Insulin-like growth factor-I (IGF-I): Solution properties and NMR chemical shift assignments near physiological pH
Details
Publication Year 2009-06,Volume 19,Issue #3,Page 226-231
Journal Title
GROWTH HORMONE & IGF RESEARCH
Publication Type
Journal Article
Abstract
Objective: Insulin-like growth factor-I (IGF-I) plays important roles in normal growth and development, as well as in disease states, and its structure and function have been studied extensively using nuclear magnetic resonance (NMR) spectroscopy. However, IGF-I typically gives poor quality NMR spectra containing many broad peaks, because of aggregation at the protein concentrations generally required for NMR experiments as well as the internal dynamics of the molecule. The present study was undertaken to determine a reliable set of assignments under more physiological conditions. Design: Several reports of chemical shift assignments have been published previously for IGF-I either bound to a ligand or at relatively low pH (similar to 3-4), but there are many contradictions among them, reflecting the poor behaviour of IGF-I. Low pH conditions are also suboptimal for the analysis of interactions between IGF-I and IGF binding proteins (IGFBP) or IGFBP fragments. Spectra were recorded at low concentrations in order to identify conditions of temperature and pH where all peaks could be observed. Results: We show that good quality 2D (1)H-(15)N HSQC spectra of (15)N-labelled IGF-I can be obtained at pH 6 and 37 degrees C, much closer to physiological conditions, by using lower IGF-I concentrations (0.05 mM). Surprisingly, at this concentration and temperature, spectra were of better quality at pH 6 than at pH 4, in contrast to previous observations made at millimolar concentrations of IGF-I. We were then also able to assign the chemical shifts of IGF-I at pH 6 and 37 degrees C using 3D heteronuclear spectra recorded on a 0.7 mM (15)N/(13)C-labelled IGF-I sample. Conclusion: These results provide a valuable resource for future studies of the structure, dynamics, folding, and binding interactions of IGF-I, as well as analogues thereof, by means of NMR spectroscopy. (C) 2008 Elsevier Ltd. All rights reserved.
Publisher
CHURCHILL LIVINGSTONE
Keywords
NUCLEAR-MAGNETIC-RESONANCE; BINDING-PROTEIN INTERACTIONS; SECONDARY STRUCTURE; STRUCTURAL SWITCH; SPECTROSCOPY; RECEPTOR; DYNAMICS; DOMAIN; CHAIN; H-1-NMR
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Creation Date: 2009-06-01 12:00:00
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