Molecule-receptor binding methods

After an alignment of a set of molecules known to bind to the same receptor a comparative molecular field analysis CoMFA) makes it possible to determine and visuahze molecular interaction regions involved in hgand-receptor binding [51]. Further on, statistical methods such as partial least squares regression PLS) are applied to search for a correlation between CoMFA descriptors and biological activity. The CoMFA descriptors have been one of the most widely used set of descriptors. However, their apex has been reached. 

A widely used 3-D QSAR method that makes use of PLS is comparative molecular field analysis (CoMFA), in which a probe atom is used to calculate the steric and electronic fields at numerous points in a 3D lattice within which the molecules have been aligned. Poso et al. [56] used the technique to model the binding of coumarins to cytochrome P450 2A5, with similar results to those obtained by Bravi and Wikel [55]. Shi et al. [57] used it to model the estrogen receptor binding of a large diverse set of compounds, and Cavalli et al. [58] used it to develop a pharmacophore for hERG potassium... 

Because the chemical structure of a molecule encodes its biological properties, structure has long served as the primary variable and determinant for the discovery of new drugs by medicinal chemists. For this reason, systematic structural modification has been the primary tool of choice to isolate and enhance a desired biologic activity. Moreover, with the relatively recent development of in vitro receptor-binding assays, combinatorial methods of chemical synthesis, and computer graphics, the overall approach to structural modification has become increasingly sophisticated. 

In 1991, we first introduced the one-bead one-compound (OBOC ) combinatorial library method.1 Since then, it has been successfully applied to the identification of ligands for a large number of biological targets.2,3 Using well-established on-bead binding or functional assays, the OBOC method is highly efficient and practical. A random library of millions of beads can be rapidly screened in parallel for a specific acceptor molecule (receptor, antibody, enzyme, virus, etc.). The amount of acceptor needed is minute compared to solution phase assay in microtiter plates. The positive beads with active compounds are easily isolated and subjected to structural determination. For peptides that contain natural amino acids and have a free N-terminus, we routinely use an automatic protein sequencer with Edman chemistry, which converts each a-amino acid sequentially to its phenylthiohydantoin (PTH) derivatives, to determine the structure of peptide on the positive beads. 

In addition to finding small organic molecules that bind to a protein, covalent capture methods can identify peptides that interact with proteins. Kohda and colleagues used this approach to study the mitochondrial protein Tom20, an import receptor that recognizes an epitope on proteins targeted for the mitochondria.1301 Previous work had characterized this epitope as a five-residue peptide that assumes an amphiphilic helical conformation, and coarse sequence preferences had been worked out. However, Tom20 has both low affinity... 

The fact that receptor binding is a 3-D event would suggest that 3-D descriptors are best able to model biological activity however, there are significant problems inherent in the use of such descriptors. These problems relate to representation of the conformational space available to molecules— for example, the method used to generate the 3-D structures and the way in which conformational flexibility is handled. However, despite these difficulties... 

SPA has been developed as a receptor binding assay using molecules prepared from a number of different sources ranging from crude tissue preparations to soluble purified proteins. The method, which is applicable to both 3H and 125I ligands, provides a number of factors and must be carefully optimized in the assay design and development. 

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