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1. Quantitative mechanical stimulation of GPR68 using a novel 96 well flow plugin

Author

Segeritz, P, Kolesnik, K, Scott, DJ, Collins, DJ, Segeritz, P, Kolesnik, K, Scott, DJ, and Collins, DJ

Abstract

Mechanosensitive proteins play a crucial role in a range of physiological processes, including hearing, tactile sensation and regulating blood flow. While previous work has demonstrated the mechanosensitivity of several proteins, the ability to apply precisely defined mechanical forces to cells in a consistent, replicable manner remains a significant challenge. In this work we present a novel 96-well plate-compatible plugin device for generating highly-controlled flow-based mechanical simulation of cells, which enables quantitative assessment of mechanosensitive protein function. The device is used to mechanically stimulate HEK 293T cells expressing the mechanosensitive protein GPR68, a G protein-coupled receptor. By assaying intracellular calcium levels during flow-based cell stimulation, we determine that GPR68 signalling is a function of the applied shear-force. As this approach is compatible with conventional cell culture plates and allows for simultaneous readout in a conventional fluorescence plate reader, this represents a valuable new tool to investigate mechanotransduction.

Published
2024

2. Encounter Complexes Between the N-terminal of Neurotensin with the Extracellular Loop 2 of the Neurotensin Receptor 1 Steer Neurotensin to the Orthosteric Binding Pocket

Author

Asadollahi, K, Rajput, S, Jameson, GNL, Scott, DJ, Gooley, PR, Asadollahi, K, Rajput, S, Jameson, GNL, Scott, DJ, and Gooley, PR

Abstract

Neurotensin (NT) is a linear disordered peptide that activates two different class A GPCRs, neurotensin receptor 1 (NTS1) and NTS2. Resolved structures of the complex of the C-terminal fragment of NT, NT8-13, with NTS1 shows the peptide takes a well-defined structure in the bound state. However, the mechanisms underlying NT recognition of NTS1, and the conformational transition of NT upon binding NTS1 is an open question that if answered may aid discovery of highly selective drugs and reveal potential secondary binding sites on the surface of the receptor. Herein we investigated the interactions guiding NT to the orthosteric binding pocket of NTS1 by combining NMR experiments with kinetic analysis of the binding pathway using stopped-flow fluorescence and mutagenesis on both NT and NTS1. We show the presence of transient structures in the middle part of NT that kinetically regulate the binding of NT to NTS1. Moreover, our results indicate that the binding pathway of NT onto NTS1 is mediated via electrostatic interactions between the N-terminal region of NT with the extracellular loop 2 of NTS1. These interactions induce backbone conformational changes in neurotensin similar to the bound-state neurotensin, suggesting that the N-terminal region of NT and these interactions should be considered for development of selective drugs against NTS1.

Published
2023

3. Unravelling the mechanism of neurotensin recognition by neurotensin receptor 1

Author

Asadollahi, K, Rajput, S, de Zhang, LA, Ang, C-S, Nie, S, Williamson, NA, Griffin, MDW, Bathgate, RAD, Scott, DJ, Weikl, TR, Jameson, GNL, Gooley, PR, Asadollahi, K, Rajput, S, de Zhang, LA, Ang, C-S, Nie, S, Williamson, NA, Griffin, MDW, Bathgate, RAD, Scott, DJ, Weikl, TR, Jameson, GNL, and Gooley, PR

Abstract

The conformational ensembles of G protein-coupled receptors (GPCRs) include inactive and active states. Spectroscopy techniques, including NMR, show that agonists, antagonists and other ligands shift the ensemble toward specific states depending on the pharmacological efficacy of the ligand. How receptors recognize ligands and the kinetic mechanism underlying this population shift is poorly understood. Here, we investigate the kinetic mechanism of neurotensin recognition by neurotensin receptor 1 (NTS1) using 19F-NMR, hydrogen-deuterium exchange mass spectrometry and stopped-flow fluorescence spectroscopy. Our results indicate slow-exchanging conformational heterogeneity on the extracellular surface of ligand-bound NTS1. Numerical analysis of the kinetic data of neurotensin binding to NTS1 shows that ligand recognition follows an induced-fit mechanism, in which conformational changes occur after neurotensin binding. This approach is applicable to other GPCRs to provide insight into the kinetic regulation of ligand recognition by GPCRs.

Published
2023

4. NMR applications to GPCR recognition by peptide ligands

Author

Asadollahi, K, Scott, DJ, Gooley, PR, Asadollahi, K, Scott, DJ, and Gooley, PR

Abstract

Peptides form the largest group of ligands that modulate the activity of more than 120 different GPCRs. Among which linear disordered peptide ligands usually undergo significant conformational changes upon binding that is essential for receptor recognition and activation. Conformational selection and induced fit are the extreme mechanisms of coupled folding and binding that can be distinguished by analysis of binding pathways by methods that include NMR. However, the large size of GPCRs in membrane-mimetic environments limits NMR applications. In this review, we highlight advances in the field that can be adopted to address coupled folding and binding of peptide ligands to their cognate receptors.

