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Your search keyword '"Dyer, Douglas P."' showing total 21 results
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21 results on '"Dyer, Douglas P."'

1. Dissecting structure-function of 3-O-sulfated heparin and engineered heparan sulfates

Author

Karlsson, Richard, Chopra, Pradeep, Joshi, Apoorva, Yang, Zhang, Vakhrushev, Sergey Y, Clausen, Thomas Mandel, Painter, Chelsea D, Szekeres, Gergo P, Chen, Yen-Hsi, Sandoval, Daniel R, Hansen, Lars, Esko, Jeffrey D, Pagel, Kevin, Dyer, Douglas P, Turnbull, Jeremy E, Clausen, Henrik, Boons, Geert-Jan, and Miller, Rebecca L

Subjects
Hematology
Abstract

Heparan sulfate (HS) polysaccharides are master regulators of diverse biological processes via sulfated motifs that can recruit specific proteins. 3-O-sulfation of HS/heparin is crucial for anticoagulant activity, but despite emerging evidence for roles in many other functions, a lack of tools for deciphering structure-function relationships has hampered advances. Here, we describe an approach integrating synthesis of 3-O-sulfated standards, comprehensive HS disaccharide profiling, and cell engineering to address this deficiency. Its application revealed previously unseen differences in 3-O-sulfated profiles of clinical heparins and 3-O-sulfotransferase (HS3ST)–specific variations in cell surface HS profiles. The latter correlated with functional differences in anticoagulant activity and binding to platelet factor 4 (PF4), which underlies heparin-induced thrombocytopenia, a known side effect of heparin. Unexpectedly, cells expressing the HS3ST4 isoenzyme generated HS with potent anticoagulant activity but weak PF4 binding. The data provide new insights into 3-O-sulfate structure-function and demonstrate proof of concept for tailored cell-based synthesis of next-generation heparins.

Published
2021

3. Chemokine CXCL4 interactions with extracellular matrix proteoglycans mediate widespread immune cell recruitment independent of chemokine receptors

Author

Gray, Anna L., Karlsson, Richard, Roberts, Abigail R.E., Ridley, Amanda J.L., Pun, Nabina, Khan, Bakhtbilland, Lawless, Craig, Luís, Rafael, Szpakowska, Martyna, Chevigné, Andy, Hughes, Catherine E., Medina-Ruiz, Laura, Birchenough, Holly L., Mulholland, Iashia Z., Salanga, Catherina L., Yates, Edwin A., Turnbull, Jeremy E., Handel, Tracy M., Graham, Gerard J., Jowitt, Thomas A., Schiessl, Ingo, Richter, Ralf P., Miller, Rebecca L., and Dyer, Douglas P.

Published
2023
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7. Chemokines form complex signals during inflammation and disease that can be decoded by extracellular matrix proteoglycans

Author

Ridley, Amanda J. L., primary, Ou, Yaqing, additional, Karlsson, Richard, additional, Pun, Nabina, additional, Birchenough, Holly L., additional, Mulholland, Iashia Z., additional, Birch, Mary L., additional, MacDonald, Andrew S., additional, Jowitt, Thomas A., additional, Lawless, Craig, additional, Miller, Rebecca L., additional, and Dyer, Douglas P., additional

Published
2023
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8. Chemokines form complex signals during inflammation and disease that can be decoded by extracellular matrix proteoglycans

Author

Ridley, Amanda J.L., Ou, Yaqing, Karlsson, Richard, Pun, Nabina, Birchenough, Holly L., Mulholland, Iashia Z., Birch, Mary L., MacDonald, Andrew S., Jowitt, Thomas A., Lawless, Craig, Miller, Rebecca L., Dyer, Douglas P., Ridley, Amanda J.L., Ou, Yaqing, Karlsson, Richard, Pun, Nabina, Birchenough, Holly L., Mulholland, Iashia Z., Birch, Mary L., MacDonald, Andrew S., Jowitt, Thomas A., Lawless, Craig, Miller, Rebecca L., and Dyer, Douglas P.

