Your search keyword '"Jackson, Verity A."' showing total 18 results

1. Mechanistic studies of the adhesion-GPCR latrophilin and its interactions in neural guidance

Author

Jackson, Verity, Seiradake, Elena, and Sansom, Mark

Subjects

612.8, neurobiology, structural biology, biophysics, biochemistry

Abstract

The adhesion GPCRs are a poorly understood and evolutionarily ancient family of cell surface receptors, several of which have emerging functions in the development of the nervous system. aGPCRs comprise a large extracellular domain, providing binding sites for a variety of ligands, alongside a seven transmembrane domain characteristic of GPCRs. It has been proposed that aGPCRs may function as "context-recognisers", using their large ectodomains to bind different combinations of ligands depending on the molecular make-up of the environment. However there is a lack of direct evidence for this at a molecular level. The ectodomain of one subfamily of aGPCRs, the Latrophilins (Lphns) has been shown to directly interact with several ligands with roles in synaptogenesis and neural guidance. The best-validated of these interactions are those with Fibronectin Leucine-Rich Transmembrane (FLRT) proteins and the Teneurins. In addition, FLRT proteins, also interact with Uncoordinated5 (Unc5) proteins, mediating cell repulsion. Here I reveal that the FLRT-binding site of Lphn is bifunctional, mediating both cell adhesion and repulsion, and that Unc5 is capable of influencing the functional outcome of this interaction. Biophysics and structural studies show that fragments of the Lphn, FLRT and Unc5 ectodomains interact in an unusual and homologue-dependent stoichiometry. Despite the fact that Teneurin interacts with Lphn at a distinct site, Teneurin seems incapable of interacting with the Lphn-FLRT-Unc5 complex, but can form a ternary complex with Lphn and FLRT in the absence of Unc5. Alongside this I present a crystal structure of a large portion of a Teneurin ectodomain, revealing the ancient evolutionary origins of this receptor. Together these data provide strong molecular evidence for a role of Lphns as context-recognisers, by their abilities to bind diverse ligands in distinct combinations and variable stoichiometries.

Published

2017

2. The guidance and adhesion protein FLRT2 dimerizes in cis via dual small-X3-small transmembrane motifs

Author

Jackson, Verity, primary, Hermann, Julia, additional, Tynan, Christopher J., additional, Rolfe, Daniel J., additional, Corey, Robin A., additional, Duncan, Anna L., additional, Noriega, Maxime, additional, Chu, Amy, additional, Kalli, Antreas C., additional, Jones, E. Yvonne, additional, Sansom, Mark S.P., additional, Martin-Fernandez, Marisa L., additional, Seiradake, Elena, additional, and Chavent, Matthieu, additional

Published

2022

3. Helicopter Hill, Craigieburn Forest Park.

Author

JACKSON, VERITY

Published

2024

4. The guidance and adhesion protein FLRT2 dimerizes in cis via dual Small-X3-Small transmembrane motifs

Author

Jackson, Verity, primary, Hermann, Julia, additional, Tynan, Christopher J., additional, Rolfe, Daniel J., additional, Corey, Robin A., additional, Duncan, Anna L., additional, Noriega, Maxime, additional, Chu, Amy, additional, Kalli, Antreas C., additional, Yvonne Jones, E., additional, Sansom, Mark S. P., additional, Martin-Fernandez, Marisa L., additional, Seiradake, Elena, additional, and Chavent, Matthieu, additional

Published

2020

5. Structural Basis of Teneurin-Latrophilin Interaction in Repulsive Guidance of Migrating Neurons

Author

del Toro, Daniel, primary, Carrasquero-Ordaz, Maria A., additional, Chu, Amy, additional, Ruff, Tobias, additional, Shahin, Meriam, additional, Jackson, Verity A., additional, Chavent, Matthieu, additional, Berbeira-Santana, Miguel, additional, Seyit-Bremer, Goenuel, additional, Brignani, Sara, additional, Kaufmann, Rainer, additional, Lowe, Edward, additional, Klein, Rüdiger, additional, and Seiradake, Elena, additional

Published

2020

6. Teneurin structures are composed of ancient bacterial protein domains

Author

Jackson, Verity A., Busby, Jason N., Janssen, Bert J. C., Lott, J. Shaun, Seiradake, Elena, Sub Crystal and Structural Chemistry, Crystal and Structural Chemistry, Sub Crystal and Structural Chemistry, and Crystal and Structural Chemistry

