Browsing by Author "Meike Schulze-Alexandru"

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    Quasi-atomistic Receptor Surrogates for the 5-HT2A Receptor: A 3D-QSAR Study on Hallucinogenic Substances
    (2012-11-21) Meike Schulze-Alexandru; Karl-Artur Kovar; Angelo Vedani
    The 5-HT2A receptor is known to act as the biological target for a series of hallucinogenic substances including substituted phenylalkylamines, tryptamines and LSD. A prerequisite for a hallucinogenic effect is an agonistic binding mode to the high-af®nity state of the receptor. Attempts to establish a quantitative structure-activity relationship for such compounds are typically based on homology models or 3D-QSAR. In this paper, we describe a surrogate for the 5-HT2A receptor derived by means of quasi-atomistic receptor modeling (software Quasar), a more recently developed 3D-QSAR technique. This approach allows for the simulation of local induced ®t, H-bond ¯ip-¯op, and solvation phenomena. The QSARs are established based on a family of receptor-surface models, generated by a genetic algorithm combined with cross-validation. The surrogate for the 5-HT2A receptor yielded a cross-validated q2 of 0.954 for the 23 compounds de®ning the training set. A series of 7 test compounds was then used to validate the model, resulting in a RMS deviation of 0.40 kcalymol between DG0 prd. and DG0 exp.. The largest individual deviation was 0.61 kcaly mol, corresponding to an uncertainty of a factor 2.7 in the binding af®nity. A scramble test with negative outcome (q2.0.144, slope. 70.019) demonstrates the sensitivity of the model with respect to the biological data. Subsequently, the surrogate was used to estimate the activity of a series of 53 hypothetical congeneric compounds, some of which are predicted to be close in activity to LSD.