Abstract

Chemokine-driven leukocyte recruitment is a key component of the immune response and of various diseases. Therapeutically targeting the chemokine system in inflammatory disease has been unsuccessful, which has been attributed to redundancy. We investigated why chemokines instead have specific, specialized functions, as demonstrated by multiple studies. We analyzed the expression of genes encoding chemokines and their receptors across species, tissues, and diseases. This analysis revealed complex expression patterns such that genes encoding multiple chemokines that mediated recruitment of the same leukocyte type were expressed in the same context, such as the genes encoding the CXCR3 ligands CXCL9, CXCL10, and CXCL11. Through biophysical approaches, we showed that these chemokines differentially interacted with extracellular matrix glycosaminoglycans (ECM GAGs), which was enhanced by sulfation of specific GAGs. Last, in vivo approaches demonstrated that GAG binding was critical for the CXCL9-dependent recruitment of specific T cell subsets but not of others, irrespective of CXCR3 expression. Our data demonstrate that interactions with ECM GAGs regulated whether chemokines were presented on cell surfaces or remained more soluble, thereby affecting chemokine availability and ensuring specificity of chemokine action. Our findings provide a mechanistic understanding of chemokine-mediated immune cell recruitment and identify strategies to target specific chemokines during inflammatory disease., Chemokine-driven leukocyte recruitment is a key component of the immune response and of various diseases. Therapeutically targeting the chemokine system in inflammatory disease has been unsuccessful, which has been attributed to redundancy. We investigated why chemokines instead have specific, specialized functions, as demonstrated by multiple studies. We analyzed the expression of genes encoding chemokines and their receptors across species, tissues, and diseases. This analysis revealed complex expression patterns such that genes encoding multiple chemokines that mediated recruitment of the same leukocyte type were expressed in the same context, such as the genes encoding the CXCR3 ligands CXCL9, CXCL10, and CXCL11. Through biophysical approaches, we showed that these chemokines differentially interacted with extracellular matrix glycosaminoglycans (ECM GAGs), which was enhanced by sulfation of specific GAGs. Last, in vivo approaches demonstrated that GAG binding was critical for the CXCL9-dependent recruitment of specific T cell subsets but not of others, irrespective of CXCR3 expression. Our data demonstrate that interactions with ECM GAGs regulated whether chemokines were presented on cell surfaces or remained more soluble, thereby affecting chemokine availability and ensuring specificity of chemokine action. Our findings provide a mechanistic understanding of chemokine-mediated immune cell recruitment and identify strategies to target specific chemokines during inflammatory disease.

Published
2023

10. Increased Circulating Chemokines and Macrophage Recruitment in Growing Vestibular Schwannomas

Author

Hannan, Cathal John, primary, Lewis, Daniel, additional, O'Leary, Claire, additional, Waqar, Mueez, additional, Brough, David, additional, Couper, Kevin N., additional, Dyer, Douglas P., additional, Vail, Andy, additional, Heal, Calvin, additional, Macarthur, Joshua, additional, Cooper, Christopher, additional, Hammerbeck-Ward, Charlotte, additional, Evans, D. Gareth, additional, Rutherford, Scott A., additional, Lloyd, Simon K., additional, Mackenzie Freeman, Simon Richard, additional, Coope, David John, additional, King, Andrew T., additional, and Pathmanaban, Omar Nathan, additional

Published
2022
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12. Analysis of combinatorial chemokine receptor expression dynamics using multi-receptor reporter mice

Author

Medina-Ruiz, Laura, Bartolini, Robin, Wilson, Gillian J., Dyer, Douglas P., Vidler, Francesca, Hughes, Catherine E., Schuette, Fabian, Love, Samantha, Fu, Jun, Stewart, Adrian Francis, and Graham, Gerard J.

Abstract

Inflammatory chemokines and their receptors are central to the development of inflammatory/immune pathologies. The apparent complexity of this system, coupled with lack of appropriate in vivo models, has limited our understanding of how chemokines orchestrate inflammatory responses and has hampered attempts at targeting this system in inflammatory disease. Novel approaches are therefore needed to provide crucial biological, and therapeutic, insights into the chemokine-chemokine receptor family. Here, we report the generation of transgenic multi-chemokine receptor reporter mice in which spectrally distinct fluorescent reporters mark expression of CCRs 1, 2, 3, and 5, key receptors for myeloid cell recruitment in inflammation. Analysis of these animals has allowed us to define, for the first time, individual and combinatorial receptor expression patterns on myeloid cells in resting and inflamed conditions. Our results demonstrate that chemokine receptor expression is highly specific, and more selective than previously anticipated.

Published
2022

13. Chemokine CXCL4 interactions with extracellular matrix proteoglycans mediate wide-spread non-receptor mediated immune cell recruitment

Author

Gray, Anna L, primary, Karlsson, Richard, additional, Roberts, Abigail RE, additional, Ridley, Amanda JL, additional, Pun, Nabina, additional, Hughes, Catherine, additional, Medina-Ruiz, Laura, additional, Birchenough, Holly L, additional, Salanga, Catherina L, additional, Yates, Edwin A, additional, Turnbull, Jeremy E, additional, Handel, Tracy M, additional, Graham, Gerard J, additional, Jowitt, Thomas A, additional, Schiessl, Ingo, additional, Richter, Ralf P, additional, Miller, Rebecca L, additional, and Dyer, Douglas P, additional

Published
2022
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14. Increased Circulating Chemokines and Macrophage Recruitment in Growing Vestibular Schwannomas.