Published
2023

5. High yield expression and purification of full-length Neurotensin with pyroglutamate modification

Author

Asadollahi, K, Huang, K, Yan, F, de Zhang, LA, Scott, DJ, Gooley, PR, Asadollahi, K, Huang, K, Yan, F, de Zhang, LA, Scott, DJ, and Gooley, PR

Abstract

Neurotensin (NT) is a 13-residue endogenous peptide found in mammals, with neurotransmission and hormonal roles in the central nervous system and gastrointestinal tract, respectively. The first residue of NT is a pyroglutamate (pGlu) that makes the expression and purification of large amounts of NT with native modification challenging. Here, we describe a simple and efficient procedure for expression and purification of large amounts of NT based on using the small ubiquitin-like modifier (SUMO) as a fusion partner and subsequent enzymatic conversion of the N-terminal glutamine to pGlu. Yields of 13 mg/L and 8 mg/L of pure peptide were obtained from expression in rich and minimal media, respectively. The method is adaptable to expression and purification of proteins and peptides with pGlu modification in a wide range of eukaryotic and prokaryotic expression hosts.

Published
2023

6. A Real-Time, Plate-Based BRET Assay for Detection of cGMP in Primary Cells

Author

Valkovic, AL, Kocan, M, Hoare, B, Marshall, S, Scott, DJ, Bathgate, RAD, Valkovic, AL, Kocan, M, Hoare, B, Marshall, S, Scott, DJ, and Bathgate, RAD

Abstract

Cyclic guanosine monophosphate (cGMP) is a second messenger involved in the regulation of numerous physiological processes. The modulation of cGMP is important in many diseases, but reliably assaying cGMP in live cells in a plate-based format with temporal resolution is challenging. The Förster/fluorescence resonance energy transfer (FRET)-based biosensor cGES-DE5 has a high temporal resolution and high selectivity for cGMP over cAMP, so we converted it to use bioluminescence resonance energy transfer (BRET), which is more compatible with plate-based assays. This BRET variant, called CYGYEL (cyclic GMP sensor using YFP-PDE5-Rluc8), was cloned into a lentiviral vector for use across different mammalian cell types. CYGYEL was characterised in HEK293T cells using the nitric oxide donor diethylamine NONOate (DEA), where it was shown to be dynamic, reversible, and able to detect cGMP with or without the use of phosphodiesterase inhibitors. In human primary vascular endothelial and smooth muscle cells, CYGYEL successfully detected cGMP mediated through either soluble or particulate guanylate cyclase using DEA or C-type natriuretic peptide, respectively. Notably, CYGYEL detected differences in kinetics and strength of signal both between ligands and between cell types. CYGYEL remained selective for cGMP over cAMP, but this selectivity was reduced compared to cGES-DE5. CYGYEL streamlines the process of cGMP detection in plate-based assays and can be used to detect cGMP activity across a range of cell types.

Published
2022

7. Expanding the genotype and phenotype spectrum of SYT1-associated neurodevelopmental disorder

Author

Melland, H, Bumbak, F, Kolesnik-Taylor, A, Ng-Cordell, E, John, A, Constantinou, P, Joss, S, Larsen, M, Fagerberg, C, Laulund, LW, Thies, J, Emslie, F, Willemsen, M, Kleefstra, T, Pfundt, R, Barrick, R, Chang, R, Loong, L, Alfadhel, M, van der Smagt, J, Nizon, M, Kurian, MA, Scott, DJ, Ziarek, JJ, Gordon, SL, Baker, K, Melland, H, Bumbak, F, Kolesnik-Taylor, A, Ng-Cordell, E, John, A, Constantinou, P, Joss, S, Larsen, M, Fagerberg, C, Laulund, LW, Thies, J, Emslie, F, Willemsen, M, Kleefstra, T, Pfundt, R, Barrick, R, Chang, R, Loong, L, Alfadhel, M, van der Smagt, J, Nizon, M, Kurian, MA, Scott, DJ, Ziarek, JJ, Gordon, SL, and Baker, K

