论文信息 - In Silico Solid State Perturbation for Solubility Improvement

In Silico Solid State Perturbation for Solubility Improvement

Solubility is a frequently recurring issue within pharmaceutical industry, and new methods to proactively resolve this are of fundamental importance. Here, a novel methodology is reported for intrinsic solubility improvement, using in silico prediction of crystal structures, by perturbing key interactions in the crystalline solid state. The methodology was evaluated with a set of benzodiazepine molecules, using the two‐dimensional molecular structure as the only a priori input. The overall trend in intrinsic solubility was correctly predicted for the entire set of benzodiazepines molecules. The results also indicate that, in drug compound series where the melting point is relatively high (i.e., “brick dust” compounds), the reported methodology should be very suitable for identifying strategically important molecular substitutions to improve solubility. As such, this approach could be a useful predictive tool for rational compound design in the early stages of drug development.

[1] S. Yalkowsky,et al. Estimation of the aqueous solubility I: application to organic nonelectrolytes. , 2001, Journal of pharmaceutical sciences.

[2] F. Leusen,et al. A major advance in crystal structure prediction. , 2008, Angewandte Chemie.

[3] J. Tomasi,et al. Electrostatic interaction of a solute with a continuum. A direct utilizaion of AB initio molecular potentials for the prevision of solvent effects , 1981 .

[4] J. Westergren,et al. In silico prediction of drug solubility. 3. Free energy of solvation in pure amorphous matter. , 2007, The journal of physical chemistry. B.

[5] W. L. Jorgensen,et al. Development and Testing of the OPLS All-Atom Force Field on Conformational Energetics and Properties of Organic Liquids , 1996 .

[6] K. Sanderson. Model predicts structure of crystals , 2007, Nature.

[7] Anthony L. Spek,et al. Journal of , 1993 .

[8] Giovanni Scalmani,et al. New developments in the polarizable continuum model for quantum mechanical and classical calculations on molecules in solution , 2002 .

[9] Jie Luo,et al. Retrieval of Crystallographically-Derived Molecular Geometry Information , 2004, J. Chem. Inf. Model..

[10] S. Yalkowsky,et al. Solubility and partitioning I: Solubility of nonelectrolytes in water. , 1980, Journal of pharmaceutical sciences.

[11] Solid‐State Perturbation for Solubility Improvement: A Proof of Concept , 2011, ChemMedChem.