Isoform-selective inhibitory profile of 2-imidazoline-substituted benzene sulfonamides against a panel of human carbonic anhydrases.

A series of novel benzene sulfonamides (previously evaluated as selective cyclooxygenase-2 inhibitors) has been profiled against human carbonic anhydrases I, II, IV and VII in an attempt to observe the manifestation of the well established "tail" approach for designing potent, isoform-selective inhibitors of carbonic anhydrases (CAs, EC 4.2.1.

Panel docking of small-molecule libraries - Prospects to improve efficiency of lead compound discovery.

Computational docking as a means to prioritise small molecules in drug discovery projects remains a highly popular in silico screening approach. Contemporary docking approaches without experimental parametrisation can reliably differentiate active and inactive chemotypes in a protein binding site, but the absence of a correlation between the score of a predicted binding pose and the biological activity of the molecule presents a clear limitation. Several novel or improved computational approaches have been developed in the recent past to aid in screening and profiling of small-molecule ligands for drug discovery, but also more broadly in developing conceptual relationships between different protein targets by chemical probing.

Potent, orally available, selective COX-2 inhibitors based on 2-imidazoline core.

A novel series of compounds containing a polar, non-flat 2-imidazoline core was designed based on the SAR information available for aromatic azole cyclooxygenase-2 inhibitors. While the majority of the compounds prepared using an earlier developed imidazoline N-arylation methodology turned out to be inferior to the known COX-2 inhibitors, one lead compound displayed potency (300 nM) comparable to clinically used Celecoxib and was shown to be more selective. The series represents the first example of selective COX-2 inhibitors built around a distinctly polar core, contradicting an earlier accepted view that a lipophilic scaffold is required for high inhibitor potency.

Synthesis of substituted 2-arylindanes from E-(2-stilbenyl)methanols via Lewis acid-mediated cyclization and nucleophililc transfer from trialkylsilyl reagents.

A preparative method for the synthesis of functionalized 2-arylindanes has been developed via the Lewis acid-mediated ring closure of stilbenyl methanols followed by nucleophilic transfer from trialkylsilyl reagents. The reactions gave the corresponding products in moderate to high yields and diastereoselectivity. The solvent as well as the nucleophile played an important role in determining the type(s) of product arising either from nucleophilic addition (indanes) or loss of a proton β to the indanyl-type carbocations (indenes).

Synthesis, biophysical, and biological studies of wild-type and mutant psalmopeotoxins--anti-malarial cysteine knot peptides from Psalmopoeus cambridgei.

Psalmopeotoxin I and II (PcFK1 and PcFK2), an anti-malarial peptide first extracted from Psalmopoeus cambridgei was synthesized and characterized. Both peptides belong to the Inhibitor Cystine Knot (ICK) superfamily, containing three disulfide bridges. The six cysteine residues are conserved similar to other members of the ICK superfamily, suggesting their critical role for either folding or function.