Abstract

PURPOSE: Synaptotagmin-1 (SYT1) is a critical mediator of neurotransmitter release in the central nervous system. Previously reported missense SYT1 variants in the C2B domain are associated with severe intellectual disability, movement disorders, behavioral disturbances, and electroencephalogram abnormalities. In this study, we expand the genotypes and phenotypes and identify discriminating features of this disorder. METHODS: We describe 22 individuals with 15 de novo missense SYT1 variants. The evidence for pathogenicity is discussed, including the American College of Medical Genetics and Genomics/Association for Molecular Pathology criteria, known structure-function relationships, and molecular dynamics simulations. Quantitative behavioral data for 14 cases were compared with other monogenic neurodevelopmental disorders. RESULTS: Four variants were located in the C2A domain with the remainder in the C2B domain. We classified 6 variants as pathogenic, 4 as likely pathogenic, and 5 as variants of uncertain significance. Prevalent clinical phenotypes included delayed developmental milestones, abnormal eye physiology, movement disorders, and sleep disturbances. Discriminating behavioral characteristics were severity of motor and communication impairment, presence of motor stereotypies, and mood instability. CONCLUSION: Neurodevelopmental disorder-associated SYT1 variants extend beyond previously reported regions, and the phenotypic spectrum encompasses a broader range of severities than initially reported. This study guides the diagnosis and molecular understanding of this rare neurodevelopmental disorder and highlights a key role for SYT1 function in emotional regulation, motor control, and emergent cognitive function.

Published
2022

10. The oligodendrocyte-enriched orphan G protein-coupled receptor Gpr62 is dispensable for central nervous system myelination

Author

Hay, CM, Jackson, S, Mitew, S, Scott, DJ, Koenning, M, Bensen, AL, Bujalka, H, Kilpatrick, TJ, Emery, B, Hay, CM, Jackson, S, Mitew, S, Scott, DJ, Koenning, M, Bensen, AL, Bujalka, H, Kilpatrick, TJ, and Emery, B

Abstract

BACKGROUND: Myelination is a highly regulated process in the vertebrate central nervous system (CNS) whereby oligodendrocytes wrap axons with multiple layers of insulating myelin in order to allow rapid electrical conduction. Establishing the proper pattern of myelin in neural circuits requires communicative axo-glial interactions, however, the molecular interactions that occur between oligodendrocytes and axons during developmental myelination and myelin maintenance remain to be fully elucidated. Our previous work identified G protein-coupled receptor 62 (Gpr62), an uncharacterized orphan g-protein coupled receptor, as being selectively expressed by mature oligodendrocytes within the CNS, suggesting a potential role in myelination or axoglial interactions. However, no studies to date have assessed the functional requirement for Gpr62 in oligodendrocyte development or CNS myelination. METHODS: To address this, we generated a knockout mouse strain lacking the Gpr62 gene. We assessed CNS myelination during both postnatal development and adulthood using immunohistochemistry, electron microscopy and western blot. In addition, we utilized AAV-mediated expression of a tagged Gpr62 in oligodendrocytes to determine the subcellular localization of the protein in vivo. RESULTS: We find that virally expressed Gpr62 protein is selectively expressed on the adaxonal myelin layer, suggestive of a potential role for Gpr62 in axo-myelinic signaling. Nevertheless, Gpr62 knockout mice display normal oligodendrocyte numbers and apparently normal myelination within the CNS during both postnatal development and adulthood. CONCLUSIONS: We conclude that in spite of being well-placed to mediate neuronal-oligodendrocyte communications, Gpr62 is overall dispensable for CNS myelination.

Published
2021

11. Paracrine cyclooxygenase-2 activity by macrophages drives colorectal adenoma progression in the Apc Min/+ mouse model of intestinal tumorigenesis

Author

Hull, MA, Cuthbert, RJ, Ko, CWS, Scott, DJ, Cartwright, EJ, Hawcroft, G, Perry, SL, Ingram, N, Carr, IM, Markham, AF, Bonifer, C, and Coletta, PL

Subjects
Adenoma, Genes, APC, Macrophages, Science, Gene Expression, Mice, Transgenic, Immunohistochemistry, Article, Disease Models, Animal, Mice, Cell Transformation, Neoplastic, Cyclooxygenase 2, Genetic Loci, Organ Specificity, Paracrine Communication, Disease Progression, Animals, Medicine, Colorectal Neoplasms
Abstract