Author

Hannan, Cathal John, Lewis, Daniel, O'Leary, Claire, Waqar, Mueez, Brough, David, Couper, Kevin N., Dyer, Douglas P., Vail, Andy, Heal, Calvin, Macarthur, Joshua, Cooper, Christopher, Hammerbeck-Ward, Charlotte, Evans, D. Gareth, Rutherford, Scott A., Lloyd, Simon K., Mackenzie Freeman, Simon Richard, Coope, David John, King, Andrew T., and Pathmanaban, Omar Nathan

Published
2023
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16. Author response: Analysis of combinatorial chemokine receptor expression dynamics using multi-receptor reporter mice

Author

Medina-Ruiz, Laura, primary, Bartolini, Robin, additional, Wilson, Gillian J, additional, Dyer, Douglas P, additional, Vidler, Francesca, additional, Hughes, Catherine E, additional, Schuette, Fabian, additional, Love, Samantha, additional, Pingen, Marieke, additional, Hayes, Alan James, additional, Fu, Jun, additional, Stewart, Adrian Francis, additional, and Graham, Gerard J, additional

Published
2022
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19. Chronic cranial window implantation for high-resolution intravital imaging of the endothelial glycocalyx in mouse cortex

Author

Gray, Anna Lindsay, Schiessl, Ingo, and Dyer, Douglas Philip

Abstract

The endothelial glycocalyx is an integral component of the brain vascular barrier. Visualizing its structure in vivois essential to understand its physiological and pathophysiological mechanisms. Here, we present a surgical protocol for chronic cranial window implantation in mice, alongside the use of multiphoton microscopy tools to image the cortical vasculature. We describe steps for cranial window implantation, intravenous injection of fluorescent markers, and intravital imaging. We then detail a technique to quantify glycocalyx thickness using Imaris image analysis software.

Published
2023
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20. A systematic review of normal tissue neurovascular unit damage following brain irradiation-Factors affecting damage severity and timing of effects.

Author

Nakkazi A, Forster D, Whitfield GA, Dyer DP, and Dickie BR

Abstract

Background: Radiotherapy is key in the treatment of primary and secondary brain tumors. However, normal tissue is inevitably irradiated, causing toxicity and contributing to cognitive dysfunction. The relative importance of vascular damage to cognitive decline is poorly understood. Here, we systematically review the evidence for radiation-induced damage to the entire neurovascular unit (NVU), particularly focusing on establishing the factors that influence damage severity, and timing and duration of vascular effects relative to effects on neural tissue., Methods: Using PubMed and Web of Science, we searched preclinical and clinical literature published between January 1, 1970 and December 1, 2022 and evaluated factors influencing NVU damage severity and timing of NVU effects resulting from ionizing radiation., Results: Seventy-two rodents, 4 canines, 1 rabbit, and 5 human studies met inclusion criteria. Radiation increased blood-brain barrier (BBB) permeability, reduced endothelial cell number and extracellular matrix proteoglycans, reduced tight junction proteins, upregulated cellular adhesion molecule expression, reduced activity of glucose and BBB efflux transporters and activated glial cells. In the brain parenchyma, increased metalloproteinases 2 and 9 levels, demyelination, cell death, and inhibited differentiation were observed. Effects on the vasculature and neural compartment were observed across acute, delayed, and late timepoints, and damage extent was higher with low linear energy transfer radiation, higher doses, lower dose rates, broader beams, and in the presence of a tumor., Conclusions: Irradiation of normal brain tissue leads to widespread and varied impacts on the NVU. Data indicate that vascular damage is in most cases an early effect that does not quickly resolve. More studies are needed to confirm sequence of damages, and mechanisms that lead to cognitive dysfunction., Competing Interests: None declared., (© The Author(s) 2024. Published by Oxford University Press, the Society for Neuro-Oncology and the European Association of Neuro-Oncology.)

Published
2024
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21. Analysis of combinatorial chemokine receptor expression dynamics using multi-receptor reporter mice.

Author

Medina-Ruiz L, Bartolini R, Wilson GJ, Dyer DP, Vidler F, Hughes CE, Schuette F, Love S, Pingen M, Hayes AJ, Fu J, Stewart AF, and Graham GJ

Subjects
Animals, Carrier Proteins, Gene Expression, Mice, Chemokines genetics, Chemokines metabolism, Inflammation pathology
Abstract

Inflammatory chemokines and their receptors are central to the development of inflammatory/immune pathologies. The apparent complexity of this system, coupled with lack of appropriate in vivo models, has limited our understanding of how chemokines orchestrate inflammatory responses and has hampered attempts at targeting this system in inflammatory disease. Novel approaches are therefore needed to provide crucial biological, and therapeutic, insights into the chemokine-chemokine receptor family. Here, we report the generation of transgenic multi-chemokine receptor reporter mice in which spectrally distinct fluorescent reporters mark expression of CCRs 1, 2, 3, and 5, key receptors for myeloid cell recruitment in inflammation. Analysis of these animals has allowed us to define, for the first time, individual and combinatorial receptor expression patterns on myeloid cells in resting and inflamed conditions. Our results demonstrate that chemokine receptor expression is highly specific, and more selective than previously anticipated., Competing Interests: LM, RB, GW, DD, FV, CH, FS, SL, MP, AH, JF, AS, GG No competing interests declared, (© 2022, Medina-Ruiz et al.)

Published
2022
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