Subjects

Teneurin, 0303 health sciences, Microbial toxins, 030306 microbiology, General Neuroscience, Alternative splicing, cell adhesion, Computational biology, Review, Biology, biology.organism_classification, lcsh:RC321-571, Bacterial protein, 03 medical and health sciences, Data sequences, evolution, biology.protein, bacterial toxin, teneurin, Choanoflagellate, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Function (biology), choanoflagellate, 030304 developmental biology, Neuroscience

Abstract

Pioneering bioinformatic analysis using sequence data revealed that teneurins evolved from bacterial tyrosine-aspartate (YD)-repeat protein precursors. Here, we discuss how structures of the C-terminal domain of teneurins, determined using X-ray crystallography and electron microscopy, support the earlier findings on the proteins’ ancestry. This chapter describes the structure of the teneurin scaffold with reference to a large family of teneurin-like proteins that are widespread in modern prokaryotes. The central scaffold of modern eukaryotic teneurins is decorated by additional domains typically found in bacteria, which are re-purposed in eukaryotes to generate highly multifunctional receptors. We discuss how alternative splicing contributed to further diversifying teneurin structure and thereby function. This chapter traces the evolution of teneurins from a structural point of view and presents the state-of-the-art of how teneurin function is encoded by its specific structural features.

Published

2019

7. Teneurin structures are composed of ancient bacterial protein domains

Author

Sub Crystal and Structural Chemistry, Crystal and Structural Chemistry, Jackson, Verity A., Busby, Jason N., Janssen, Bert J. C., Lott, J. Shaun, Seiradake, Elena, Sub Crystal and Structural Chemistry, Crystal and Structural Chemistry, Jackson, Verity A., Busby, Jason N., Janssen, Bert J. C., Lott, J. Shaun, and Seiradake, Elena

Published

2019

8. Super-complexes of adhesion GPCRs and neural guidance receptors

Author

Jackson, Verity A., Mehmood, Shahid, Chavent, Matthieu, Roversi, Pietro, Carrasquero, Maria, del Toro, Daniel, Seyit-Bremer, Goenuel, Ranaivoson, Fanomezana M., Comoletti, Davide, Sansom, Mark S. P., Robinson, Carol V., Klein, Rüdiger, and Seiradake, Elena

Subjects

Mice, Knockout, Membrane Glycoproteins, Receptors, Peptide, Sequence Homology, Amino Acid, Science, Molecular Sequence Data, Receptors, Cell Surface, Molecular Dynamics Simulation, Surface Plasmon Resonance, Crystallography, X-Ray, Article, Mass Spectrometry, Protein Structure, Secondary, Protein Structure, Tertiary, Receptors, G-Protein-Coupled, HEK293 Cells, Multiprotein Complexes, Cell Adhesion, Animals, Humans, Amino Acid Sequence, Protein Multimerization, HeLa Cells, Protein Binding

Abstract

Latrophilin adhesion-GPCRs (Lphn1–3 or ADGRL1–3) and Unc5 cell guidance receptors (Unc5A–D) interact with FLRT proteins (FLRT1–3), thereby promoting cell adhesion and repulsion, respectively. How the three proteins interact and function simultaneously is poorly understood. We show that Unc5D interacts with FLRT2 in cis, controlling cell adhesion in response to externally presented Lphn3. The ectodomains of the three proteins bind cooperatively. Crystal structures of the ternary complex formed by the extracellular domains reveal that Lphn3 dimerizes when bound to FLRT2:Unc5, resulting in a stoichiometry of 1:1:2 (FLRT2:Unc5D:Lphn3). This 1:1:2 complex further dimerizes to form a larger ‘super-complex' (2:2:4), using a previously undescribed binding motif in the Unc5D TSP1 domain. Molecular dynamics simulations, point-directed mutagenesis and mass spectrometry demonstrate the stability and molecular properties of these complexes. Our data exemplify how receptors increase their functional repertoire by forming different context-dependent higher-order complexes., FLRT proteins are known to interact with Lphns and Unc5s, mediating cell adhesion and repulsion respectively. Here the authors use crystallography, native mass spectrometry, molecular dynamics simulations and cell-based assays to show that these three proteins form large super-complexes with functions distinct from their smaller subcomplexes.

