Pharmacokinetic modeling of caco-2 cell permeability using genetic programming (GP) method

TitlePharmacokinetic modeling of caco-2 cell permeability using genetic programming (GP) method
Publication TypeJournal Article
Year of Publication2014
AuthorsVyas, R, Goel, P, Karthikeyan, M, Tambe, SS, Kulkarni, BD
JournalLetters in Drug Design & Discovery
Volume11
Issue9
Pagination1112-1118
Date PublishedNOV
ISSN1570-1808
KeywordsADME modeling, Caco-2 cell permeability, genetic programming, MLP, SVR
Abstract

An accurate prediction of the pharmacokinetic properties of orally administered drugs is of paramount importance in pharmaceutical industry. Caco-2 cell permeability is a well established parameter for assessing the drug absorption profiles of lead molecules. Due to the restrictions on animal testing, prohibitive in situ models and ethical issues, the development of predictive models is essential. Genetic programming (GP) is an artificial intelligence (AI)-based exclusively data driven modeling paradigm. Given an example input-output data, it searches and optimizes, both the structure and parameters of a well fitting linear/non-linear input-output model. Despite this novelty, GP has not been widely exploited in drug design. Accordingly, in this study we propose a GP based approach for the in silico prediction of Caco-2 cell permeability using a diverse set of molecules. The predictions yielded a high magnitude for the training and test set correlation coefficient with low RMSE, indicating accurate Caco-2 permeability prediction and generalization performance by the GP model. The predictions were better or comparable to artificial neural networks (ANN) and support vector regression (SVR) methods. The GP based modeling approach illustrated will find diverse applications in (QSAR, QSPR and QSTR) modeling for the virtual screening of large libraries.

Type of Journal (Indian or Foreign)Foreign
Impact Factor (IF)0.67
Divison category: 
Catalysis and Inorganic Chemistry