Genetic deletion or pharmacological inhibition of cyclooxygenase (COX)-2 abrogates intestinal adenoma development at early stages of colorectal carcinogenesis. COX-2 is localised to stromal cells (predominantly macrophages) in human and mouse intestinal adenomas. Therefore, we tested the hypothesis that paracrine Cox-2-mediated signalling from macrophages drives adenoma growth and progression in vivo in the Apc Min/+ mouse model of intestinal tumorigenesis. Using a transgenic C57Bl/6 mouse model of Cox-2 over-expression driven by the chicken lysozyme locus (cLys-Cox-2), which directs integration site-independent, copy number-dependent transgene expression restricted to macrophages, we demonstrated that stromal macrophage Cox-2 in colorectal (but not small intestinal) adenomas from cLys-Cox-2 x Apc Min/+ mice was associated with significantly increased tumour size (P = 0.025) and multiplicity (P = 0.025), compared with control Apc Min/+ mice. Transgenic macrophage Cox-2 expression was associated with increased dysplasia, epithelial cell Cox-2 expression and submucosal tumour invasion, as well as increased nuclear β-catenin translocation in dysplastic epithelial cells. In vitro studies confirmed that paracrine macrophage Cox-2 signalling drives catenin-related transcription in intestinal epithelial cells. Paracrine macrophage Cox-2 activity drives growth and progression of Apc Min/+ mouse colonic adenomas, linked to increased epithelial cell β-catenin dysregulation. Stromal cell (macrophage) gene regulation and signalling represent valid targets for chemoprevention of colorectal cancer.

Published
2017

12. Multi-Component Mechanism of H2 Relaxin Binding to RXFP1 through NanoBRET Kinetic Analysis

Author

Hoare, BL, Bruell, S, Sethi, A, Gooley, PR, Lew, MJ, Hossain, MA, Inoue, A, Scott, DJ, Bathgate, RAD, Hoare, BL, Bruell, S, Sethi, A, Gooley, PR, Lew, MJ, Hossain, MA, Inoue, A, Scott, DJ, and Bathgate, RAD

Abstract

The peptide hormone H2 relaxin has demonstrated promise as a therapeutic, but mimetic development has been hindered by the poorly understood relaxin receptor RXFP1 activation mechanism. H2 relaxin is hypothesized to bind to two distinct ECD sites, which reorientates the N-terminal LDLa module to activate the transmembrane domain. Here we provide evidence for this model in live cells by measuring bioluminescence resonance energy transfer (BRET) between nanoluciferase-tagged RXFP1 constructs and fluorescently labeled H2 relaxin (NanoBRET). Additionally, we validate these results using the related RXFP2 receptor and chimeras with an inserted RXFP1-binding domain utilizing NanoBRET and nuclear magnetic resonance studies on recombinant proteins. We therefore provide evidence for the multi-component molecular mechanism of H2 relaxin binding to RXFP1 on the full-length receptor in cells. Also, we show the utility of NanoBRET real-time binding kinetics to reveal subtle binding complexities, which may be overlooked in traditional equilibrium binding assays.

Published
2019

13. Using the novel HiBiT tag to label cell surface relaxin receptors for BRET proximity analysis

Author

Hoare, BL, Kocan, M, Bruell, S, Scott, DJ, Bathgate, RAD, Hoare, BL, Kocan, M, Bruell, S, Scott, DJ, and Bathgate, RAD

Abstract

Relaxin family peptide 1 (RXFP1) is the receptor for relaxin a peptide hormone with important therapeutic potential. Like many G protein-coupled receptors (GPCRs), RXFP1 has been reported to form homodimers. Given the complex activation mechanism of RXFP1 by relaxin, we wondered whether homodimerization may be explicitly required for receptor activation, and therefore sought to determine if there is any relaxin-dependent change in RXFP1 proximity at the cell surface. Bioluminescence resonance energy transfer (BRET) between recombinantly tagged receptors is often used in GPCR proximity studies. RXFP1 targets poorly to the cell surface when overexpressed in cell lines, with the majority of the receptor proteins sequestered within the cell. Thus, any relaxin-induced changes in RXFP1 proximity at the cell surface may be obscured by BRET signal originating from intracellular compartments. We therefore, utilized the newly developed split luciferase system called HiBiT to specifically label the extracellular terminus of cell surface RXFP1 receptors in combination with mCitrine-tagged receptors, using the GABAB heterodimer as a positive control. This demonstrated that the BRET signal detected from RXFP1-RXFP1 proximity at the cell surface does not appear to be due to stable physical interactions. The fact that there is also no relaxin-mediated change in RXFP1-RXFP1 proximity at the cell surface further supports these conclusions. This work provides a basis by which cell surface GPCR proximity and expression levels can be specifically studied using a facile and homogeneous labeling technique such as HiBiT.

Published
2019

16. Within-and Between-Session Reliability of Ultrasound Imaging Measures in Vastus Lateralis and Gastrocnemius Medialis Muscles

Author

Scott Dj, Marshall P, and Ditroilo M

Subjects
Supine position, medicine.anatomical_structure, Intraclass correlation, business.industry, Coefficient of variation, Ultrasound, Medicine, Ankle, business, Nuclear medicine, Muscle architecture, Reliability (statistics), Gastrocnemius medialis
Abstract

