Theopioid epidemic is a rapidly growing crisis around the world. Current models forpharmacokinetic assessment of countermeasures use African green monkeys (AGM). Arapid, sensitive and selective method was developed and validated usingLC‐MS/MS for the determination of naloxone and 6α‐naloxol in AGM plasma. Samplepreparation involved a simple solid phase extraction (SPE) using ahydrophilic‐lipophilic‐balanced reversed‐phase cartridge. Separation of naloxoneand 6α‐naloxol was achieved on a Halo C18, 2.1 × 50 mm, 2.7μ analytical columnusing an Agilent 1290 Infinity HPLC. A solvent system of methanol‐water‐formicacid was used for the elution of analytes. The analytes were detected and monitoredby a SCIEX QTRAP 6500+ triple quadrupole tandem mass spectrometer operatedin electrospray ionization (ESI) positive mode and multiple reaction monitoring(MRM). Molecular ion transitions for naloxone, 6α‐naloxol and naloxone‐D5 were 328.0/212.0,330.0/185.0, and 333.1/212.0 m/z, respectively. The method was validated usingcalibration and recovery assays with spiked samples. Linear calibration curveswere generated over the range of 1.5–100 ng/ml with values for the coefficientof determination (R2) of >0.9950. The values for both inter‐dayand intra‐day precision and accuracy were well within the generally acceptedcriteria for analytical methods (≤15%). This method was subsequentlyused to measure plasma concentrations of naloxone and 6α‐naloxol in male AGMs administerednaloxone subcutaneously and intravenously. The developed method demonstratedexcellent recovery, repeatability, accuracy and sensitivity.Support or Funding InformationDISCLAIMERS. The views expressed in this abstractare those of the authors (s) and do not reflect the official policy of theDepartment of Army, Department of Defense, or U. S. Government. This researchwas supported by the Defense Threat Reduction Agency – Joint Science andTechnology office, Medical S&T Division.Thisproject was supported in part by an appointment to the Research ParticipationProgram for the U.S. Army Medical Research and Materiel Command administratedby the Oak Ridge Institute for Science and Education through an agreementbetween the U.S. Army Medical Research and Materiel Command.This abstract is from the Experimental Biology 2018 Meeting. There is no full text article associated with this abstract published in The FASEB Journal.
The opioid crisis is a pressing public health issue, exacerbated by the emergence of more potent synthetic opioids, particularly fentanyl and its analogs. While competitive antagonists exist, their efficacy against synthetic opioids is largely unknown. Furthermore, due to the short durations of action of current antagonists, renarcotization remains a concern. In this study, metabolic activity was characterized for fentanyl‐class opioids and common opioid antagonists using multiple in vitro systems, namely, cytochrome P450 (CYP) enzymes and hepatic spheroids, after which an in vitro
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in vivo correlation was applied to convert in vitro metabolic activity to predictive in vivo intrinsic clearance. For all substrates, intrinsic hepatic metabolism was higher than the composite of CYP activities, due to fundamental differences between whole cells and single enzymatic reactions. Of the CYP isozymes investigated, 3A4 yielded the highest absolute and relative metabolism across all substrates, with largely negligible contributions from 2D6 and 2C19. Comparative analysis highlighted elevated lipophilicity and diminished CYP3A4 activity as potential considerations for the development of more efficacious opioid antagonists. Finally, antagonists with a high degree of molecular similarity exhibited comparable clearance, providing a basis for structure‐metabolism relationships. Together, these results provide multiple screening criteria for early stage drug discovery involving opioid countermeasures.
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