Experimental and Computational Screening Models for the Prediction of Intestinal Drug Absorption

Patric Stenberg; Ulf Norinder; Kristina Luthman; Per Artursson

doi:10.1021/jm001101a

Abstract

The aim of this study was to devise experimental protocols and computational models for the prediction of intestinal drug permeability. Both the required experimental and computational effort and the accuracy and quality of the resulting predictions were considered. In vitro intestinal Caco-2 cell monolayer permeabilities were determined both in a highly accurate experimental setting (Pc) and in a faster, but less accurate, mode (Papp). Computational models were built using four different principles for generation of molecular descriptors (atom counts, molecular mechanics calculations, fragmental, and quantum mechanics approaches) and were evaluated for their ability to predict intestinal membrane permeability. A theoretical deconvolution of the polar molecular surface area (PSA) was also performed to facilitate the interpretation of this composite descriptor and allow the calculation of PSA in a simplified and fast mode. The results indicate that it is possible to predict intestinal drug permeability from rather simple models with little or no loss of accuracy. A new, fast computational model, based on partitioned molecular surface areas, that predicts intestinal drug permeability with an accuracy comparable to that of time-consuming quantum mechanics calculations is presented.

Keywords

ChemistryComputational modelBiological systemMolecular mechanicsPermeability (electromagnetism)Molecular descriptorMembrane permeabilityDeconvolutionMolecular dynamicsPolar surface areaComputational complexity theoryStatistical physicsAlgorithmComputational chemistryQuantitative structure–activity relationshipMembraneComputer scienceMoleculePhysicsStereochemistry

Affiliated Institutions

Related Publications

Fast Calculation of Molecular Polar Surface Area as a Sum of Fragment-Based Contributions and Its Application to the Prediction of Drug Transport Properties

Peter Ertl , Bernhard Rohde , Paul M. Selzer

Molecular polar surface area (PSA), i.e., surface belonging to polar atoms, is a descriptor that was shown to correlate well with passive molecular transport through membranes a...

2000 Journal of Medicinal Chemistry 2899 citations

Correlation of Drug Absorption with Molecular Surface Properties

Katrin Palm , Krishna Luthman , Anna-Lena Unge +2 more

The correlation between dynamic surface properties of drug molecules and drug absorption in two common in vitro models of the intestinal wall (Caco-2 monolayers and rat intestin...

1996 Journal of Pharmaceutical Sciences 412 citations

Strategies toward predicting peptide cellular permeability from computed molecular descriptors

Jay T. Goodwin , Robert A. Conradi , Philip S. Burton +2 more

Abstract: The therapeutic efficacy of an orally administered drug is dictated not only by its pharmacological properties such as potency and selectivity, but also its pharmacoki...

1999 Journal of Peptide Research 38 citations

Rapid calculation of polar molecular surface area and its application to the prediction of transport phenomena. 1. Prediction of intestinal absorption

David E. Clark

A method for the rapid computation of polar molecular surface area (PSA) is described. It is shown that consideration of only a single conformer when computing PSA gives an exce...

1999 Journal of Pharmaceutical Sciences 603 citations

Prediction of Drug Absorption Using Multivariate Statistics

William J. Egan , Kenneth M. Merz , John J. Baldwin

Literature data on compounds both well- and poorly-absorbed in humans were used to build a statistical pattern recognition model of passive intestinal absorption. Robust outlier...

2000 Journal of Medicinal Chemistry 1810 citations

Publication Info

Year: 2001
Type: article
Volume: 44
Issue: 12
Pages: 1927-1937
Citations: 250
Access: Closed

External Links

View on DOI.org

Social Impact

Altmetric

Experimental and Computational Screening Models for the Prediction of Intestinal Drug Absorption

PlumX Metrics

Social media, news, blog, policy document mentions

Citation Metrics

250

OpenAlex

Cite This

APA Style

                            
                                
                                    Patric Stenberg, 
                                
                                    Ulf Norinder, 
                                
                                    Kristina Luthman
                                
                                et al.
                            
                            (2001). 
                            Experimental and Computational Screening Models for the Prediction of Intestinal Drug Absorption. 
                            Journal of Medicinal Chemistry
                            , 44
                            (12)
                            , 1927-1937.
                            https://doi.org/10.1021/jm001101a
                        

Identifiers

DOI: 10.1021/jm001101a