Molecular Modeling of Cytochrome P450 and Drug Metabolism

Title: Molecular Modeling of Cytochrome P450 and Drug Metabolism

Volume: 11 Issue: 4

Author(s): Jing-Fang Wang and Kuo-Chen Chou

Affiliation:

Keywords: Cytochrome P450, Drug metabolism, Molecular modeling, Polymorphism

Abstract: The cytochrome P450 family is a large and diverse group of hemoproteins that are located in virtually all types of organism, such as bacteria, eukaryotes and even Archaea. These proteins are found throughout the body, however the highest concentrations are associated with liver. As the Human Genome Project completed, there are 57 genes and more than 59 pseudogenes divided among 18 families of CYP genes and 43 subfamilies have been detected. In humans, CYPs are the major enzymes involved in drug metabolism and bioactivation, accounting for almost 75% of the total drug metabolism. The variability in drug metabolisms that are mainly induced by the CYP polymorphisms is reflected on the differences of the maximal plasma concentrations, half lives of some drugs and their clearance. Besides, it can also lead to adverse drug reactions that are considered as a major factor in drug toxicity. So, the genotype-activity relationships of the CYP proteins have become a hot topic in recent years. It is important to further understand why a certain genotype influences enzyme activity and how to predict more structure-activity relationships.

Cite this article as:

Wang Jing-Fang and Chou Kuo-Chen, Molecular Modeling of Cytochrome P450 and Drug Metabolism, Current Drug Metabolism 2010; 11 (4) . https://dx.doi.org/10.2174/138920010791514180