Objective: To determine the within- and between-session reliability of ultrasonography and imaging analysis for measuring muscle architecture of the vastus lateralis (VL) and gastrocnemius medialis (GM) in males who play recreational sport. Methods: Twelve (n=12) males who regularly engage in recreational sport (age: 26.83 ± 4.45 years) participated in this study. Two experimental sessions were conducted 7 days apart. Muscle thickness (MT), pennation angle (Pang) and fascicle length (Lf) for both muscles were determined. Two ultrasound images of the VL were recorded with participants lying supine with the knee at 30o flexion and a further two images were obtained following a 20 min interval. One week later, two images were recorded during the second session. This process was repeated for the GM with participants lying prone with their muscles relaxed and ankle joint in a neutral position (90˚). Results: The within- and between-session minimum detectable changes were: VL MT=0.16 cm, 0.12 cm; VL Pang=0.76˚, 0.99˚; VL Lf=0.84 cm, 0.94 cm; GM MT=0.08 cm, 0.11 cm; GM Pang=0.97˚, 1.45˚; GM Lf=0.36 cm, 0.50 cm, respectively. Other reliability statistics included were intra-class correlation coefficients, coefficient of variation and typical error which also expressed high levels of reliability. Conclusion: The findings of this study suggest that B-mode ultrasonography can be used in confidence by novice radiographers when investigating changes in muscle architecture in males who regularly engage in recreational sport. The reliability statistics reported in this study can be used by researchers for sample size estimation in future studies.

Published
2018

17. Arterial Complications following Total Knee Arthroplasty (TKA): A Systematic Review and Proposal for Improved Monitoring

Author

Hodgson H, Saghir N, Saghir R, Coughlin P, Scott DJA, and Howard A

Subjects
total knee arthroplasty, complications, vascular, systematic review, Orthopedic surgery, RD701-811
Abstract

Introduction: Total knee arthroplasty (TKA) is a common operation and is becoming more common due to population aging and increasing BMI. TKA provides excellent improvement in quality of life but carries risk of arterial complications in the perioperative period. This systematic review aims to provide a greater understanding of the incidence of such complications, and time taken to diagnose arterial injury. Materials and methods: PubMed, Medline, Ovid SP and EMBASE databases were searched with the following MeSH keywords: ‘complication’, ‘vascular injury’, ‘ischaemia’, ‘spasm’, ‘thrombosis’, ‘pseudoaneurysm’, ‘transection’, ‘pulse’, ‘ABPI OR ABI’, ‘Doppler’, ‘amputation’. All arterial vascular events in the perioperative state of the total knee replacement were included. Records were independently screened by two reviewers, and data was extracted according to a pre-determined proforma. Overall incidence and time to diagnosis was calculated for complications. Systematic review registration PROSPERO: CRD42018086643. No funding was received. Results: Twelve studies were selected for inclusion. A total of 3325 cases of arterial complications were recorded across all studies, and were divided into three categories, pseudoaneurysms (0.06%); ischaemia and thrombosis (0.17%); haemorrhage and arterial transections (0.07%). Time taken to reach the diagnosis for each complication was longest in the ischaemia and thrombosis group (6.8 days), followed by pseudoaneurysm (3.5 days) and haemorrhage and transections (3.0 days). Conclusion: TKA post-operative vascular complications are rare, but when they do occur they lead to limb and life threatening complications. This should be discussed with patients during the consent process. Current times to diagnosis represent missed opportunities to recognise arterial injury and facilitate rapid treatment of the complication. A very low threshold for seeking specialist input should be adopted, and any concern for vascular injury, such as unexplained perioperative bleeding, absent lower limb pulses in the post-operative period or unexplained severe pain should warrant immediate review by a vascular surgeon, and in centres where this is not possible, immediate blue- light transfer to the closest vascular centre.

Published
2023
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18. SYT1-associated neurodevelopmental disorder: a case series

Author

Baker, K, Gordon, SL, Melland, H, Bumbak, F, Scott, DJ, Jiang, TJ, Owen, D, Turner, BJ, Boyd, SG, Rossi, M, Al-Raqad, M, Elpeleg, O, Peck, D, Mancini, GMS, Wilke, M, Zollino, M, Marangi, G, Weigand, H, Borggraefe, I, Haack, T, Stark, Z, Sadedin, S, Tan, TY, Jiang, Y, Gibbs, RA, Ellingwood, S, Amaral, M, Kelley, W, Kurian, MA, Cousin, MA, Raymond, FL, Baker, K, Gordon, SL, Melland, H, Bumbak, F, Scott, DJ, Jiang, TJ, Owen, D, Turner, BJ, Boyd, SG, Rossi, M, Al-Raqad, M, Elpeleg, O, Peck, D, Mancini, GMS, Wilke, M, Zollino, M, Marangi, G, Weigand, H, Borggraefe, I, Haack, T, Stark, Z, Sadedin, S, Tan, TY, Jiang, Y, Gibbs, RA, Ellingwood, S, Amaral, M, Kelley, W, Kurian, MA, Cousin, MA, and Raymond, FL

