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1. Receptor-mediated exopolysaccharide perception controls bacterial infection

Author

Kawaharada, Y., Kelly, S., Nielsen, M. Wibroe, Hjuler, C.T., Gysel, K., Muszynski, A., Carlson, R.W., Thygesen, M.B., Sandal, N., Asmussen, M.H., Vinther, M., Andersen, S.U., Krusell, L., Thirup, S., Jensen, K.J., Ronson, C.W., Blaise, M., Radutoiu, S., and Stougaard, J.

Subjects
Genetic aspects -- Physiological aspects, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Surface polysaccharides are important for bacterial interactions with multicellular organisms, and some are virulence factors in pathogens. In the legume-rhizobium symbiosis, bacterial exopolysaccharides (EPS) are essential for the development of infected root nodules. We have identified a gene in Lotus japonicus, Epr3, encoding a receptor-like kinase that controls this infection. We show that epr3 mutants are defective in perception of purified EPS, and that EPR3 binds EPS directly and distinguishes compatible and incompatible EPS in bacterial competition studies. Expression of Epr3 in epidermal cells within the susceptible root zone shows that the protein is involved in bacterial entry, while rhizobial and plant mutant studies suggest that Epr3 regulates bacterial passage through the plant's epidermal cell layer. Finally, we show that Epr3 expression is inducible and dependent on host perception of bacterial nodulation (Nod) factors. Plant-bacterial compatibility and bacterial access to legume roots is thus regulated by a two-stage mechanism involving sequential receptor-mediated recognition of Nod factor and EPS signals., Bacteria display a variety of glycans on their surfaces. Capsular polysaccharides, lipopolysaccharides, cyclic glucans and exopolysaccharides (EPS) form an adaptable dynamic interface involved in, for example, cell-to-cell interactions, immune evasion, [...]

Published
2015
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2. Protein Engineering of Elongation Factor Tu

Author

Jensen, M., Mortensen, K. K., Petersen, H. U., la Cour, T. F. M., Nyborg, J., Kjeldgaard, M., Thirup, S., Clark, B. F. C., Grunberg-Manago, Marianne, editor, Clark, Brian F. C., editor, and Zachau, Hans G., editor

Published
1989
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8. Crystal structure of the receptor-binding domain of alpha 2-macroglobulin

Author

Lasse Jenner, Husted, L., Thirup, S., Sottrup-Jensen, L., and Nyborg, J.

Subjects
Models, Molecular, Protein Folding, Binding Sites, Factor XIII, Sequence Homology, Amino Acid, Molecular Sequence Data, Crystallography, X-Ray, LDL-Receptor Related Protein 1, Peptide Fragments, Protein Structure, Secondary, Receptors, LDL, Animals, Cattle, alpha-Macroglobulins, Amino Acid Sequence, Receptors, Immunologic
Abstract

Udgivelsesdato: 1998-May-15 BACKGROUND: The large plasma proteinase inhibitors of the alpha 2-macroglobulin superfamily inhibit proteinases by capturing them within a central cavity of the inhibitor molecule. After reaction with the proteinase, the alpha-macroglobulin-proteinase complex binds to the alpha-macroglobulin receptor, present in the liver and other tissues, and becomes endocytosed and rapidly removed from the circulation. The complex binds to the receptor via recognition sites located on a separate domain of approximately 138 residues positioned at the C terminus of the alpha-macroglobulin subunit. RESULTS: The crystal structure of the receptor-binding domain of bovine alpha 2-macroglobulin (bRBD) has been determined at a resolution of 1.9 A. The domain primarily comprises a nine-strand beta structure with a jelly-roll topology, but also contains two small alpha helices. CONCLUSIONS: The surface patch responsible for receptor recognition is thought to involve residues located on one of the two alpha helices of the bRBD as well as residues in two of the beta strands. Located on this alpha helix are two lysine residues that are important for receptor binding. The structure of bRBD is very similar to the approximately 100-residue C-terminal domain of factor XIII, a transglutaminase from the blood coagulation system.

Published
1998

9. Structure of the ternary complex of EF-Tu: macromolecular mimicry in translation

Author

Nyborg, J., Poul Nissen, Kjeldgaard, M., Thirup, S., Polekhina, G., and Clark, B. F.

Subjects
Models, Molecular, RNA, Transfer, Phe, Binding Sites, GTP-Binding Proteins, Macromolecular Substances, Protein Biosynthesis, Molecular Mimicry, Guanosine Triphosphate, Peptide Elongation Factor Tu, Guanosine Diphosphate, Protein Structure, Secondary
Abstract

Udgivelsesdato: 1996-Mar

Published
1996

10. ykud from B.subtilis

Author

Blaise, M., primary, Fuglsang Midtgaard, S., additional, Roi Midtgaard, S., additional, Boesen, T., additional, and Thirup, S., additional

Published
2012
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11. Ykud L,D-transpeptidase

Author

Blaise, M., primary, Fuglsang Midtgaard, S., additional, Roi Midtgaard, S., additional, Boesen, T., additional, and Thirup, S., additional

Published
2012
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20. Functional effects of deleting the coiled-coil motif in Escherichia coli elongation factor Ts.

Author

Karring, Henrik, Björnsson, Asgeir, Thirup, S&oaslash;ren, Clark, Brian F., and Knudsen, Charlotte R.

