Lipases and Phospholipases in Drug Development
From Biochemistry to Molecular Pharmacology
1. Edition February 2004
XVIII, 336 Pages, Hardcover
77 Pictures (5 Colored Figures)
19 tables
Monograph
Short Description
Providing drug developers with a firm foundation for lipase-centered drug design, the editors have assembled an interdisciplinary team of experts to create a comprehensive handbook for all pharmaceutical chemists, biochemists and physiologists working with lipases.
The authors examine fundamental aspects of lipase function in vitro and in vivo, the physiological roles of lipases in normal and disordered metabolism, as well as strategies to target lipases for treating diabetes, obesity and related disorders. Further topics include phospholipases for liposome-based drug delivery and as diagnostic tools.
Lipases and Phospholipases are key control elements in mammalian metabolism. They share many common features that set them apart from other metabolic enzyme classes, most importantly their association with biological membranes. Their potential as drug targets for the treatment of metabolic diseases is widely recognized, and the first lipase inhibitor drugs have been successfully introduced.
Providing drug developers with a firm foundation for lipase-centered drug design, the editors of this volume have assembled experts from different scientific disciplines to create a comprehensive handbook for all pharmaceutical chemists, biochemists and physiologists working with lipases.
The authors examine fundamental aspects of lipase function in vitro and in vivo, explaining how this knowledge may be used to develop lipase assays. They also treat the physiological roles of lipases in normal and disordered metabolism, as well as strategies to target lipases for the treatment of diabetes, obesity and related disorders. Additional topics include the application of phospholipases for liposome-based drug delivery and their use as diagnostic tools.
Phospholipase A1: Structures, Physiological and Pathophysiological Roles in Mammals
Rational Design of a Liposomal Drug Delivery System Based on Biophysical Studies of Phospholipase A2 Activity
Phospholipase D
Sphingomyelinases and their Interaction with Membrane Lipids
Glycosyl-Phosphatidylinositol Cleavage Products in Signal Transduction
HTS of Hormone-sensitive Lipase and Subsequent Computer-assisted Compound Optimization
Endothelial Lipase: a Novel Drug Target for HDL and Atherosclerosis?
Digestive Lipases Inhibition: an in vitro Study.
Physiology of Gastrointestinal Lipolysis and Therapeutical Use of Lipases and Digestive Lipase Inhibitors
Physiological and Pharmacological Regulation of Triacylglycerol Storage and Mobilization
E-STREAMS, January 2005
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Stefan Petry is senior scientist in Medicinal Chemistry at Aventis Germany, Frankfurt am Main. He was born in Kaiserslautern (Germany) and studied Chemistry and Biochemistry at the Albert-Ludwigs-University in Freiburg, including his PhD thesis under the supervision of Jochen Lehmann on photo-affinity labeling of carbohydrate binding proteins. He joined the pharmaceutical industry in 1994. At Aventis he is responsible for projects in the field of diabetes. In particular, he is interested in the development of small molecules which interact with signal transduction processes or influence lipid metabolism.