Abstract

Synaptotagmin 1 (SYT1) is a critical mediator of fast, synchronous, calcium-dependent neurotransmitter release and also modulates synaptic vesicle endocytosis. This paper describes 11 patients with de novo heterozygous missense mutations in SYT1. All mutations alter highly conserved residues, and cluster in two regions of the SYT1 C2B domain at positions Met303 (M303K), Asp304 (D304G), Asp366 (D366E), Ile368 (I368T) and Asn371 (N371K). Phenotypic features include infantile hypotonia, congenital ophthalmic abnormalities, childhood-onset hyperkinetic movement disorders, motor stereotypies, and developmental delay varying in severity from moderate to profound. Behavioural characteristics include sleep disturbance and episodic agitation. Absence of epileptic seizures and normal orbitofrontal head circumference are important negative features. Structural MRI is unremarkable but EEG disturbance is universal, characterized by intermittent low frequency high amplitude oscillations. The functional impact of these five de novo SYT1 mutations has been assessed by expressing rat SYT1 protein containing the equivalent human variants in wild-type mouse primary hippocampal cultures. All mutant forms of SYT1 were expressed at levels approximately equal to endogenous wild-type protein, and correctly localized to nerve terminals at rest, except for SYT1M303K, which was expressed at a lower level and failed to localize at nerve terminals. Following stimulation, SYT1I368T and SYT1N371K relocalized to nerve terminals at least as efficiently as wild-type SYT1. However, SYT1D304G and SYT1D366E failed to relocalize to nerve terminals following stimulation, indicative of impairments in endocytic retrieval and trafficking of SYT1. In addition, the presence of SYT1 variants at nerve terminals induced a slowing of exocytic rate following sustained action potential stimulation. The extent of disturbance to synaptic vesicle kinetics is mirrored by the severity of the affected individuals' phenot

Published
2018

19. Gram scale preparation of clozapine N-oxide (CNO), a synthetic small molecule actuator for muscarinic acetylcholine DREADDs

Author

van der Peet, PL, Gunawan, C, Abdul-Ridha, A, Ma, S, Scott, DJ, Gundlach, AL, Bathgate, RAD, White, JM, Williams, SJ, van der Peet, PL, Gunawan, C, Abdul-Ridha, A, Ma, S, Scott, DJ, Gundlach, AL, Bathgate, RAD, White, JM, and Williams, SJ

Abstract

Chemogenetics uses engineered proteins that are controlled by small molecule actuators, allowing in vivo functional studies of proteins with temporal and dose control, and include Designer Receptors Exclusively Activated by Designer Drugs (DREADDs). One major class of DREADDs are mutated muscarinic receptors that are unresponsive to acetylcholine, and are activated by administration of clozapine N-oxide (CNO). However, CNO is available in only small amounts and large scale studies involving animals and multiple cohorts are prohibitively expensive for many investigators. The precursor, clozapine, is also expensive when purchased from specialist suppliers. Here we report: •A simple extraction method of clozapine from commercial tablets;•A simple preparation of CNO from clozapine, and for the first time its single-crystal X-ray structure; and•That the CNO prepared by this method specifically activates the DREADD receptor hM3Dq in vivo. This method provides large quantities of CNO suitable for large-scale DREADD applications that is identical to commercial material.

Published
2018

20. A Novel Ultra-Stable, Monomeric Green Fluorescent Protein For Direct Volumetric Imaging of Whole Organs Using CLARITY

Author

Scott, DJ, Gunn, NJ, Yong, KJ, Wimmer, VC, Veldhuis, NA, Challis, LM, Haidar, M, Petrou, S, Bathgate, RAD, Griffin, MDW, Scott, DJ, Gunn, NJ, Yong, KJ, Wimmer, VC, Veldhuis, NA, Challis, LM, Haidar, M, Petrou, S, Bathgate, RAD, and Griffin, MDW

Abstract

Recent advances in thick tissue clearing are enabling high resolution, volumetric fluorescence imaging of complex cellular networks. Fluorescent proteins (FPs) such as GFP, however, can be inactivated by the denaturing chemicals used to remove lipids in some tissue clearing methods. Here, we solved the crystal structure of a recently engineered ultra-stable GFP (usGFP) and propose that the two stabilising mutations, Q69L and N164Y, act to improve hydrophobic packing in the core of the protein and facilitate hydrogen bonding networks at the surface, respectively. usGFP was found to dimerise strongly, which is not desirable for some applications. A point mutation at the dimer interface, F223D, generated monomeric usGFP (muGFP). Neurons in whole mouse brains were virally transduced with either EGFP or muGFP and subjected to Clear Lipid-exchanged Acrylamide-hybridized Rigid Imaging/Immunostaining/In situ hybridization-compatible Tissue-hYdrogel (CLARITY) clearing. muGFP fluorescence was retained after CLARITY whereas EGFP fluorescence was highly attenuated, thus demonstrating muGFP is a novel FP suitable for applications where high fluorescence stability and minimal self-association are required.

