Andrey A Poloznikov, Sergey V Nikulin, Arpenik A Zakhariants, Anna Y Khristichenko, Dmitry M Hushpulian, Ildar N Gazizov, Vladimir I Tishkov, Irina G Gazaryan
{"title":"HIF脯氨酸羟化酶的“支尾”氧喹啉抑制剂:使用肝脏芯片对毒性和代谢的早期评估。","authors":"Andrey A Poloznikov, Sergey V Nikulin, Arpenik A Zakhariants, Anna Y Khristichenko, Dmitry M Hushpulian, Ildar N Gazizov, Vladimir I Tishkov, Irina G Gazaryan","doi":"10.2174/1872312813666181129100950","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>\"Branched tail\" oxyquinolines, and adaptaquin in particular, are potent HIF prolyl hydroxylase inhibitors showing promising results in in vivo hemorrhagic stroke models. The further improvement of the potency resulted in identification of a number of adaptaquin analogs. Early evaluation of toxicity and metabolism is desired right at the step of lead selection.</p><p><strong>Objective: </strong>The aim of the study is to characterize the toxicity and metabolism of adaptaquin and its new improved analogs.</p><p><strong>Method: </strong>Liver-on-a-chip technology with differentiated HepaRG cells followed by LC-MS detection of the studied compounds and metabolites of the P450 substrate-inhibitor panel for CYP2B6, CYP2C9, CYP2C19, and CYP3A4.</p><p><strong>Results: </strong>The optimized adaptaquin analogs show no toxicity up to a 100-fold increased range over EC50. The drugs are metabolized by CYP3A4 and CYP2B6 as shown with the use of the cytochrome P450 substrate-inhibitor panel designed and optimized for preclinical evaluation of drugs' in vitro biotransformation on a 3D human histotypical cell model using \"liver-on-a-chip\" technology. Activation of CYP2B6 with the drugs tested has been observed. A scheme for adaptaquin oxidative conversion is proposed.</p><p><strong>Conclusion: </strong>The optimized adaptaquin analogs are suitable for further preclinical trials. Activation of CYP2B6 with adaptaquin and its variants points to a potential increase in Tylenol toxicity if administered together.</p>","PeriodicalId":11339,"journal":{"name":"Drug metabolism letters","volume":"13 1","pages":"45-52"},"PeriodicalIF":0.0000,"publicationDate":"2019-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.2174/1872312813666181129100950","citationCount":"6","resultStr":"{\"title\":\"\\\"Branched Tail\\\" Oxyquinoline Inhibitors of HIF Prolyl Hydroxylase: Early Evaluation of Toxicity and Metabolism Using Liver-on-a-chip.\",\"authors\":\"Andrey A Poloznikov, Sergey V Nikulin, Arpenik A Zakhariants, Anna Y Khristichenko, Dmitry M Hushpulian, Ildar N Gazizov, Vladimir I Tishkov, Irina G Gazaryan\",\"doi\":\"10.2174/1872312813666181129100950\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>\\\"Branched tail\\\" oxyquinolines, and adaptaquin in particular, are potent HIF prolyl hydroxylase inhibitors showing promising results in in vivo hemorrhagic stroke models. The further improvement of the potency resulted in identification of a number of adaptaquin analogs. Early evaluation of toxicity and metabolism is desired right at the step of lead selection.</p><p><strong>Objective: </strong>The aim of the study is to characterize the toxicity and metabolism of adaptaquin and its new improved analogs.</p><p><strong>Method: </strong>Liver-on-a-chip technology with differentiated HepaRG cells followed by LC-MS detection of the studied compounds and metabolites of the P450 substrate-inhibitor panel for CYP2B6, CYP2C9, CYP2C19, and CYP3A4.</p><p><strong>Results: </strong>The optimized adaptaquin analogs show no toxicity up to a 100-fold increased range over EC50. The drugs are metabolized by CYP3A4 and CYP2B6 as shown with the use of the cytochrome P450 substrate-inhibitor panel designed and optimized for preclinical evaluation of drugs' in vitro biotransformation on a 3D human histotypical cell model using \\\"liver-on-a-chip\\\" technology. 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"Branched Tail" Oxyquinoline Inhibitors of HIF Prolyl Hydroxylase: Early Evaluation of Toxicity and Metabolism Using Liver-on-a-chip.
Background: "Branched tail" oxyquinolines, and adaptaquin in particular, are potent HIF prolyl hydroxylase inhibitors showing promising results in in vivo hemorrhagic stroke models. The further improvement of the potency resulted in identification of a number of adaptaquin analogs. Early evaluation of toxicity and metabolism is desired right at the step of lead selection.
Objective: The aim of the study is to characterize the toxicity and metabolism of adaptaquin and its new improved analogs.
Method: Liver-on-a-chip technology with differentiated HepaRG cells followed by LC-MS detection of the studied compounds and metabolites of the P450 substrate-inhibitor panel for CYP2B6, CYP2C9, CYP2C19, and CYP3A4.
Results: The optimized adaptaquin analogs show no toxicity up to a 100-fold increased range over EC50. The drugs are metabolized by CYP3A4 and CYP2B6 as shown with the use of the cytochrome P450 substrate-inhibitor panel designed and optimized for preclinical evaluation of drugs' in vitro biotransformation on a 3D human histotypical cell model using "liver-on-a-chip" technology. Activation of CYP2B6 with the drugs tested has been observed. A scheme for adaptaquin oxidative conversion is proposed.
Conclusion: The optimized adaptaquin analogs are suitable for further preclinical trials. Activation of CYP2B6 with adaptaquin and its variants points to a potential increase in Tylenol toxicity if administered together.
期刊介绍:
Drug Metabolism Letters publishes letters and research articles on major advances in all areas of drug metabolism and disposition. The emphasis is on publishing quality papers very rapidly by taking full advantage of the Internet technology both for the submission and review of manuscripts. The journal covers the following areas: In vitro systems including CYP-450; enzyme induction and inhibition; drug-drug interactions and enzyme kinetics; pharmacokinetics, toxicokinetics, species scaling and extrapolations; P-glycoprotein and transport carriers; target organ toxicity and interindividual variability; drug metabolism and disposition studies; extrahepatic metabolism; phase I and phase II metabolism; recent developments for the identification of drug metabolites.
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