Your search keyword '"James Pinkerton"' showing total 5 results

1. ELF OpenGo: an analysis and open reimplementation of AlphaZero.

Author

Yuandong Tian, Jerry Ma, Qucheng Gong, Shubho Sengupta, Zhuoyuan Chen, James Pinkerton, and Larry Zitnick

Published

2019

2. Characterization of Selective and Potent JAK1 Inhibitors Intended for the Inhaled Treatment of Asthma

Author

Magnus Nilsson, Magdalena Rhedin, Ramon Hendrickx, Susanne Berglund, Antonio Piras, Parmis Blomgran, Anders Cavallin, Mia Collins, Göran Dahl, Bilel Dekkak, Therese Ericsson, Niklas Hagberg, Ann Aurell Holmberg, Agnes Leffler, Anders J Lundqvist, Thomais Markou, James Pinkerton, Lars Rönnblom, Stacey Siu, Vanessa Taylor, Tiiu Wennberg, Dimitrios Zervas, Arian D J Laurence, Suman Mitra, Maria G Belvisi, Mark Birrell, and Annika Borde

Subjects

Pharmacology, Drug Design, Development and Therapy, Ovalbumin, STAT, Respiratory Medicine and Allergy, Pharmaceutical Science, Janus Kinase 1, Asthma, Rats, JAK, Drug Discovery, Animals, Cytokines, Humans, Janus Kinase Inhibitors, AZD4604, AZD0449, Lung, Signal Transduction, Lungmedicin och allergi

Abstract

Magnus Nilsson,1 Magdalena Rhedin,2 Ramon Hendrickx,3 Susanne Berglund,1 Antonio Piras,2 Parmis Blomgran,2 Anders Cavallin,2 Mia Collins,2 Göran Dahl,4 Bilel Dekkak,5 Therese Ericsson,3 Niklas Hagberg,6 Ann Aurell Holmberg,3 Agnes Leffler,2 Anders J Lundqvist,3 Thomais Markou,5,7 James Pinkerton,5,7 Lars Rönnblom,6 Stacey Siu,8 Vanessa Taylor,8 Tiiu Wennberg,2 Dimitrios Zervas,5,7 Arian D J Laurence,9 Suman Mitra,2 Maria G Belvisi,5,7 Mark Birrell,5,7 Annika Borde2 1Medicinal Chemistry, Research and Early Development, Respiratory & Immunology, BioPharmaceuticals R&D, AstraZeneca, Gothenburg, Sweden; 2Bioscience, Research and Early Development, Respiratory & Immunology, BioPharmaceuticals R&D, AstraZeneca, Gothenburg, Sweden; 3DMPK, Research and Early Development, Respiratory & Immunology, BioPharmaceuticals R&D, AstraZeneca, Gothenburg, Sweden; 4Discovery Science, R&D, AstraZeneca, Gothenburg, Sweden; 5Respiratory Pharmacology Group, Division of Airway Disease, National Heart and Lung Institute, Imperial College London, London, UK; 6Rheumatology and Science for Life Laboratories, Department of Medical Sciences, Uppsala University, Uppsala, Sweden; 7Research and Early Development, Respiratory & Immunology, BioPharmaceuticals R&D, AstraZeneca, Gothenburg, Sweden; 8Rigel Pharmaceuticals, South San Francisco, CA, USA; 9Department of Haematology, University College London Hospitals NHS Foundation Trust, London, UKCorrespondence: Magnus Nilsson, Medicinal Chemistry, Research and Early Development, Respiratory & Immunology, BioPharmaceuticals R&D, AstraZeneca, Gothenburg, SE-431 83, Sweden, Tel +46722237222, Email Magnus.Nilsson@astrazeneca.comPurpose: Janus kinase 1 (JAK1) is implicated in multiple inflammatory pathways that are critical for the pathogenesis of asthma, including the interleukin (IL)-4, IL-5, IL-13, and thymic stromal lymphopoietin cytokine signaling pathways, which have previously been targeted to treat allergic asthma. Here, we describe the development of AZD0449 and AZD4604, two novel and highly selective JAK1 inhibitors with promising properties for inhalation.Methods: The effects of AZD0449 and AZD4604 in JAK1 signaling pathways were assessed by measuring phosphorylation of signal transducer and activator of transcription (STAT) proteins and chemokine release using immunoassays of whole blood from healthy human volunteers and rats. Pharmacokinetic studies performed on rats evaluated AZD0449 at a lung deposited dose of 52 μg/kg and AZD4604 at 30 μg/kg. The efficacy of AZD0449 and AZD4604 was assessed by evaluating lung inflammation (cell count and cytokine levels) and the late asthmatic response (average enhanced pause [Penh]).Results: Both compounds inhibited JAK1-dependent cytokine signaling pathways in a dose-dependent manner in human and rat leukocytes. After intratracheal administration in rats, both compounds exhibited low systemic exposures and medium-to-long terminal lung half-lives (AZD0449, 34 hours; AZD4604, 5 hours). Both compounds inhibited STAT3 and STAT5 phosphorylation in lung tissue from ovalbumin (OVA)-challenged rats. AZD0449 and AZD4604 also inhibited eosinophilia in the lung and reduced the late asthmatic response, measured as Penh in the OVA rat model.Conclusion: AZD0449 and AZD4604 show potential as inhibitors of signaling pathways involved in asthmatic immune responses, with target engagement demonstrated locally in the lung. These findings support the clinical development of AZD0449 and AZD4604 for the treatment of patients with asthma.Keywords: AZD0449, AZD4604, JAK, STAT

