The recent guidance on "Safety Testing of Drug Metabolites" issued by the U.S. Food and Drug Administration, Center for Drug Evaluation and Research (CDER) has highlighted the importance of identifying and characterizing drug metabolites as early as possible in drug discovery and development. Furthermore, upon identifying significant circulating metabolites in human plasma, it has become important to demonstrate that these metabolites are present at an equal or greater exposure level (area under the curve, AUC) in any one of the preclinical species used in safety testing. Frequently, synthetic standards of metabolites are not available, and hence, obtaining their AUC values can be a challenge. In this report, we demonstrate how combinations of nuclear magnetic resonance (NMR) spectroscopy, liquid chromatography/ultraviolet/mass spectrometry (LC/UV/MS), and plasma pooling methods were used to obtain reliable AUC values of metabolites present in the plasma of preclinical species from short-term safety studies. Plasma pooling methods were compared to the traditional approaches of obtaining quantitative information on the levels of circulating metabolites in preclinical species. The exposure values obtained via sample pooling were comparable to those obtained by traditional methods of analyzing samples individually. In the absence of synthetic chemical standards, calculations of AUC values of metabolites, using either sample pooling or traditional approaches, were achieved through the use of UV detectors. In cases where the UV properties of metabolites were significantly different from their parent compounds, NMR was used as a quantitative tool to obtain exposure values. NMR was found to be useful in quantitating biologically produced metabolites, which could subsequently be used as reference compounds for further quantitative studies. The limitations of UV detectors to obtain exposure estimates are discussed. A practical solution is presented that will enable us to obtain a quantitative assessment of metabolite exposure in humans and coverage in toxicology species, hence, circumventing the use of radiolabeled compounds or authentic chemically synthesized standards of metabolites.
ABSTRACT:It is important to gain an understanding of the pharmacological activities of metabolite(s) of compounds in development, especially if they are found in systemic circulation in humans. Pharmacological evaluation of metabolites is normally conducted with synthetic standards, which become available during various stages of drug development. However, the synthesis of metabolite standards may be protracted, taking anywhere from several weeks to months to be completed. This often slows down early pharmacological evaluation of metabolites. Once a metabolite(s) is found to possess comparable (or greater) pharmacological activity than the parent compound, additional studies are performed to better understand the implications of circulating pharmacologically active metabolite(s). To conduct some of these studies as early as possible without slowing the progression of a compound in development is important, especially if critical go or no-go decisions impinge on the outcomes from these studies. Early pharmacological evaluation of significant metabolites is hereby proposed to be conducted in the drug discovery stage so that all pertinent studies and information can be gathered in a timely manner for decisionmaking. It is suggested that these major metabolites be isolated, either from biological or chemical sources, and quantified appropriately. For biologically generated metabolites, NMR is proposed as the tool of choice to quantitate these metabolites before their evaluation in pharmacological assays. For metabolites that have the same UV characteristics as the parent compound, quantitation can be conducted using UV spectroscopy instead of NMR. In this article, we propose a strategy that could be used to determine the pharmacological activities of metabolites isolated in submilligram quantities.
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