Subjects
ESCHERICHIA coli, BIOCHEMISTRY
Abstract

Elongation factor Ts (EF-Ts) is the guanine nucleotide-exchange factor for elongation factor Tu (EF-Tu) that is responsible for promoting the binding of aminoacyl-tRNA to the mRNA-programmed ribosome. The structure of the Escherichia coli EF-Tu–EF-Ts complex reveals a protruding antiparallel coiled-coil motif in EF-Ts, which is responsible for the dimerization of EF-Ts in the crystal. In this study, the sequence encoding the coiled-coil motif in EF-Ts was deleted from the genome in Escherichia coli by gene replacement. The growth rate of the resulting mutant strain was 70–95% of that of the wild-type strain, depending on the growth conditions used. The mutant strain sensed amino acid starvation and synthesized the nucleotides guanosine 5′-diphosphate 3′-diphosphate and guanosine 5′-triphosphate 3′-diphosphate at a lower cell density than the wild-type strain. Deletion of the coiled-coil motif only partially reduced the ability of EF-Ts to stimulate the guanine nucleotide exchange in EF-Tu. However, the concentration of guanine nucleotides (GDP and GTP) required to dissociate the mutant EF-Tu–EF-Ts complex was at least two orders of magnitude lower than that for the wild-type complex. The results show that the coiled-coil motif plays a significant role in the ability of EF-Ts to compete with guanine nucleotides for the binding to EF-Tu. The present results also indicate that the deletion alters the competition between EF-Ts and kirromycin for the binding to EF-Tu. [ABSTRACT FROM AUTHOR]

Published
2003
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23. Using known substructures in protein model building and crystallography.

Author

Jones, T.A. and Thirup, S.

Abstract

Retinol binding protein can be constructed from a small number of large substructures taken from three unrelated proteins. The known structures are treated as a knowledge base from which one extracts information to be used in molecular modelling when lacking true atomic resolution. This includes the interpretation of electron density maps and modelling homologous proteins. Models can be built into maps more accurately and more quickly. This requires the use of a skeleton representation for the electron density which improves the determination of the initial chain tracing. Fragment‐matching can be used to bridge gaps for inserted residues when modelling homologous proteins.

Published
1986
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24. Structural details of the binding of guanosine diphosphate to elongation factor Tu from E. coli as studied by X‐ray crystallography.

Author

la Cour, T.F., Nyborg, J., Thirup, S., and Clark, B.F.

Abstract

Structural details of the guanosine diphosphate binding to a modified form of elongation factor Tu from Escherichia coli, resulting from X‐ray crystallographic studies, are reported. The protein elements that take part in the nucleotide binding are located in four loops connecting beta‐strands with alpha‐helices. These loops correspond to regions in primary sequences which show a high degree of homology when compared with other prokaryotic and eukaryotic elongation factors and initiation factor 2.

Published
1985
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25. Structural details of the binding of guanosine diphosphate to elongation factor Tu from E. coli as studied by X‐ray crystallography.

Author

Cour, T.F., Nyborg, J., Thirup, S., and Clark, B.F.

Abstract

Structural details of the guanosine diphosphate binding to a modified form of elongation factor Tu from Escherichia coli, resulting from X‐ray crystallographic studies, are reported. The protein elements that take part in the nucleotide binding are located in four loops connecting beta‐strands with alpha‐helices. These loops correspond to regions in primary sequences which show a high degree of homology when compared with other prokaryotic and eukaryotic elongation factors and initiation factor 2.

Published
1985
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27. Crystallisation and preliminary X-ray analysis of the receptor-binding domain of human and bovine alpha 2-macroglobulin

Author

Dolmer, K., Lasse Bohl Jenner, Jacobsen, L., Gregers Rom Andersen, Koch, T. J., Thirup, S., Sottrup-Jensen, L., and Nyborg, J.

Subjects
Binding Sites, Molecular Sequence Data, Crystallography, X-Ray, LDL-Receptor Related Protein 1, Peptide Fragments, Receptors, LDL, Animals, Humans, Cattle, alpha-Macroglobulins, Amino Acid Sequence, Receptors, Immunologic, Crystallization, Sequence Alignment
Abstract

Udgivelsesdato: 1995-Sep-18 The receptor-binding domains (RBDs) of human and bovine alpha 2-macroglobulin (alpha 2M) have been isolated after limited proteolysis of methylamine-treated alpha 2M with papain. Single crystals of the RBDs have been grown by vapour diffusion. Crystals of human RBD are very thin plates unsuited for data collection. However, crystals of RBD from bovine alpha 2M give diffraction patterns suitable for X-ray analysis, and a complete dataset with a maximum resolution of 2.3 A has been collected with synchrotron radiation at cryogenic temperature. The crystals belong to spacegroup P3(1)21 or P3(2)21 with cell parameters a = b = 106.8 A, c = 72.2 A.

28. Crystallization and preliminary X-ray analysis of methylamine-treated alpha 2-macroglobulin and 3 alpha 2-macroglobulin-proteinase complexes

Author

Gregers Rom Andersen, Jacobsen, L., Thirup, S., Nyborg, J., and Sottrup-Jensen, L.