Published

2016

9. Structures of Teneurin adhesion receptors reveal an ancient fold for cell-cell interaction

Author

Jackson, Verity A, Meijer, Dimphna H, Carrasquero, Maria, van Bezouwen, Laura S, Lowe, Edward D, Kleanthous, Colin, Janssen, Bert J C, Seiradake, Elena, Crystal and Structural Chemistry, Sub Crystal and Structural Chemistry, Sub Cryo - EM, and Cryo-EM

Subjects

Membrane Glycoproteins/chemistry, Alternative Splicing/genetics, Cell Communication/physiology, Cryoelectron Microscopy, Platelet Glycoprotein GPIb-IX Complex/chemistry, Tenascin/chemistry, Crystallography, X-Ray, Protein Structure, Secondary

Abstract

Teneurins are ancient cell-cell adhesion receptors that are vital for brain development and synapse organisation. They originated in early metazoan evolution through a horizontal gene transfer event when a bacterial YD-repeat toxin fused to a eukaryotic receptor. We present X-ray crystallography and cryo-EM structures of two Teneurins, revealing a ~200 kDa extracellular super-fold in which eight sub-domains form an intricate structure centred on a spiralling YD-repeat shell. An alternatively spliced loop, which is implicated in homophilic Teneurin interaction and specificity, is exposed and thus poised for interaction. The N-terminal side of the shell is 'plugged' via a fibronectin-plug domain combination, which defines a new class of YD proteins. Unexpectedly, we find that these proteins are widespread amongst modern bacteria, suggesting early metazoan receptor evolution from a distinct class of proteins, which today includes both bacterial proteins and eukaryotic Teneurins.

Published

2018

10. Structures of Teneurin adhesion receptors reveal an ancient fold for cell-cell interaction

Author

Crystal and Structural Chemistry, Sub Crystal and Structural Chemistry, Sub Cryo - EM, Cryo-EM, Jackson, Verity A, Meijer, Dimphna H, Carrasquero, Maria, van Bezouwen, Laura S, Lowe, Edward D, Kleanthous, Colin, Janssen, Bert J C, Seiradake, Elena, Crystal and Structural Chemistry, Sub Crystal and Structural Chemistry, Sub Cryo - EM, Cryo-EM, Jackson, Verity A, Meijer, Dimphna H, Carrasquero, Maria, van Bezouwen, Laura S, Lowe, Edward D, Kleanthous, Colin, Janssen, Bert J C, and Seiradake, Elena

Published

2018

11. Structural and functional insights into the latrophilin3 ‐ FLRT3‐UNC5D complex that mediates glutamatergic synapse development

Author

Ranaivoson, Fanomezana Moutse, primary, Ozgul, Sinem, additional, Kakehi, Sumie, additional, Jackson, Verity, additional, Martini, Francesca, additional, Bergami, Francesco, additional, von Daake, Sventja, additional, Seiradake, Elena, additional, and Comoletti, Davide, additional

Published

2017

12. Structural basis of latrophilin-FLRT interaction

Author

Jackson, Verity A., del Toro, Daniel, Carrasquero, Maria, Roversi, Pietro, Harlos, Karl, Klein, Rüdiger, and Seiradake, Elena

Subjects

Binding Sites, Membrane Glycoproteins, Receptors, Peptide, Molecular Sequence Data, Receptors, G-Protein-Coupled, Mice, Short Article, HEK293 Cells, Structural Biology, Animals, Humans, Amino Acid Sequence, Molecular Biology, HeLa Cells, Protein Binding

Abstract

Summary Latrophilins, receptors for spider venom α-latrotoxin, are adhesion type G-protein-coupled receptors with emerging functions in synapse development. The N-terminal region binds the endogenous cell adhesion molecule FLRT, a major regulator of cortical and synapse development. We present crystallographic data for the mouse Latrophilin3 lectin and olfactomedin-like (Olf) domains, thereby revealing the Olf β-propeller fold and conserved calcium-binding site. We locate the FLRT-Latrophilin binding surfaces by a combination of sequence conservation analysis, point mutagenesis, and surface plasmon resonance experiments. In stripe assays, we show that wild-type Latrophilin3 and its high-affinity interactor FLRT2, but not the binding-impaired mutants we generated, promote HeLa cell adhesion. In contrast, cortical neurons expressing endogenous FLRTs are repelled by wild-type Latrophilin3 and not by the binding-impaired mutant. Taken together, we present molecular level insights into Latrophilin structure, its FLRT-binding mechanism, and a role for Latrophilin and FLRT that goes beyond a simply adhesive interaction., Graphical Abstract, Highlights • The LPHN olfactomedin-like domain forms a five-bladed β propeller • A conserved calcium-binding site is located at the center of the protein • Latrophilin-FLRT binding depends on a conserved binding site • Mutations in the binding site inhibit Latrophilin-FLRT signaling, Jackson et al. describe a crystal structure of mLPHN3 lectin and olfactomedin-like (Olf) domains, revealing the Olf β-propeller fold and calcium-binding site. Assays using HeLa cells and cortical neurons reveal a bi-functional role for Olf and its ligand FLRT, leading to HeLa cell adhesion and neuron repulsion.