Published

2022

3. fastMRI: A Publicly Available Raw k-Space and DICOM Dataset of Knee Images for Accelerated MR Image Reconstruction Using Machine Learning

Author

Anuroop Sriram, Adriana Romero, Pascal Vincent, Jure Zbontar, Duo Wang, Krzysztof J. Geras, Nafissa Yakubova, Mary Bruno, James Pinkerton, Michael G. Rabbat, Marc Parente, Aaron Defazio, Florian Knoll, Matthew J. Muckley, Zizhao Zhang, Joe Katsnelson, Michael P. Recht, Hersh Chandarana, Daniel K. Sodickson, Michal Drozdzalv, Yvonne W. Lui, C. Lawrence Zitnick, and Erich James Owens

Subjects

Radiological and Ultrasound Technology, Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, k-space, Data Resources, Machine learning, computer.software_genre, DICOM, Artificial Intelligence, Radiology, Nuclear Medicine and imaging, Artificial intelligence, Mr images, business, computer

Abstract

A publicly available dataset containing k-space data as well as Digital Imaging and Communications in Medicine image data of knee images for accelerated MR image reconstruction using machine learning is presented.

Published

2020

4. Macrolide therapy suppresses key features of experimental steroid-sensitive and steroid-insensitive asthma (HYP2P.342)

Author

Ama-Tawiah Essilfie, Jay Horvat, Richard Kim, Jemma Mayall, James Pinkerton, Emma Beckett, Malcolm Starkey, Jodie Simpson, Paul Foster, Peter Gibson, and Philip Hansbro

Subjects

Immunology, Immunology and Allergy

Abstract

Background Steroid-insensitive endotypes of asthma are an important clinical problem requiring effective treatments. They are associated with non-eosinophilic inflammatory responses and bacterial infections. Macrolide therapy is effective in steroid-insensitive endotypes, such as non-eosinophilic asthma, however the mechanisms of how they work is unknown. Objectives To determine the efficacy of macrolide and non-macrolide antibiotic treatments in infection-induced, severe, steroid-insensitive allergic airways disease (SSIAAD). Methods Mouse models of Chlamydia and Haemophilus lung infection-induced SSIAAD were used to investigate the effects of clarithromycin and amoxicillin treatment on immune responses and AHR in steroid-sensitive AAD and SSIAAD compared to dexamethasone treatment. Results Amoxicillin and clarithromycin had similar anti-microbial effects on infection. Amoxicillin did not suppress either form of AAD, but restored steroid sensitivity in SSIAAD by reducing infection. In contrast, clarithromycin alone widely suppressed inflammation and AHR in both steroid-sensitive and SSIAAD. This occurred through reductions in both Th2 responses that drive steroid-sensitive, eosinophilic AAD, and TNF-α and IL-17 responses that induce neutrophilic SSIAAD. Conclusions Macrolides have broad anti-inflammatory effects that are independent of their anti-microbial effects. The specific responses suppressed are dependent upon the responses that dominate during disease

Published

2015

5. MicroRNA-21 drives severe, steroid-insensitive experimental asthma by amplifying PI3K-mediated suppression of HDAC2 (HYP7P.262)

Author

Philip Hansbro, Richard Kim, James Pinkerton, Malcolm Starkey, Ama-Tawiah Essilfie, Jemma Mayall, Bernadette Jones, Tatt Haw, Simon Keely, Joerg Mattes, Ian Adcock, Paul Foster, and Jay Horvat

Subjects

Immunology, Immunology and Allergy

Abstract

BACKGROUND: Severe, steroid-insensitive (SSI) asthma is a substantial clinical problem. Effective treatments are urgently required, however, their development is hampered by a lack of understanding of the mechanisms that promote disease. SSI asthma is associated with respiratory infections and non-eosinophilic endotypes of disease, including neutrophilic asthma. OBJECTIVES: To develop and use mouse models of SSI neutrophilic asthma to investigate pathogenic mechanisms involving microRNA (miR)-21, phosphoinositide-3-kinase (PI3K) and histone deacetylase (HDAC)2 in order to identify new therapeutic approaches. METHODS: Novel mouse models of respiratory infection and ovalbumin-induced, SSI neutrophilic allergic airway disease (SSIAAD) in BALB/c mice were developed. The roles of infection-induced miR-21 expression and PI3K-dependent signalling in the lung were examined using a specific miR-21 inhibitor (antagomir-21) and the pan-PI3K inhibitor LY294002. RESULTS: Infection induced a miR-21-dependent, PI3K-mediated signalling pathway that decreased nuclear HDAC2 levels and promoted steroid-insensitive neutrophilic inflammation and airway hyper-responsiveness (AHR) in AAD. Inhibition of miR-21 or PI3K suppressed nuclear pAkt levels and restored HDAC2 levels and steroid sensitivity. CONCLUSIONS: We have identified a novel role for a miR-21/PI3K/HDAC2 signalling axis in SSIAAD. Our data highlights miR-21 as a novel target for treating this form of asthma.

Published

2015