As part of an overall systems approach to generating highly accurate screening data across large numbers of compounds and biological targets, we have developed and implemented streamlined methods for purifying and quantitating compounds at various stages of the screening process, coupled with automated "traditional" storage methods (DMSO, -20 degrees C). Specifically, all of the compounds in our druglike library are purified by LC/MS/UV and are then controlled for identity and concentration in their respective DMSO stock solutions by chemiluminescent nitrogen detection (CLND)/evaporative light scattering detection (ELSD) and MS/UV. In addition, the compound-buffer solutions used in the various biological assays are quantitated by LC/UV/CLND to determine the concentration of compound actually present during screening. Our results show that LC/UV/CLND/ELSD/MS is a widely applicable method that can be used to purify, quantitate, and identify most small organic molecules from compound libraries. The LC/UV/CLND technique is a simple and sensitive method that can be easily and cost-effectively employed to rapidly determine the concentrations of even small amounts of any N-containing compound in aqueous solution. We present data to establish error limits for concentration determination that are well within the overall variability of the screening process. This study demonstrates that there is a significant difference between the predicted amount of soluble compound from stock DMSO solutions following dilution into assay buffer and the actual amount present in assay buffer solutions, even at the low concentrations employed for the assays. We also demonstrate that knowledge of the concentrations of compounds to which the biological target is exposed is critical for accurate potency determinations. Accurate potency values are in turn particularly important for drug discovery, for understanding structure-activity relationships, and for building useful empirical models of protein-ligand interactions. Our new understanding of relative solubility demonstrates that most, if not all, decisions that are made in early discovery are based upon missing or inaccurate information. Finally, we demonstrate that careful control of compound handling and concentration, coupled with accurate assay methods, allows the use of both positive and negative data in analyzing screening data sets for structure-activity relationships that determine potency and selectivity.
The utility of hydrogen-deuterium exchange for sequencing peptides by mass spectrometry is demonstrated. The number of exchangeable hydrogens in a peptide is readily obtained by electrospray analysis of the peptide dissolved in deuterated solvents. This information can be used, in conjunction with published computer algorithms for interpreting peptide mass spectra, to reduce significantly the number of candidate sequences that fit the experimental data. This information, when combined with fragment-ion information in the mass spectrum, greatly increases the reliability of sequence determination.
A synthetic chemical library comprised of alkylated and acylated amino acids was synthesized and screened to determine structures that bind to a model target, streptavidin. The library was prepared using "split synthesis" and screened in a solid phase binding assay. The structure of positively reacting compounds was determined using mass spectroscopy. Positive compounds, together with various structural analogs were synthesized and their binding confirmed. Structures containing both an imidazole moiety and a substituted aromatic residue demonstrated binding.: CI 1994 Wiiey-Liss, Inc.
A small-molecule synthetic combinatorial library was designed and synthesized that features potential pharmacophores attached to a variety of small cyclic scaffolds. The synthesis of the library involved randomization of three types of building blocks: 20 amino acids, 10 aromatic hydroxy acids and 21 alcohols, totaling a library complexity of 4200 compounds. Mitsunobu polymer-supported etherification was used in the last randomization. The library compounds were attached to beads via an ester-bond linkage enabling both on-bead as well as in-solution screening. When the library was tested against a model target, streptavidin, specific binders were found. The structures of the most active compounds were determined from the fragmentation pattern in MS/MS experiments.
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