Subjects
X-Ray Diffraction, Endopeptidases, Humans, alpha-Macroglobulins, Crystallization
Abstract

Udgivelsesdato: 1991-Nov-4 Crystals of methylamine-treated alpha 2-macroglobulin (alpha 2M-MA), alpha 2-macroglobulin in complex with two molecules of trypsin, alpha 2M-T2, one molecule of plasmin, alpha 2M-PL, and one molecule of plasmin followed by methylamine-treatment, alpha 2M-PL(MA), have reproducibly been obtained using ammonium sulfate or magnesium sulfate as precipitants. The crystals are fragile tetragonal bipyramids of up to 1.5 mm in length. Crystals of alpha 2M-MA diffracted to at least 9 A resolution, crystals of alpha 2M-T2 diffracted to 10 A resolution and crystals of alpha 2M-PL and alpha 2M-PL(MA) diffracted to 11 A resolution. For alpha 2M-MA the cell parameters were determined as: a=b=257 A, c=555 A; and for alpha 2M-T2 as: a=b=247 A, c=559 A. For both preparations the space group was I4(1)22. As estimated from density measurements, the crystals of alpha 2M-MA and alpha 2M-T2 contain one 360 kDa alpha 2M dimer per asymmetric unit. The volume of the asymmetric unit/molecular weight, Vm, was estimated at 5.6 A3/Da. The crystal parameters of alpha 2M-PL and alpha 2M-PL(MA) were not determined.

29. Helix unwinding in the effector region of elongation factor EF-Tu-GDP

Author

Polekhina, G., Thirup, S., Kjeldgaard, M., Poul Nissen, Lippmann, C., and Nyborg, J.

Subjects
Models, Molecular, Binding Sites, Crystallography, Bacterial Proteins, Species Specificity, Molecular Sequence Data, Escherichia coli, Computer Simulation, Peptide Elongation Factor Tu, Thermus, Guanosine Diphosphate, Protein Structure, Secondary
Abstract

Udgivelsesdato: 1996-Oct-15 BACKGROUND: Elongation factor Tu (EF-Tu) in its GTP conformation is a carrier of aminoacylated tRNAs (aa-tRNAs) to the ribosomal A site during protein biosynthesis. The ribosome triggers GTP hydrolysis, resulting in the dissociation of EF-Tu-GDP from the ribosome. The affinity of EF-Tu for other molecules involved in this process, some of which are unknown, is regulated by two regions (Switch I and Switch II) that have different conformations in the GTP and GDP forms. The structure of the GDP form of EF-Tu is known only as a trypsin-modified fragment, which lacks the Switch I, or effector, domain. The aim of this work was to establish the overall structure of intact EF-Tu-GDP, in particular the structure of the effector domain. RESULTS: The crystal structures of intact EF-Tu-GDP from Thermus aquaticus and Escherichia coli have been determined at resolutions of 2.7 A and 3.8 A, respectively. The structures confirm the domain orientation previously found in the structure of partially trypsin-digested EF-Tu-GDP. The structures of the effector region in T. aquaticus and E. coli EF-Tu-GDP are very similar. The C-terminal part of the effector region of EF-Tu-GDP is a beta hairpin; in EF-Tu-GTP, this region forms an alpha helix. This conformational change is not a consequence of crystal packing. CONCLUSIONS: EF-Tu undergoes major conformational changes upon GTP hydrolysis. Unlike other GTP-binding proteins, EF-Tu exhibits a dramatic conformational change in the effector region, involving an unwinding of a small helix and the formation of a beta hairpin structure. This change is presumably involved in triggering the release of tRNA, and EF-Tu, from the ribosome.

30. Crystallization of proteins of the alpha 2-macroglobulin superfamily

Author

Gregers Rom Andersen, Koch, T., Sørensen, A. H., Thirup, S., Nyborg, J., Dolmer, K., Jacobsen, L., and Sottrup-Jensen, L.

Subjects
Macroglobulins, Multigene Family, Complement C3b, Animals, Humans, alpha-Macroglobulins, Complement C3, Crystallography, X-Ray, Rats
Abstract

Udgivelsesdato: 1994-Sep-10

34. Carbamylated sortilin associates with cardiovascular calcification in patients with chronic kidney disease.

Author

Jankowski V, Saritas T, Kjolby M, Hermann J, Speer T, Himmelsbach A, Mahr K, Heuschkel MA, Schunk SJ, Thirup S, Winther S, Bottcher M, Nyegard M, Nykjaer A, Kramann R, Kaesler N, Jankowski J, Floege J, Marx N, and Goettsch C

Subjects
Adaptor Proteins, Vesicular Transport, Humans, Protein Carbamylation, Protein Processing, Post-Translational, Renal Insufficiency, Chronic, Vascular Calcification etiology
Abstract

Sortilin, an intracellular sorting receptor, has been identified as a cardiovascular risk factor in the general population. Patients with chronic kidney disease (CKD) are highly susceptible to develop cardiovascular complications such as calcification. However, specific CKD-induced posttranslational protein modifications of sortilin and their link to cardiovascular calcification remain unknown. To investigate this, we examined two independent CKD cohorts for carbamylation of circulating sortilin and detected increased carbamylated sortilin lysine residues in the extracellular domain of sortilin with kidney function decline using targeted mass spectrometry. Structure analysis predicted altered ligand binding by carbamylated sortilin, which was verified by binding studies using surface plasmon resonance measurement, showing an increased affinity of interleukin 6 to in vitro carbamylated sortilin. Further, carbamylated sortilin increased vascular calcification in vitro and ex vivo that was accelerated by interleukin 6. Imaging by mass spectrometry of human calcified arteries revealed in situ carbamylated sortilin. In patients with CKD, sortilin carbamylation was associated with coronary artery calcification, independent of age and kidney function. Moreover, patients with carbamylated sortilin displayed significantly faster progression of coronary artery calcification than patients without sortilin carbamylation. Thus, carbamylated sortilin may be a risk factor for cardiovascular calcification and may contribute to elevated cardiovascular complications in patients with CKD., (Copyright © 2021 International Society of Nephrology. Published by Elsevier Inc. All rights reserved.)

