Olga Gursky1. 1. Department of Physiology and Biophysics, Boston University School of Medicine, W329, Boston, Massachusetts 02118, USA. gursky@bu.edu
Abstract
PURPOSE OF REVIEW: This review highlights recent advances in structural studies of exchangeable human apolipoproteins and the insights they provide into lipoprotein action in cardiovascular and amyloid diseases. RECENT FINDINGS: The high-resolution X-ray crystal structure of free apoA-II reveals a parallel helical array that may represent other lipid-poor apolipoproteins, and the structure in complex with detergent substantiates the belt model for the protein arrangement on lipoproteins. Nuclear magnetic resonance structures of apolipoprotein-detergent complexes show a repertoire of curved helical conformations, suggesting multiple helical arrangements on the lipid. Low-resolution spectroscopic analyses, interface studies and molecular modeling provide new insights into the 'hinge-domain' mechanism of apolipoprotein adaptation at variable lipoprotein surfaces. A kinetic mechanism for lipoprotein stabilization is proposed. SUMMARY: Cumulative evidence supports the belt model that provides a general structural basis for understanding the molecular mechanisms of functional apolipoprotein reactions, such as binding to lipoprotein receptors, lipid transporters, and the activation of lipophilic enzymes. However, the detailed protein and lipid conformations on lipoproteins and the underlying molecular interactions are unclear. New insights will hopefully emerge once the first detailed lipoprotein structure is solved.
PURPOSE OF REVIEW: This review highlights recent advances in structural studies of exchangeable human apolipoproteins and the insights they provide into lipoprotein action in cardiovascular and amyloid diseases. RECENT FINDINGS: The high-resolution X-ray crystal structure of free apoA-II reveals a parallel helical array that may represent other lipid-poor apolipoproteins, and the structure in complex with detergent substantiates the belt model for the protein arrangement on lipoproteins. Nuclear magnetic resonance structures of apolipoprotein-detergent complexes show a repertoire of curved helical conformations, suggesting multiple helical arrangements on the lipid. Low-resolution spectroscopic analyses, interface studies and molecular modeling provide new insights into the 'hinge-domain' mechanism of apolipoprotein adaptation at variable lipoprotein surfaces. A kinetic mechanism for lipoprotein stabilization is proposed. SUMMARY: Cumulative evidence supports the belt model that provides a general structural basis for understanding the molecular mechanisms of functional apolipoprotein reactions, such as binding to lipoprotein receptors, lipid transporters, and the activation of lipophilic enzymes. However, the detailed protein and lipid conformations on lipoproteins and the underlying molecular interactions are unclear. New insights will hopefully emerge once the first detailed lipoprotein structure is solved.
Authors: John M Harrington; Tuiumkan Nishanova; Savannah Rose Pena; Matthew Hess; Chris L Scelsi; Justin Widener; Stephen L Hajduk Journal: J Biol Chem Date: 2014-07-17 Impact factor: 5.157
Authors: Andrea Catte; James C Patterson; Denys Bashtovyy; Martin K Jones; Feifei Gu; Ling Li; Aldo Rampioni; Durba Sengupta; Timo Vuorela; Perttu Niemelä; Mikko Karttunen; Siewert Jan Marrink; Ilpo Vattulainen; Jere P Segrest Journal: Biophys J Date: 2007-12-07 Impact factor: 4.033