期刊名称:Proceedings of the National Academy of Sciences
印刷版ISSN:0027-8424
电子版ISSN:1091-6490
出版年度:1982
卷号:79
期号:23
页码:7190-7194
DOI:10.1073/pnas.79.23.7190
语种:English
出版社:The National Academy of Sciences of the United States of America
摘要:We have utilized circular dichroism spectroscopy to examine the interaction of antithrombin with heparin-derived oligosaccharides and mucopolysaccharides of various sizes. Our studies demonstrate that the various complexes exhibit two major types of chiral absorption spectra. The first of these patterns is seen when octasaccharide, decasaccharide, dodecasaccharide, or tetradecasaccharide fragments bind to the protease inhibitor. The circular dichroism spectra of these complexes when compared to the spectrum of free antithrombin show several distinguishing characteristics. On the one hand, there is a marked general increase in positive chiral absorption that is maximal at 296 and 288 nm and 290 and 282.5 nm. These observations indicate perturbation of "buried" and "exposed" tryptophan residues. On the other hand, a significant augmentation in circular dichroism that peaks at 269.5 and 263 nm is noted. These findings are probably due to the summed positive and negative contributions arising from tryptophan residue(s), disulfide bridge(s), and phenylalanine residue(s). Given that these heparin fragments are able to accelerate factor Xa-antithrombin interactions but not thrombin-antithrombin interactions, the above spectral transitions must be associated with either the binding of a critical domain of the oligosaccharides to the protease inhibitor or the "activation" of the protease inhibitor with respect to factor Xa neutralization. The second of these patterns is apparent when octadecasaccharide, low molecular weight heparin (6,500), and high molecular weight heparin (22,000) interact with antithrombin. The circular dichroism spectra of these complexes compared to the spectrum of free protease inhibitor are similar to the first pattern except for changes within the 292- to 282-nm and 275- to 255-nm regions. The subtraction of the first pattern from the second pattern reveals a shallow negative band between 300 and 275 nm with potential negative minima at 290 and 283 nm as well as a deep negative band between 275 and 255 nm with possible negative minima at 268 and 262 nm. This chiral absorption profile is most likely to arise from conformational changes of a disulfide bridge(s). However, we cannot completely exclude the possibility that the above circular dichroism difference curve might be explained on the basis of transitions originating from a tryptophan residue(s). Given our method for generating the above data, these spectral alterations must be associated with the binding of a second critical domain of the mucopolysaccharide to antithrombin that is required for rapid complex formation with thrombin or the activation of the protease inhibitor with respect to the neutralization of the latter enzyme.
