NMR structure of a concatemer of the first and second ligand-binding modules of the human low-density lipoprotein receptor

NYOMAN D. KURNIAWAN; ANNETTE R. ATKINS; STEPHAN BIERI; CATHERINE J. BROWN; IAN M. BRERETON; PAULUS A. KROON; ROSS SMITH

doi:10.1110/ps.9.7.1282

Abstract

The ligand-binding domain of the human low-density lipoprotein receptor consists of seven modules, each of 40–45 residues. In the presence of calcium, these modules adopt a common polypeptide fold with three conserved disulfide bonds. A concatemer of the first and second modules (LB1–2) folds efficiently in the presence of calcium ions, forming the same disulfide connectivities as in the isolated modules. The three-dimensional structure of LB1–2 has now been solved using two-dimensional 1H NMR spectroscopy and restrained molecular dynamics calculations. No intermodule nuclear Overhauser effects were observed, indicating the absence of persistent interaction between them. The near random-coil NH and Hα chemical shifts and the low φ and ψ angle order parameters of the four-residue linker suggest that it has considerable flexibility. The family of LB1–2 structures superimposed well over LB1 or LB2, but not over both modules simultaneously. LB1 and LB2 have a similar pattern of calcium ligands, but the orientations of the indole rings of the tryptophan residues W23 and W66 differ, with the latter limiting solvent access to the calcium ion. From these studies, it appears that although most of the modules in the ligand-binding region of the receptor are joined by short segments, these linkers may impart considerable flexibility on this region.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Okun, Vadim M. Moser, Rosita Ronacher, Bernhard Kenndler, Ernst and Blaas, Dieter 2001. VLDL Receptor Fragments of Different Lengths Bind to Human Rhinovirus HRV2 with Different Stoichiometry. Journal of Biological Chemistry, Vol. 276, Issue. 2, p. 1057.

Kurniawan, Nyoman D. Aliabadizadeh, Khosrow Brereton, Ian M. Kroon, Paulus A. and Smith, Ross 2001. NMR structure and backbone dynamics of a concatemer of epidermal growth factor homology modules of the human low-density lipoprotein receptor. Journal of Molecular Biology, Vol. 311, Issue. 2, p. 341.

Jansens, Annemieke van Duijn, Esther and Braakman, Ineke 2002. Coordinated Nonvectorial Folding in a Newly Synthesized Multidomain Protein. Science, Vol. 298, Issue. 5602, p. 2401.

Reithmayer, Manuela Reischl, Andrea Snyers, Luc and Blaas, Dieter 2002. Species-Specific Receptor Recognition by a Minor-Group Human Rhinovirus (HRV): HRV Serotype 1A Distinguishes between the Murine and the Human Low-Density Lipoprotein Receptor. Journal of Virology, Vol. 76, Issue. 14, p. 6957.

Jeon, Hyesung and Blacklow, Stephen C 2003. An Intramolecular Spin of the LDL Receptor β Propeller. Structure, Vol. 11, Issue. 2, p. 133.

Machicado, C. Castillo, S. Bueno, M. Pocoví, M. and Sancho, J. 2003. Mutaciones del receptor de LDL que permiten considerar la hipercolesterolemia familiar dentro de las enfermedades del plegamiento de las proteínas. Clínica e Investigación en Arteriosclerosis, Vol. 15, Issue. 2, p. 59.

Rudenko, Gabby and Deisenhofer, Johann 2003. The low-density lipoprotein receptor: ligands, debates and lore. Current Opinion in Structural Biology, Vol. 13, Issue. 6, p. 683.

Li, Ankang Sadasivam, Murali and Ding, Jeak Ling 2003. Receptor-Ligand Interaction between Vitellogenin Receptor (VtgR) and Vitellogenin (Vtg), Implications on Low Density Lipoprotein Receptor and Apolipoprotein B/E. Journal of Biological Chemistry, Vol. 278, Issue. 5, p. 2799.