Published
2018

21. Thrombin-Activatable Fibrinolysis Inhibitor in Human Abdominal Aortic Aneurysm Disease

Author

Bridge, KI, Bollen, L, Zhong, J, Hesketh, M, Macrae, FL, Johnson, A, Philippou, H, Scott, DJ, Gils, A, and Ariёns, RAS

Abstract

Background: Intra-luminal thrombosis is a key factor in Abdominal Aortic Aneurysms (AAA) growth. Patients with AAA form dense clots that are resistant to fibrinolysis. Thrombin-activatable fibrinolysis inhibitor (TAFI) has been shown to influence AAA development in murine models. Objective: The aim of this study is to characterise the role of TAFI in human AAA. Methods: Plasma levels of TAFI, TAFI activation peptide (TAFI-AP), activated/inactivated TAFI (TAFIa/ai) and plasmin-α2-antiplasmin complex were measured by ELISAs in patients with AAA (n=202) and controls (n=188). Results: TAFIa/ai and TAFI-AP levels were higher in patients than controls (median (IQR): 20.3 (14.6-32.8) vs. 14.2 (11.2-19.3) and 355.0 (232.4-528.1) vs. 248.6 (197.1-328.1) ng/ml). TAFIa/ai was positively correlated with TAFI-AP (r=0.164). Intact TAFI levels were not different between patients and controls (13.4 (11.2-16.1) vs. 12.8 (10.6-15.4) μg/ml). Plasmin-α2-antiplasmin was higher in AAA patients than controls (690.0 (489.1-924.3) vs. 480.7 (392.6-555.3) ng/ml). Conclusions: The increase in TAFIa/ai and TAFI-AP suggest an increased TAFI activation in patients with AAA. Prospective studies are required to further elucidate the role of TAFI and fibrinolysis in AAA pathogenesis.

Published
2017

22. Inhibition of plasmin-mediated TAFI activation may affect development but not progression of abdominal aortic aneurysms

Author

Bridge, K, Revill, C, Macrae, F, Bailey, M, Yuldasheva, N, Wheatcroft, S, Butlin, R, Foster, R, Scott, DJ, Gils, A, Ariens, R, and Hagemeyer, CE

Subjects
Male, Carboxypeptidase B2, Death Rates, Immunology, lcsh:Medicine, Mouse Models, macromolecular substances, Pathology and Laboratory Medicine, Research and Analysis Methods, Biochemistry, Vascular Medicine, Mice, Signs and Symptoms, Model Organisms, Apolipoproteins E, Diagnostic Medicine, Medicine and Health Sciences, Animals, Vascular Diseases, Fibrinolysin, cardiovascular diseases, lcsh:Science, Immune Response, Blood Coagulation, Aorta, Demography, Inflammation, Mice, Knockout, Fibrin, Fibrinolysis, lcsh:R, Biology and Life Sciences, Proteins, Animal Models, Hematology, Elastin, Disease Models, Animal, Experimental Organism Systems, People and Places, Cardiovascular Anatomy, Disease Progression, cardiovascular system, Blood Vessels, lcsh:Q, Anatomy, Aneurysms, Research Article, Aortic Aneurysm, Abdominal
Abstract

Objective: Thrombin-activatable fibrinolysis inhibitor (TAFI) reduces the breakdown of fibrin clots through its action as an indirect inhibitor of plasmin. Studies in TAFI-deficient mice have implicated a potential role for TAFI in Abdominal Aortic Aneurysm (AAA) disease. The role of TAFI inhibition on AAA formation in adult ApoE-/- mice is unknown. The aim of this paper was to investigate the effects of TAFI inhibition on AAA development and progression. Methods: Using the Angiotensin II model of AAA, male ApoE-/- mice were infused with Angiotensin II 750ng/kg/min with or without a monoclonal antibody inhibitor of plasmin-mediated activation of TAFI, MA-TCK26D6, or a competitive small molecule inhibitor of TAFI, UK-396082. Results: Inhibition of TAFI in the Angiotensin II model resulted in a decrease in the mortality associated with AAA rupture (from 40.0% to 16.6% with MA-TCK26D6 (log-rank Mantel Cox test p = 0.16), and 8.3% with UK-396082 (log-rank Mantel Cox test p = 0.05)). Inhibition of plasmin-mediated TAFI activation reduced the incidence of AAA from 52.4% to 30.0%. However, late treatment with MA-TCK26D6 once AAA were already established had no effect on the progression of AAA in this model. Conclusions: The formation of intra-mural thrombus is responsible for the dissection and early rupture in the angiotensin II model of AAA, and this process can be prevented through inhibition of TAFI. Late treatment with a TAFI inhibitor does not prevent AAA progression. These data may indicate a role for inhibition of plasmin-mediated TAFI activation in the early stages of AAA development, but not in its progression.