Published

2015

13. Structure of the Dual-Mode Wnt Regulator Kremen1 and Insight into Ternary Complex Formation with LRP6 and Dickkopf

Author

Zebisch, Matthias, primary, Jackson, Verity A., additional, Zhao, Yuguang, additional, and Jones, E. Yvonne, additional

Published

2016

14. Mt Torlesse, Korowai/Torlesse Tussocklands Park.

Author

JACKSON, VERITY

Published

2023

15. Structural Basis of Latrophilin-FLRT Interaction

Author

Jackson, Verity A., primary, del Toro, Daniel, additional, Carrasquero, Maria, additional, Roversi, Pietro, additional, Harlos, Karl, additional, Klein, Rüdiger, additional, and Seiradake, Elena, additional

Published

2015

16. Mt Fyffe – Hapuku Hut circuit, SEAWARD KAIKOURA RANGE.

Author

JACKSON, VERITY

Published

2023

17. Teneurin Structures Are Composed of Ancient Bacterial Protein Domains.

Author

Jackson VA, Busby JN, Janssen BJC, Lott JS, and Seiradake E

Abstract

Pioneering bioinformatic analysis using sequence data revealed that teneurins evolved from bacterial tyrosine-aspartate (YD)-repeat protein precursors. Here, we discuss how structures of the C-terminal domain of teneurins, determined using X -ray crystallography and electron microscopy, support the earlier findings on the proteins' ancestry. This chapter describes the structure of the teneurin scaffold with reference to a large family of teneurin-like proteins that are widespread in modern prokaryotes. The central scaffold of modern eukaryotic teneurins is decorated by additional domains typically found in bacteria, which are re-purposed in eukaryotes to generate highly multifunctional receptors. We discuss how alternative splicing contributed to further diversifying teneurin structure and thereby function. This chapter traces the evolution of teneurins from a structural point of view and presents the state-of-the-art of how teneurin function is encoded by its specific structural features.

Published

2019

18. Structures of Teneurin adhesion receptors reveal an ancient fold for cell-cell interaction.

Author

Jackson VA, Meijer DH, Carrasquero M, van Bezouwen LS, Lowe ED, Kleanthous C, Janssen BJC, and Seiradake E

Subjects

Alternative Splicing genetics, Alternative Splicing physiology, Cell Communication physiology, Cryoelectron Microscopy, Crystallography, X-Ray, Membrane Glycoproteins chemistry, Membrane Glycoproteins metabolism, Platelet Glycoprotein GPIb-IX Complex genetics, Protein Structure, Secondary, Tenascin chemistry, Tenascin genetics, Tenascin metabolism, Platelet Glycoprotein GPIb-IX Complex chemistry, Platelet Glycoprotein GPIb-IX Complex metabolism

Abstract

Teneurins are ancient cell-cell adhesion receptors that are vital for brain development and synapse organisation. They originated in early metazoan evolution through a horizontal gene transfer event when a bacterial YD-repeat toxin fused to a eukaryotic receptor. We present X-ray crystallography and cryo-EM structures of two Teneurins, revealing a ~200 kDa extracellular super-fold in which eight sub-domains form an intricate structure centred on a spiralling YD-repeat shell. An alternatively spliced loop, which is implicated in homophilic Teneurin interaction and specificity, is exposed and thus poised for interaction. The N-terminal side of the shell is 'plugged' via a fibronectin-plug domain combination, which defines a new class of YD proteins. Unexpectedly, we find that these proteins are widespread amongst modern bacteria, suggesting early metazoan receptor evolution from a distinct class of proteins, which today includes both bacterial proteins and eukaryotic Teneurins.

Published

2018