Published
2022
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35. Crystal and solution structures of fragments of the human leucocyte common antigen-related protein.

Author

Vilstrup J, Simonsen A, Birkefeldt T, Strandbygård D, Lyngsø J, Pedersen JS, and Thirup S

Subjects
Binding Sites, Fondaparinux chemistry, Heparin, Humans, Protein Binding, Protein Domains, Receptor-Like Protein Tyrosine Phosphatases, Class 2 chemistry, Tinzaparin chemistry
Abstract

Leucocyte common antigen-related protein (LAR) is a post-synaptic type I transmembrane receptor protein that is important for neuronal functionality and is genetically coupled to neuronal disorders such as attention deficit hyperactivity disorder (ADHD). To understand the molecular function of LAR, structural and biochemical studies of protein fragments derived from the ectodomain of human LAR have been performed. The crystal structure of a fragment encompassing the first four FNIII domains (LAR FN1-4 ) showed a characteristic L shape. SAXS data suggested limited flexibility within LAR FN1-4 , while rigid-body refinement of the SAXS data using the X-ray-derived atomic model showed a smaller angle between the domains defining the L shape compared with the crystal structure. The capabilities of the individual LAR fragments to interact with heparin was examined using microscale thermophoresis and heparin-affinity chromatography. The results showed that the three N-terminal immunoglobulin domains (LAR Ig1-3 ) and the four C-terminal FNIII domains (LAR FN5-8 ) both bound heparin, while LAR FN1-4 did not. The low-molecular-weight heparin drug Innohep induced a shift in hydrodynamic volume as assessed by size-exclusion chromatography of LAR Ig1-3 and LAR FN5-8 , while the chemically defined pentameric heparin drug Arixtra did not. Together, the presented results suggest the presence of an additional heparin-binding site in human LAR.

Published
2020
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36. A Lotus japonicus cytoplasmic kinase connects Nod factor perception by the NFR5 LysM receptor to nodulation.

Author

Wong JEMM, Nadzieja M, Madsen LH, Bücherl CA, Dam S, Sandal NN, Couto D, Derbyshire P, Uldum-Berentsen M, Schroeder S, Schwämmle V, Nogueira FCS, Asmussen MH, Thirup S, Radutoiu S, Blaise M, Andersen KR, Menke FLH, Zipfel C, and Stougaard J

Subjects
Cytoplasm enzymology, Fabaceae genetics, Fabaceae growth & development, Fabaceae microbiology, Gene Expression Regulation, Plant genetics, Lotus growth & development, Lotus microbiology, Phosphotransferases genetics, Plant Roots genetics, Plant Roots microbiology, Plants, Genetically Modified genetics, Plants, Genetically Modified growth & development, Rhizobium genetics, Rhizobium growth & development, Root Nodules, Plant genetics, Root Nodules, Plant growth & development, Root Nodules, Plant microbiology, Nicotiana genetics, Nicotiana growth & development, Nicotiana microbiology, Lipopolysaccharides genetics, Lotus genetics, Plant Root Nodulation genetics, Symbiosis genetics
Abstract

The establishment of nitrogen-fixing root nodules in legume-rhizobia symbiosis requires an intricate communication between the host plant and its symbiont. We are, however, limited in our understanding of the symbiosis signaling process. In particular, how membrane-localized receptors of legumes activate signal transduction following perception of rhizobial signaling molecules has mostly remained elusive. To address this, we performed a coimmunoprecipitation-based proteomics screen to identify proteins associated with Nod factor receptor 5 (NFR5) in Lotus japonicus. Out of 51 NFR5-associated proteins, we focused on a receptor-like cytoplasmic kinase (RLCK), which we named NFR5-interacting cytoplasmic kinase 4 (NiCK4). NiCK4 associates with heterologously expressed NFR5 in Nicotiana benthamiana , and directly binds and phosphorylates the cytoplasmic domains of NFR5 and NFR1 in vitro. At the cellular level, Nick4 is coexpressed with Nfr5 in root hairs and nodule cells, and the NiCK4 protein relocates to the nucleus in an NFR5/NFR1-dependent manner upon Nod factor treatment. Phenotyping of retrotransposon insertion mutants revealed that NiCK4 promotes nodule organogenesis. Together, these results suggest that the identified RLCK, NiCK4, acts as a component of the Nod factor signaling pathway downstream of NFR5., Competing Interests: The authors declare no conflict of interest., (Copyright © 2019 the Author(s). Published by PNAS.)

Published
2019
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37. Hidden Twins: SorCS Neuroreceptors Form Stable Dimers.