Published
2017

38. Distinct activation modes of the Relaxin Family Peptide Receptor 2 in response to insulin-like peptide 3 and relaxin

Author

Bruell, S, Sethi, A, Smith, N, Scott, DJ, Hossain, MA, Wu, Q-P, Guo, Z-Y, Petrie, EJ, Gooley, PR, Bathgate, RAD, Bruell, S, Sethi, A, Smith, N, Scott, DJ, Hossain, MA, Wu, Q-P, Guo, Z-Y, Petrie, EJ, Gooley, PR, and Bathgate, RAD

Abstract

Relaxin family peptide receptor 2 (RXFP2) is a GPCR known for its role in reproductive function. It is structurally related to the human relaxin receptor RXFP1 and can be activated by human gene-2 (H2) relaxin as well as its cognate ligand insulin-like peptide 3 (INSL3). Both receptors possess an N-terminal low-density lipoprotein type a (LDLa) module that is necessary for activation and is joined to a leucine-rich repeat domain by a linker. This linker has been shown to be important for H2 relaxin binding and activation of RXFP1 and herein we investigate the role of the equivalent region of RXFP2. We demonstrate that the linker's highly-conserved N-terminal region is essential for activation of RXFP2 in response to both ligands. In contrast, the linker is necessary for H2 relaxin, but not INSL3, binding. Our results highlight the distinct mechanism by which INSL3 activates RXFP2 whereby ligand binding mediates reorientation of the LDLa module by the linker region to activate the RXFP2 transmembrane domains in conjunction with the INSL3 A-chain. In contrast, relaxin activation of RXFP2 involves a more RXFP1-like mechanism involving binding to the LDLa-linker, reorientation of the LDLa module and activation of the transmembrane domains by the LDLa alone.

Published
2017

39. Characterisation of a cell-free synthesised G-protein coupled receptor

Author

Shilling, PJ, Bumbak, F, Scott, DJ, Bathgate, RAD, Gooley, PR, Shilling, PJ, Bumbak, F, Scott, DJ, Bathgate, RAD, and Gooley, PR

Abstract

G-protein coupled receptors are the largest family of integral membrane proteins found within the human genome. They function as receptors and modulators to a wide range of ligands and responses which are crucial for human health. GPCR study, specifically the investigation of structure and interaction to cognate ligands, is of high priority. Limitations for structural study can be traced in part, to obtaining suitable quantities of recombinant protein. We sought to address the limitations of traditional recombinant technologies by utilising an Escherichia coli based cell-free protein synthesis (CFPS) approach for production of a thermostable neurotensin receptor 1 (en2NTS1). Initial results were promising, with a high amount (up to 2 mg/mL) of en2NTS1 produced, that had attained correct secondary structure. Meanwhile, concurrent experiments indicated that CFPS produced en2NTS1 showed non-competitive binding to the peptide ligand neurotensin8-13 when compared to E. coli produced en2NTS1. 1H-13C HMQC SOFAST NMR spectra were indicative of disrupted tertiary structure for CFPS produced 13CH3-methionine labelled en2NTS1. The results obtained, indicate CFPS produced en2NTS1 is not forming a discrete tertiary structure and that further development of the CFPS technique needs to be carried out.

Published
2017

44. Versatile Catalytic Hydrogenation Using A Simple SnIV Lewis Acid

Author

Scott, DJ, Phillips, NA, Sapsford, JS, Deacy, AC, Fuchter, MJ, Ashley, AE, and The Royal Society

Subjects
catalysis, tin, Organic Chemistry, hydrogenation, stannylium, 03 Chemical Sciences, frustrated Lewis pairs
Abstract

Despite the rapid development of frustrated Lewis pair (FLP) chemistry over the last ten years, its application in catalytic hydrogenations remains dependent on a narrow family of structurally similar early main-group Lewis acids (LAs), inevitably placing limitations on reactivity, sensitivity and substrate scope. Herein we describe the FLP-mediated H2 activation and catalytic hydrogenation activity of the alternative LA iPr3SnOTf, which acts as a surrogate for the trialkylstannylium ion iPr3Sn+, and is rapidly and easily prepared from simple, inexpensive starting materials. This highly thermally robust LA is found to be competent in the hydrogenation of a number of different unsaturated functional groups (which is unique to date for main-group FLP LAs not based on boron), and also displays a remarkable tolerance to moisture.

Published
2016

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