Edward D. Mihelich scite author profile

A lead compound obtained from a high volume human non-pancreatic secretory phospholipase A2 (hnps-PLA2) screen has been developed into a potent inhibitor using detailed structural knowledge of inhibitor binding to the enzyme active site. Four crystal structures of hnps-PLA2 complexed with a series of increasingly potent indole inhibitors were determined and used as the structural basis for both understanding this binding and providing valuable insights for further development. The application of structure-based drug design has made possible improvements in the binding of this screening lead to the enzyme by nearly three orders of magnitude. Furthermore, the optimized structure (LY311727) displayed 1,500-fold selectivity when assayed against porcine pancreatic s-PLA2.

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Structure of recombinant human rheumatoid arthritic synovial fluid phospholipase A2 at 2.2 Å resolution

Wery

Schevitz

Clawson

et al. 1991

Nature

204

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Phospholipases A2 (PLA2s) may be grouped into distinct families of proteins that catalyse the hydrolysis of the 2-acyl bond of phospholipids and perform a variety of biological functions. The best characterized are the small (relative molecular mass approximately 14,000) calcium-dependent, secretory enzymes of diverse origin, such as pancreatic and venom PLA2s. The structures and functions of several PLA2s are known. Recently, high-resolution crystal structures of complexes of secretory PLA2s with phosphonate phospholipid analogues have provided information about the detailed stereochemistry of transition-state binding, confirming the proposed catalytic mechanism of esterolysis. By contrast, studies on mammalian nonpancreatic secretory PLA2s (s-PLA2s) have only recently begun; s-PLA2s are scarce in normal cells and tissues but large amounts are found in association with local and systemic inflammatory processes and tissue injury in animals and man. Such s-PLAs have been purified from rabbit and rat inflammatory exudate, from synovial fluid from patients with rheumatoid arthritis and from human platelets. Cloning and sequencing shows that the primary structure of the human s-PLA2 has about 37% homology with that of bovine pancreatic PLA2 and 44% homology with that of Crotalus atrox PLA2. The human s-PLA2 is an unusually basic protein, yet contains most of the highly conserved amino-acid residues and sequences characteristic of the PLA2s sequenced so far. Here we report the refined, three-dimensional crystal structure at 2.2 A resolution of recombinant human rheumatoid arthritic synovial fluid PLA2. This may aid the development of potent and specific inhibitors of this enzyme using structure-based design.

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Oxazolines. XI. Synthesis of functionalized aromatic and aliphatic acids. Useful protecting group for carboxylic acids against Grignard and hydride reagents

Meyers¹,

Temple²,

Haidukewych³

et al. 1974

J. Org. Chem.

166

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Vanadium-catalyzed epoxidations. 2. Highly stereoselective epoxidations of acyclic homoallylic alcohols predicted by a detailed transition-state model

Mihelich¹,

Daniels²,

Eickhoff³

1981

J. Am. Chem. Soc.

206

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A one-pot conversion of olefins to .alpha.,.beta.-unsaturated carbonyl compounds. An easy synthesis of 2-cyclopentenone and related compounds

Mihelich¹,

Eickhoff²

1983

J. Org. Chem.

134

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There are few compounds that have more potential and versatility in organic synthesis than 2-cyclopentenone1 and its higher homologues. Yet the available sources of these materials are generally tedious, multistep synthetic routes2 or expensive commercial suppliers.3 A conceptually attractive synthetic entry to this general class of compounds lies in the direct conversion of their parent olefins4 through an allylic oxidation pathway. While an impressive amount of research has demonstrated the utility of such a strategem with a variety of substrates,46 no approach has been generally applicable to the simple C-5 through C-8 cycloalkenes. We now report an exceedingly efficient, one-pot synthesis of the 2-cycloalkenones and other ,/3-unsaturated carbonyl compounds by an in situ photooxygenation-elimination procedure.

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