Author

Januliene D, Manavalan A, Ovesen PL, Pedersen KM, Thirup S, Nykjær A, and Moeller A

Subjects
Immunoprecipitation, Microscopy, Electron, Nerve Tissue Proteins, Protein Processing, Post-Translational, Protein Multimerization, Receptors, Cell Surface chemistry, Receptors, Cell Surface metabolism, Receptors, Neuropeptide chemistry, Receptors, Neuropeptide metabolism
Abstract

SorCS1, SorCS2 and SorCS3 belong to the Vps10p-domain family of multiligand receptors. Genetic and functional studies have linked SorCS receptors to psychiatric disorders, Alzheimer's disease and type 2 diabetes, demonstrating critical roles in neuronal functionality and metabolic control. Surprisingly, their structural composition has so far not been studied. Here we have characterized SorCS1, SorCS2 and SorCS3 using biochemical methods and electron microscopy. We found that their purified extracellular domains co-exist in stable dimeric and monomeric populations. This was supported by co-immunoprecipitation experiments, where membrane-bound dimers were successfully pulled down from cell lysate. While dimers were virtually unbreakable, dimerization of the monomeric population was promoted through enzymatic deglycosylation. We conclude that post-translational modifications, specifically the degree and pattern of glycosylation, regulate the oligomeric state of the protein. Hence, cells may dictate ligand specificity by controlling the ratio between monomers and dimers and, therefore, regulate the multiple functions of SorCS receptors., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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38. Heparan sulfate proteoglycans present PCSK9 to the LDL receptor.

Author

Gustafsen C, Olsen D, Vilstrup J, Lund S, Reinhardt A, Wellner N, Larsen T, Andersen CBF, Weyer K, Li JP, Seeberger PH, Thirup S, Madsen P, and Glerup S

Subjects
Antibodies pharmacology, Binding Sites, Enzyme Inhibitors pharmacology, Hep G2 Cells, Heparin chemistry, Heparin pharmacology, Hepatocytes metabolism, Humans, PCSK9 Inhibitors, Proprotein Convertase 9 chemistry, Proprotein Convertase 9 genetics, Proteolysis, Heparan Sulfate Proteoglycans metabolism, Proprotein Convertase 9 metabolism, Receptors, LDL metabolism
Abstract

Coronary artery disease is the main cause of death worldwide and accelerated by increased plasma levels of cholesterol-rich low-density lipoprotein particles (LDL). Circulating PCSK9 contributes to coronary artery disease by inducing lysosomal degradation of the LDL receptor (LDLR) in the liver and thereby reducing LDL clearance. Here, we show that liver heparan sulfate proteoglycans are PCSK9 receptors and essential for PCSK9-induced LDLR degradation. The heparan sulfate-binding site is located in the PCSK9 prodomain and formed by surface-exposed basic residues interacting with trisulfated heparan sulfate disaccharide repeats. Accordingly, heparan sulfate mimetics and monoclonal antibodies directed against the heparan sulfate-binding site are potent PCSK9 inhibitors. We propose that heparan sulfate proteoglycans lining the hepatocyte surface capture PCSK9 and facilitates subsequent PCSK9:LDLR complex formation. Our findings provide new insights into LDL biology and show that targeting PCSK9 using heparan sulfate mimetics is a potential therapeutic strategy in coronary artery disease.PCSK9 interacts with LDL receptor, causing its degradation, and consequently reduces the clearance of LDL. Here, Gustafsen et al. show that PCSK9 interacts with heparan sulfate proteoglycans and this binding favors LDLR degradation. Pharmacological inhibition of this binding can be exploited as therapeutic intervention to lower LDL levels.

Published
2017
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39. The identification of novel acid isostere based inhibitors of the VPS10P family sorting receptor Sortilin.

Author

Andersen JL, Lindberg S, Langgård M, Maltas PJ, Rønn LCB, Bundgaard C, Strandbygaard D, Thirup S, and Watson SP

Subjects
Adaptor Proteins, Vesicular Transport metabolism, Binding Sites, Crystallography, X-Ray, Drug Design, Humans, Inhibitory Concentration 50, Molecular Dynamics Simulation, Protein Structure, Tertiary, Structure-Activity Relationship, Triazoles metabolism, Adaptor Proteins, Vesicular Transport antagonists & inhibitors, Triazoles chemistry
Abstract

Using fragment based and structure based drug discovery strategies a series of novel Sortilin inhibitors has been identified. The inhibitors are based on the N-substituted 1,2,3-triazol-4-one/ol heterocyclic template. X-ray crystallography shows that the 1,2,3-triazol-4-one/ol acts as a carboxylic acid isostere, making a bi-dentate interaction with an arginine residue of Sortilin, an interaction which has not been previously characterised for this heterocycle., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2017
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40. An intermolecular binding mechanism involving multiple LysM domains mediates carbohydrate recognition by an endopeptidase.

Author

Wong JE, Midtgaard SR, Gysel K, Thygesen MB, Sørensen KK, Jensen KJ, Stougaard J, Thirup S, and Blaise M

Subjects
Bacterial Proteins genetics, Endopeptidases genetics, Protein Structure, Quaternary, Protein Structure, Tertiary, Thermus thermophilus genetics, Bacterial Proteins chemistry, Endopeptidases chemistry, Models, Molecular, Thermus thermophilus enzymology
Abstract

LysM domains, which are frequently present as repetitive entities in both bacterial and plant proteins, are known to interact with carbohydrates containing N-acetylglucosamine (GlcNAc) moieties, such as chitin and peptidoglycan. In bacteria, the functional significance of the involvement of multiple LysM domains in substrate binding has so far lacked support from high-resolution structures of ligand-bound complexes. Here, a structural study of the Thermus thermophilus NlpC/P60 endopeptidase containing two LysM domains is presented. The crystal structure and small-angle X-ray scattering solution studies of this endopeptidase revealed the presence of a homodimer. The structure of the two LysM domains co-crystallized with N-acetyl-chitohexaose revealed a new intermolecular binding mode that may explain the differential interaction between LysM domains and short or long chitin oligomers. By combining the structural information with the three-dimensional model of peptidoglycan, a model suggesting how protein dimerization enhances the recognition of peptidoglycan is proposed.

