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Biotransformation and metabolite identification

Metabolism studies are integral to the drug development process, aiding in the safety and efficacy assessments of drug candidates. Investigating differences in metabolic profiles between humans and animal species used for toxicological testing should occur early to identify unique and/or disproportionate human metabolites.
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In vitro cross-species metabolism

The incubation of drug candidates with liver microsomes and/or hepatocyte suspensions from human and animal species aims to identify and quantify hepatic metabolites, enabling or confirming the selection of species for toxicological studies. Metabolite structure elucidation is supported by orthogonal parameters such as accurate mass and multi-stage mass (MSn) experiments. Our cross-species metabolism assay typically uses radiolabelled test compounds, with parent drugs and metabolites quantified by radioactive measurement via off-line scintillation counting. Using unlabelled test compounds is feasible but allows only semi-quantitative assessments based on mass-spectrometric responses. The assay can be supplemented by determining covalent binding of radiolabelled test compounds to hepatocyte or microsomal proteins, providing indications of reactive metabolite formation and assessing potential risks for idiosyncratic toxicity.

In vivo metabolite profiling and structure elucidation

This solution is available in virtually all matrices collected from preclinical species in pharmacokinetic and toxicokinetic studies as well as from humans in clinical trials, including human mass balance (hADME). We highly recommend investing in the identification of circulating human metabolites already within the first-in-human (FiH) trial. Quantitation of metabolites can be accomplished by either using reference standards (if available) or radiolabelled calibration samples generated with relevant in vitro test systems (e.g., hepatocytes) and applying high resolution mass spectrometry (HR-MS) combined with off-line radio detection. The evaluation of whether human metabolites are formed at sufficient levels by the toxicity species can be performed by analyzing matrix-matched plasma samples, even without requiring reference standards. The resulting relative metabolite exposures (human vs. preclinical species) will support the safety assessment of your drug candidate and help guide further development.

Frequently asked questions (FAQs)

  • Why is metabolite identification (Met-ID) important and when is it required?

    Met-ID is the process of detecting, structurally characterising and quantifying the metabolites formed when a compound is processed by biological systems such as liver microsomes, hepatocytes, plasma or in vivo models. 

    Understanding the metabolite profile helps:

    • assess whether metabolites could contribute to efficacy or toxicity 
    • identify major human metabolites that may need further qualification
    • compare species to support toxicology interpretation
    • guide medicinal chemistry optimisation by identifying metabolic soft spots.

    Met-ID is particularly important when new or disproportionate human metabolites are observed, or when regulators require a clear understanding of metabolite exposure.

  • What is an in vitro cross-species metabolism study and why is it needed before first-in-human trials?
    An in vitro cross-species metabolism study compares the metabolites produced from the same drug candidate across human and animal test systems, typically hepatocytes or microsomes. It shows whether the animal species selected for toxicology produce the same metabolites as humans and at comparable levels. 

    This information helps determine whether the non-clinical safety package is relevant to human exposure and whether additional studies may be needed to qualify human-specific or disproportionate metabolites before first-in-human studies. 
  • What is in vivo metabolite profiling and when is it needed?
    In vivo metabolite profiling characterises and quantifies the metabolites formed after dosing in a living organism. It is used to understand which metabolites circulate systemically, which tissues they reach and whether their exposure changes with dose or time. 

    It is particularly relevant in later development, where regulators may expect a better understanding of human metabolite exposure and whether any circulating metabolites could raise safety concerns. 
  • What is MIST (Metabolites in Safety Testing) and what are the FDA/ICH regulatory requirements? 
    MIST refers to the FDA and ICH concept that human metabolites present at disproportionately higher levels than in the toxicology species may need additional safety assessment. 

    Under current expectations, metabolites that represent more than 10% of total drug-related exposure in humans may need to be evaluated if they are not adequately covered in the non-clinical species used in safety studies. Meeting MIST expectations generally requires integrated metabolite profiling across in vitro, preclinical and clinical studies. 

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