Neumann, Emmanuelle Moser, Rosita Snyers, Luc Blaas, Dieter and Hewat, Elizabeth A. 2003. A Cellular Receptor of Human Rhinovirus Type 2, the Very-Low-Density Lipoprotein Receptor, Binds to Two Neighboring Proteins of the Viral Capsid. Journal of Virology, Vol. 77, Issue. 15, p. 8504.

Beglova, N. Jeon, H. Fisher, C. and Blacklow, S.C. 2004. Structural features of the low-density lipoprotein receptor facilitating ligand binding and release. Biochemical Society Transactions, Vol. 32, Issue. 5, p. 721.

Beglova, Natalia Jeon, Hyesung Fisher, Carl and Blacklow, Stephen C. 2004. Cooperation between Fixed and Low pH-Inducible Interfaces Controls Lipoprotein Release by the LDL Receptor. Molecular Cell, Vol. 16, Issue. 2, p. 281.

Boswell, Emma J. Jeon, Hyesung Blacklow, Stephen C. and Downing, A. Kristina 2004. Global Defects in the Expression and Function of the Low Density Lipoprotein Receptor (LDLR) Associated with Two Familial Hypercholesterolemia Mutations Resulting in Misfolding of the LDLR Epidermal Growth Factor-AB Pair. Journal of Biological Chemistry, Vol. 279, Issue. 29, p. 30611.

Jeon, Hyesung and Blacklow, Stephen C. 2005. STRUCTURE AND PHYSIOLOGIC FUNCTION OF THE LOW-DENSITY LIPOPROTEIN RECEPTOR. Annual Review of Biochemistry, Vol. 74, Issue. 1, p. 535.

Beglova, Natalia and Blacklow, Stephen C. 2005. The LDL receptor: how acid pulls the trigger. Trends in Biochemical Sciences, Vol. 30, Issue. 6, p. 309.

Jensen, Gitte A. Andersen, Olav M. Bonvin, Alexandre M.J.J. Bjerrum-Bohr, Ida Etzerodt, Michael Thøgersen, Hans C. O'Shea, Charlotte Poulsen, Flemming M. and Kragelund, Birthe B. 2006. Binding Site Structure of One LRP–RAP Complex:Implications for a Common Ligand–Receptor Binding Motif. Journal of Molecular Biology, Vol. 362, Issue. 4, p. 700.

Nguyen, Anh T. Hirama, Tomoko Chauhan, Vinita MacKenzie, Roger and Milne, Ross 2006. Binding characteristics of a panel of monoclonal antibodies against the ligand binding domain of the human LDLr. Journal of Lipid Research, Vol. 47, Issue. 7, p. 1399.

Contreras-Alcantara, Susana Godby, Jesse A. and Delos, Sue E. 2006. The Single Ligand-binding Repeat of Tva, a Low Density Lipoprotein Receptor-related Protein, Contains Two Ligand-binding Surfaces. Journal of Biological Chemistry, Vol. 281, Issue. 32, p. 22827.

Roosendaal, Sigrid D. Kerver, Jana Schipper, Maria Rodenburg, Kees W. and Van der Horst, Dick J. 2008. The complex of the insect LDL receptor homolog, lipophorin receptor, LpR, and its lipoprotein ligand does not dissociate under endosomal conditions. The FEBS Journal, Vol. 275, Issue. 8, p. 1751.

Lillis, Anna P. Van Duyn, Lauren B. Murphy-Ullrich, Joanne E. and Strickland, Dudley K. 2008. LDL Receptor-Related Protein 1: Unique Tissue-Specific Functions Revealed by Selective Gene Knockout Studies. Physiological Reviews, Vol. 88, Issue. 3, p. 887.

Tufail, Muhammad and Takeda, Makio 2009. Insect vitellogenin/lipophorin receptors: Molecular structures, role in oogenesis, and regulatory mechanisms. Journal of Insect Physiology, Vol. 55, Issue. 2, p. 88.

Download full list

Article contents

NMR structure of a concatemer of the first and second ligand-binding modules of the human low-density lipoprotein receptor

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

NMR structure of a concatemer of the first and second ligand-binding modules of the human low-density lipoprotein receptor

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests