 246.3, respectively. The method showed excellent linearity over the concentration range 0.05-50 μg/ml, with correlation coefficient r2 = 0.9992. The extraction recovery was >86.34%, and the matrix effect was not significant. Inter- and intra-day precisions (RSD) were <4.99%. The validated LC-MS/MS method was successfully applied to study the toxicokinetic profiles of serum RTS in mice after intravenous, oral administration and co-treated with ketoconazole, which showed that RTS displayed a long half-life (~11.05 h) and good bioavailability (81.80%). Co-administration of ketoconazole (KTZ) increased the peak serum concentration and area under the concentration-time curve and decreased the clearance and mean residence time. Summing up, a new standardized method was established for quantitative determination of RTS in sera.
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Affiliation(s)
- Jing Li
- School of Basic Medical Sciences, School of Pharmacy and State Key Laboratory of Functions and Applications of Medicinal Plants, Guizhou Medical University, Guizhou, China.,National Engineering Research Center of Miao's Medicines and Engineering Research Center for the Development and Application of Ethnic Medicine and TCM, Ministry of Education and Guizhou Provincial Key Laboratory of Pharmaceutics, Guiyang, Guizhou, China
| | - Mengyue Zhou
- School of Basic Medical Sciences, School of Pharmacy and State Key Laboratory of Functions and Applications of Medicinal Plants, Guizhou Medical University, Guizhou, China.,National Engineering Research Center of Miao's Medicines and Engineering Research Center for the Development and Application of Ethnic Medicine and TCM, Ministry of Education and Guizhou Provincial Key Laboratory of Pharmaceutics, Guiyang, Guizhou, China
| | - Xiaoqiong Lai
- School of Basic Medical Sciences, School of Pharmacy and State Key Laboratory of Functions and Applications of Medicinal Plants, Guizhou Medical University, Guizhou, China.,National Engineering Research Center of Miao's Medicines and Engineering Research Center for the Development and Application of Ethnic Medicine and TCM, Ministry of Education and Guizhou Provincial Key Laboratory of Pharmaceutics, Guiyang, Guizhou, China
| | - Yang Wang
- School of Basic Medical Sciences, School of Pharmacy and State Key Laboratory of Functions and Applications of Medicinal Plants, Guizhou Medical University, Guizhou, China.,National Engineering Research Center of Miao's Medicines and Engineering Research Center for the Development and Application of Ethnic Medicine and TCM, Ministry of Education and Guizhou Provincial Key Laboratory of Pharmaceutics, Guiyang, Guizhou, China
| | - Ying Zou
- School of Basic Medical Sciences, School of Pharmacy and State Key Laboratory of Functions and Applications of Medicinal Plants, Guizhou Medical University, Guizhou, China.,National Engineering Research Center of Miao's Medicines and Engineering Research Center for the Development and Application of Ethnic Medicine and TCM, Ministry of Education and Guizhou Provincial Key Laboratory of Pharmaceutics, Guiyang, Guizhou, China
| | - Kunna Li
- School of Basic Medical Sciences, School of Pharmacy and State Key Laboratory of Functions and Applications of Medicinal Plants, Guizhou Medical University, Guizhou, China.,National Engineering Research Center of Miao's Medicines and Engineering Research Center for the Development and Application of Ethnic Medicine and TCM, Ministry of Education and Guizhou Provincial Key Laboratory of Pharmaceutics, Guiyang, Guizhou, China
| | - Weiwei Li
- National Engineering Research Center of Miao's Medicines and Engineering Research Center for the Development and Application of Ethnic Medicine and TCM, Ministry of Education and Guizhou Provincial Key Laboratory of Pharmaceutics, Guiyang, Guizhou, China
| | - Jiang Zheng
- School of Basic Medical Sciences, School of Pharmacy and State Key Laboratory of Functions and Applications of Medicinal Plants, Guizhou Medical University, Guizhou, China.,National Engineering Research Center of Miao's Medicines and Engineering Research Center for the Development and Application of Ethnic Medicine and TCM, Ministry of Education and Guizhou Provincial Key Laboratory of Pharmaceutics, Guiyang, Guizhou, China.,Wuya College of Innovation, Shenyang Pharmaceutical University, Shenyang, Liaoning, P. R. China
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