Published
2015
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41. Identification of the first small-molecule ligand of the neuronal receptor sortilin and structure determination of the receptor-ligand complex.

Author

Andersen JL, Schrøder TJ, Christensen S, Strandbygård D, Pallesen LT, García-Alai MM, Lindberg S, Langgård M, Eskildsen JC, David L, Tagmose L, Simonsen KB, Maltas PJ, Rønn LC, de Jong IE, Malik IJ, Egebjerg J, Karlsson JJ, Uppalanchi S, Sakumudi DR, Eradi P, Watson SP, and Thirup S

Subjects
Adaptor Proteins, Vesicular Transport genetics, Binding Sites, Crystallization, Crystallography, X-Ray, HEK293 Cells, Humans, Leucine chemistry, Ligands, Neurotensin chemistry, Phenylalanine chemistry, Recombinant Proteins chemistry, Recombinant Proteins genetics, Structure-Activity Relationship, Adaptor Proteins, Vesicular Transport antagonists & inhibitors, Adaptor Proteins, Vesicular Transport chemistry, Coumarins chemistry, Leucine analogs & derivatives, Small Molecule Libraries chemistry
Abstract

Sortilin is a type I membrane glycoprotein belonging to the vacuolar protein sorting 10 protein (Vps10p) family of sorting receptors and is most abundantly expressed in the central nervous system. Sortilin has emerged as a key player in the regulation of neuronal viability and has been implicated as a possible therapeutic target in a range of disorders. Here, the identification of AF40431, the first reported small-molecule ligand of sortilin, is reported. Crystals of the sortilin-AF40431 complex were obtained by co-crystallization and the structure of the complex was solved to 2.7 Å resolution. AF40431 is bound in the neurotensin-binding site of sortilin, with the leucine moiety of AF40431 mimicking the binding mode of the C-terminal leucine of neurotensin and the 4-methylumbelliferone moiety of AF40431 forming π-stacking with a phenylalanine.

Published
2014
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42. Cooperative binding of LysM domains determines the carbohydrate affinity of a bacterial endopeptidase protein.

Author

Wong JE, Alsarraf HM, Kaspersen JD, Pedersen JS, Stougaard J, Thirup S, and Blaise M

Subjects
Bacillus subtilis metabolism, Bacterial Proteins genetics, Chitin metabolism, Mucoproteins metabolism, Peptidoglycan metabolism, Protein Structure, Tertiary, Bacterial Proteins chemistry, Bacterial Proteins metabolism
Abstract

Cellulose, chitin and peptidoglycan are major long-chain carbohydrates in living organisms, and constitute a substantial fraction of the biomass. Characterization of the biochemical basis of dynamic changes and degradation of these β,1-4-linked carbohydrates is therefore important for both functional studies of biological polymers and biotechnology. Here, we investigated the functional role of multiplicity of the carbohydrate-binding lysin motif (LysM) domain that is found in proteins involved in bacterial peptidoglycan synthesis and remodelling. The Bacillus subtilis peptidoglycan-hydrolysing NlpC/P60 D,L-endopeptidase, cell wall-lytic enzyme associated with cell separation, possesses four LysM domains. The contribution of each LysM domain was determined by direct carbohydrate-binding studies in aqueous solution with microscale thermophoresis. We found that bacterial LysM domains have affinity for N-acetylglucosamine (GlcNac) polymers in the lower-micromolar range. Moreover, we demonstrated that a single LysM domain is able to bind carbohydrate ligands, and that LysM domains act additively to increase the binding affinity. Our study reveals that affinity for GlcNAc polymers correlates with the chain length of the carbohydrate, and suggests that binding of long carbohydrates is mediated by LysM domain cooperativity. We also show that bacterial LysM domains, in contrast to plant LysM domains, do not discriminate between GlcNAc polymers, and recognize both peptidoglycan fragments and chitin polymers with similar affinity. Finally, an Ala replacement study suggested that the carbohydrate-binding site in LysM-containing proteins is conserved across phyla., (© 2013 FEBS.)

Published
2014
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43. The identification of AF38469: an orally bioavailable inhibitor of the VPS10P family sorting receptor Sortilin.

Author

Schrøder TJ, Christensen S, Lindberg S, Langgård M, David L, Maltas PJ, Eskildsen J, Jacobsen J, Tagmose L, Simonsen KB, Biilmann Rønn LC, de Jong IE, Malik IJ, Karlsson JJ, Bundgaard C, Egebjerg J, Stavenhagen JB, Strandbygård D, Thirup S, Andersen JL, Uppalanchi S, Pervaram S, Kasturi SP, Eradi P, Sakumudi DR, and Watson SP

Subjects
Administration, Oral, Animals, Biological Availability, Crystallography, X-Ray, Dose-Response Relationship, Drug, High-Throughput Screening Assays, Hydrocarbons, Fluorinated chemical synthesis, Hydrocarbons, Fluorinated chemistry, Models, Molecular, Molecular Structure, Pyridines chemical synthesis, Pyridines chemistry, Rats, Structure-Activity Relationship, Adaptor Proteins, Vesicular Transport antagonists & inhibitors, Hydrocarbons, Fluorinated pharmacology, Pyridines pharmacology
Abstract

The identification of the novel, selective, orally bioavailable Sortilin inhibitor AF38469 is described. Structure-activity relationships and syntheses are reported, along with an X-ray crystal structure of the sortilin-AF38469 protein-inhibitor complex., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2014
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44. Up, down, and around: identifying recurrent interactions within and between super-secondary structures in β-propellers.

