Hydralazine As a Selective Probe Inactivator of Aldehyde Oxidase in Human Hepatocytes: Estimation of the Contribution of Aldehyde Oxidase to Metabolic Clearance

@article{Strelevitz2012HydralazineAA,
  title={Hydralazine As a Selective Probe Inactivator of Aldehyde Oxidase in Human Hepatocytes: Estimation of the Contribution of Aldehyde Oxidase to Metabolic Clearance},
  author={Timothy J. Strelevitz and Christine C. Orozco and R Scott Obach},
  journal={Drug Metabolism and Disposition},
  year={2012},
  volume={40},
  pages={1441 - 1448}
}
Aldehyde oxidase (AO) metabolism could lead to significant underestimation of clearance in prediction of human pharmacokinetics as well as unanticipated exposure to AO-generated metabolites, if not accounted for early in drug research. We report a method using cryopreserved human hepatocytes and the time-dependent AO inhibitor hydralazine (KI = 83 ± 27 μM, kinact = 0.063 ± 0.007 min−1), which estimates the contribution of AO metabolism relative to total hepatic clearance. Using zaleplon as a… 
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Evaluation of Cytochrome P450 Selectivity for Hydralazine as an Aldehyde Oxidase Inhibitor for Reaction Phenotyping.
Strategies for a comprehensive understanding of metabolism by aldehyde oxidase
TLDR
As the role of AO in metabolism of new drug molecules continues to emerge, it is critical that DMPK scientists have the most updated methodologies to enable formulation of a thorough experimental plan to understand the potential implications of this metabolic pathway.
Evaluating the Disposition of a Mixed Aldehyde Oxidase/Cytochrome P450 Substrate in Rats with Attenuated P450 Activity
TLDR
These studies reflect possible consequences of a drug interaction between P450 inhibitors and compounds cleared by both AO and P450 enzymes, and increased exposure to an AO metabolite may hold clinical relevance for active metabolites or those mediating toxicity at elevated concentrations.
ecoAO: A Simple System for the Study of Human Aldehyde Oxidases Role in Drug Metabolism
TLDR
EcoAO promises to provide easy access to metabolites with the potential to improve pharmacokinetic clearance predictions and guide drug development, and has potential as a preclinical in vitro screening tool for AO activity, as demonstrated by its metabolism of 3-aminoquinoline, a previously uncharacterized substrate.
Contribution of Extrahepatic Aldehyde Oxidase Activity to Human Clearance
TLDR
This work demonstrates AOX activity is measurable in a variety of extra-hepatic human tissues, including vasculature, yet activities and potential contributions to human clearance are relatively low and insignificant when compared to the liver.
A rapid and sensitive fluorometric method for determination of aldehyde oxidase activity
Aldehyde oxidase at the crossroad of metabolism and preclinical screening
TLDR
Different in silico, in vitro and in vivo methods for the prediction of AOX metabolizing ability are described and the existing drawbacks and challenges associated with these approaches are focused on.
Evidence for Substrate-Dependent Inhibition Profiles for Human Liver Aldehyde Oxidase
TLDR
It appears that the choice in substrate may be critical when conducting mechanistic inhibition or in vitro drug-drug interactions prediction studies with AO, and raloxifene was found to inhibit competitively when using DACA as a probe.
Enzyme Kinetics, Pharmacokinetics, and Inhibition of Aldehyde Oxidase.
TLDR
Aldehyde oxidase (AO) appears to be amenable to computational predictions of both regioselectivity and rates of reaction, which holds promise for virtual screening.
Species-Specific Involvement of Aldehyde Oxidase and Xanthine Oxidase in the Metabolism of the Pyrimidine-Containing mGlu5-Negative Allosteric Modulator VU0424238 (Auglurant)
TLDR
Inhibitor studies in the S9 of multiple species indicated that oxidation of VU238 to M1 was mediated predominantly by AO in humans, cynomolgus and rhesus monkeys, rats, mice, guinea pigs, and minipigs, and low turnover prevented enzyme phenotyping in humans andminipigs.
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