Abstract
It is well recognized that expression of enzymes varies during development and growth. However, an in-depth review of this acquired knowledge is needed to translate the understanding of enzyme expression and activity into the prediction of change in effects (e.g. kinetics and toxicity) of xenobiotics with age. Age-related changes in metabolic capacity are critical for understanding and predicting the potential differences resulting from exposure. Such information may be especially useful in the evaluation of the risk of exposure to very low (µg/kg/day or ng/kg/day) levels of environmental chemicals. This review is to better understand the ontogeny of metabolizing enzymes in converting chemicals to either less-toxic metabolite(s) or more toxic products (e.g. reactive intermediate[s]) during stages before birth and during early development (neonate/infant/child). In this review, we evaluated the ontogeny of major “phase I” and “phase II” metabolizing enzymes in humans and commonly used experimental animals (e.g. mouse, rat, and others) in order to fill the information gap.
Acknowledgements
The authors would like to acknowledge the help extended by Drs. Michael Bartels and Sue Marty, for critically reviewing and suggesting changes to improve the manuscript.
Declaration of interest
Preparation of the review was funded by The Dow Chemical Company. The authors’ affiliations are as shown on the cover page. The authors have sole responsibility for the writing and content of the paper.