Author

Thirup S, Gupta V, and Quistgaard EM

Subjects
Amino Acid Sequence, Computational Biology methods, Databases, Protein, Molecular Sequence Data, Protein Binding, Protein Structure, Secondary, Sequence Alignment, Amino Acid Motifs, Models, Molecular, Protein Interaction Domains and Motifs, Proteins chemistry
Abstract

The examination and analysis of super-secondary structures or other specific structural patterns associated with particular functions, sequence motifs, or structural contexts require that the set of structures examined shares the same feature. This seems obvious but in practice this may often present problems such as identifying complete sets of data avoiding false positives. In the case of the β-propeller structures the symmetry of the propeller creates problems for many structure similarity search programs. Here we present a procedure that will identify propeller structures in PDB and assign them to the different N-propeller types. In addition we outline methods to examine similarities and differences within and between the four stranded up-and-down blades of the β-propeller.

Published
2013
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45. Legume receptors perceive the rhizobial lipochitin oligosaccharide signal molecules by direct binding.

Author

Broghammer A, Krusell L, Blaise M, Sauer J, Sullivan JT, Maolanon N, Vinther M, Lorentzen A, Madsen EB, Jensen KJ, Roepstorff P, Thirup S, Ronson CW, Thygesen MB, and Stougaard J

Subjects
Amino Acid Motifs, Binding Sites, Fabaceae microbiology, Kinetics, Ligands, Mass Spectrometry methods, Models, Biological, Mucoproteins chemistry, Phosphorylation, Plant Proteins metabolism, Plants microbiology, Polysaccharides chemistry, Protein Binding, Symbiosis, Fabaceae metabolism, Oligosaccharides chemistry, Rhizobium metabolism
Abstract

Lipochitin oligosaccharides called Nod factors function as primary rhizobial signal molecules triggering legumes to develop new plant organs: root nodules that host the bacteria as nitrogen-fixing bacteroids. Here, we show that the Lotus japonicus Nod factor receptor 5 (NFR5) and Nod factor receptor 1 (NFR1) bind Nod factor directly at high-affinity binding sites. Both receptor proteins were posttranslationally processed when expressed as fusion proteins and extracted from purified membrane fractions of Nicotiana benthamiana or Arabidopsis thaliana. The N-terminal signal peptides were cleaved, and NFR1 protein retained its in vitro kinase activity. Processing of NFR5 protein was characterized by determining the N-glycosylation patterns of the ectodomain. Two different glycan structures with identical composition, Man(3)XylFucGlcNAc(4), were identified by mass spectrometry and located at amino acid positions N68 and N198. Receptor-ligand interaction was measured by using ligands that were labeled or immobilized by application of chemoselective chemistry at the anomeric center. High-affinity ligand binding was demonstrated with both solid-phase and free solution techniques. The K(d) values obtained for Nod factor binding were in the nanomolar range and comparable to the concentration range sufficient for biological activity. Structure-dependent ligand specificity was shown by using chitin oligosaccharides. Taken together, our results suggest that ligand recognition through direct ligand binding is a key step in the receptor-mediated activation mechanism leading to root nodule development in legumes.

Published
2012
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46. Crystal structure of the TLDc domain of oxidation resistance protein 2 from zebrafish.

Author

Blaise M, Alsarraf HM, Wong JE, Midtgaard SR, Laroche F, Schack L, Spaink H, Stougaard J, and Thirup S

Subjects
Amino Acid Sequence, Animals, Crystallography, X-Ray, Cysteine chemistry, Cysteine metabolism, Humans, Mice, Mitochondrial Proteins, Models, Molecular, Molecular Sequence Data, Nuclear Receptor Coactivators chemistry, Oxidation-Reduction, Protein Structure, Tertiary, Proteins chemistry, Sequence Alignment, Sequence Homology, Amino Acid, Zebrafish Proteins metabolism, Zebrafish metabolism, Zebrafish Proteins chemistry
Abstract

The oxidation resistance proteins (OXR) help to protect eukaryotes from reactive oxygen species. The sole C-terminal domain of the OXR, named TLDc is sufficient to perform this function. However, the mechanism by which oxidation resistance occurs is poorly understood. We present here the crystal structure of the TLDc domain of the oxidation resistance protein 2 from zebrafish. The structure was determined by X-ray crystallography to atomic resolution (0.97Å) and adopts an overall globular shape. Two antiparallel β-sheets form a central β-sandwich, surrounded by two helices and two one-turn helices. The fold shares low structural similarity to known structures., (Copyright © 2012 Wiley Periodicals, Inc.)

Published
2012
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47. Purification, crystallization and preliminary crystallographic studies of the TLDc domain of oxidation resistance protein 2 from zebrafish.

Author

Alsarraf HM, Laroche F, Spaink H, Thirup S, and Blaise M

Subjects
Animals, Carrier Proteins isolation & purification, Crystallization, Crystallography, X-Ray, Models, Molecular, Protein Structure, Tertiary, Zebrafish Proteins isolation & purification, Carrier Proteins chemistry, Zebrafish, Zebrafish Proteins chemistry
Abstract

Cell metabolic processes are constantly producing reactive oxygen species (ROS), which have deleterious effects by triggering, for example, DNA damage. Numerous enzymes such as catalase, and small compounds such as vitamin C, provide protection against ROS. The TLDc domain of the human oxidation resistance protein has been shown to be able to protect DNA from oxidative stress; however, its mechanism of action is still not understood and no structural information is available on this domain. Structural information on the TLDc domain may therefore help in understanding exactly how it works. Here, the purification, crystallization and preliminary crystallographic studies of the TLDc domain from zebrafish are reported. Crystals belonging to the orthorhombic space group P2(1)2(1)2 were obtained and diffracted to 0.97 Å resolution. Selenomethionine-substituted protein could also be crystallized; these crystals diffracted to 1.1 Å resolution and the structure could be solved by SAD/MAD methods., (© 2011 International Union of Crystallography. All rights reserved.)

