Structure-based design of beta-lactamase inhibitors. 2. Synthesis and evaluation of bridged sulfactams and oxamazins.

A series of bridged monocyclic beta-lactams activated by various groups on the beta-lactam nitrogen (X = OCH2CO2H, OSO3H) has been synthesized and evaluated. Among them, the bridged sulfactams (X = OSO3H) were found to be effective beta-lactamase inhibitors. They inhibit both class A and class C beta-lactamases.

Structure-based design of beta-lactamase inhibitors. 1. Synthesis and evaluation of bridged monobactams.

Bridged monobactams are novel, potent, mechanism-based inhibitors of class C beta-lactamases, designed using X-ray crystal structures of the enzymes. They stabilize the acyl-enzyme intermediate by blocking access of water to the enzyme-inhibitor ester bond. Bridged monobactams are selective class C beta-lactamase inhibitors, with half-inhibition constants as low as 10 nM, and are less effective against class A and class B enzymes (half-inhibition constants > 100 microM) because of the different hydrolysis mechanisms in these classes of beta-lactamases.

Design and synthesis of potent and highly selective thrombin inhibitors.

Thrombin, a serine protease, plays a central role in the initiation and propagation of thrombotic events. An extensive search for new thrombin inhibitors was performed, using an unconventional approach. Screening of small basic molecules for binding in the recognition pocket of thrombin led to the discovery of (aminoiminomethyl)piperidine (amidinopiperidine) as a weak, but intrinsically selective, thrombin inhibitor.

Pyrimido[1,6-a]benzimidazoles: a new class of DNA gyrase inhibitors.

Substituted 4-quinolone- (1, A = CH) and 1,8-naphthyrid-4-one- (1, A = N) 3-carboxylic acids are currently the only classes of clinically useful antibacterial agents exerting their activity by inhibiting the subunit A of DNA gyrase. Pyrimido[1,6-alpha]benzimidazoles 11 have been found to be a new class of inhibitors of this enzyme. The design, synthesis, and biological activity of these compounds are reported.

Amino acid substitution (Ile194----Thr) in exon 5 of the lipoprotein lipase gene causes lipoprotein lipase deficiency in three unrelated probands. Support for a multicentric origin.

Studies on the molecular biology of lipoprotein lipase (LPL) deficiency have been facilitated by the availability of LPL gene probes and the recent characterization of gene mutations underlying human LPL deficiency. Typically, missense mutations have predominated and show a preferential localization to exons 4 and 5. This distribution supports earlier studies attributing functional significance to residues encoded by these exons.

Refined crystal structure of beta-lactamase from Citrobacter freundii indicates a mechanism for beta-lactam hydrolysis.

Beta-Lactamases (EC 3.5.2.

The construction of new proteins: V. A template-assembled synthetic protein (TASP) containing both a 4-helix bundle and beta-barrel-like structure.

The construction of a template-assembled synthetic protein (TASP) designed to contain both a 4-helix bundle and a beta-barrel as two folding "domains" is described. For the de novo design of proteins, amphiphilic helices (alpha) and beta-sheets (beta) are covalently attached to a template peptide (T) carrying functional side chains suitably oriented to promote intramolecular folding of the secondary structure blocks into a characteristic packing arrangement, i.e.