Published
2011
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48. Crystallization of Escherichia coli maltoporin in the trigonal space group R3.

Author

Blaise M and Thirup S

Subjects
Crystallization methods, Crystallography, X-Ray, Glucosides chemistry, Molecular Sequence Data, Bacterial Outer Membrane Proteins chemistry, Escherichia coli chemistry, Escherichia coli Proteins chemistry, Porins chemistry, Protein Conformation, Receptors, Virus chemistry
Abstract

Maltoporin is an outer-membrane protein that forms a β-barrel composed of three monomers and ensures the transport of maltose and maltodextrin in Gram-negative bacteria. Previously, the crystallization of Escherichia coli or Salmonella typhimurium maltoporin has been achieved in the presence of a mixture of the detergents β-decylmaltoside and dodecyl nonaoxyethylene. These crystals all belonged to the orthorhombic space group C222(1) and gave rise to several structures of maltoporin in complex with different carbohydrates determined at resolutions between 3.2 and 2.4 Å. Here, the crystallization of E. coli maltoporin in a new crystal form is reported; the crystals belonged to the trigonal R3 space group and diffracted to 1.9 Å resolution. These crystals were obtained using n-dodecyl-β-D-maltoside as a detergent. Crystals with a lens or pyramidal morphology could be obtained using sitting or hanging drops, respectively, and despite their very different shapes they presented the same space group and very similar unit-cell parameters.

Published
2011
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49. Crystal structure of a transfer-ribonucleoprotein particle that promotes asparagine formation.

Author

Blaise M, Bailly M, Frechin M, Behrens MA, Fischer F, Oliveira CL, Becker HD, Pedersen JS, Thirup S, and Kern D

Subjects
Crystallization, Nitrogenous Group Transferases metabolism, Protein Conformation, Ribonucleoproteins isolation & purification, Ribonucleoproteins metabolism, Thermus thermophilus metabolism, Transfer RNA Aminoacylation, Asparagine biosynthesis, RNA, Transfer, Asn metabolism, Ribonucleoproteins chemistry
Abstract

Four out of the 22 aminoacyl-tRNAs (aa-tRNAs) are systematically or alternatively synthesized by an indirect, two-step route requiring an initial mischarging of the tRNA followed by tRNA-dependent conversion of the non-cognate amino acid. During tRNA-dependent asparagine formation, tRNA(Asn) promotes assembly of a ribonucleoprotein particle called transamidosome that allows channelling of the aa-tRNA from non-discriminating aspartyl-tRNA synthetase active site to the GatCAB amidotransferase site. The crystal structure of the Thermus thermophilus transamidosome determined at 3 A resolution reveals a particle formed by two GatCABs, two dimeric ND-AspRSs and four tRNAs(Asn) molecules. In the complex, only two tRNAs are bound in a functional state, whereas the two other ones act as an RNA scaffold enabling release of the asparaginyl-tRNA(Asn) without dissociation of the complex. We propose that the crystal structure represents a transient state of the transamidation reaction. The transamidosome constitutes a transfer-ribonucleoprotein particle in which tRNAs serve the function of both substrate and structural foundation for a large molecular machine.

Published
2010
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50. Evolution and regulation of the Lotus japonicus LysM receptor gene family.

Author

Lohmann GV, Shimoda Y, Nielsen MW, Jørgensen FG, Grossmann C, Sandal N, Sørensen K, Thirup S, Madsen LH, Tabata S, Sato S, Stougaard J, and Radutoiu S

Subjects
Base Sequence, Chromosome Mapping, Chromosomes, Plant, Molecular Sequence Data, Multigene Family, Phylogeny, Sequence Alignment, Evolution, Molecular, Lotus genetics, Lotus metabolism, Plant Proteins genetics, Plant Proteins metabolism
Abstract

LysM receptor kinases were identified as receptors of acylated chitin (Nod factors) or chitin produced by plant-interacting microbes. Here, we present the identification and characterization of the LysM receptor kinase gene (Lys) family (17 members) in Lotus japonicus. Comprehensive phylogenetic analysis revealed a correlation between Lys gene structure and phylogeny. Further mapping coupled with sequence-based anchoring on the genome showed that the family has probably expanded by a combination of tandem and segmental duplication events. Using a sliding-window approach, we identified distinct regions in the LysM and kinase domains of recently diverged Lys genes where positive selection may have shaped ligand interaction. Interestingly, in the case of NFR5 and its closest paralog, LYS11, one of these regions coincides with the predicted Nod-factor binding groove and the suggested specificity determining area of the second LysM domain. One hypothesis for the evolutionary diversification of this receptor family in legumes is their unique capacity to decipher various structures of chitin-derived molecules produced by an extended spectrum of interacting organisms: symbiotic, associative, endophytic, and parasitic. In a detailed expression analysis, we found several Lotus Lys genes regulated not only during the symbiotic association with Mesorhizobium loti but also in response to chitin treatment.

Published
2010
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