Your search keyword '"Kaye J, Williams"' showing total 223 results

1. Dose escalation of tolinapant (ASTX660) in combination with standard radical chemoradiotherapy in cervical cancer : a study protocol for a phase 1b TiTE-CRM clinical trial (CRAIN) in UK secondary care centres

Author

Peter Hoskin, Marina Lee, Denise Dunkley, Mary Danh, Robin Wickens, Geoff Saunders, Josh Northey, Simon Crabb, Vicky McFarlane, Azmat Sadozye, Rachel Cooper, Tony Mathew, Kate Haslett, Kim Reeves, Rachel Reed, Kamilla Bigos, Kaye J. Williams, Emily Rowling, Ananya Choudhury, Sonia Dancer, Deb Smith, and Gareth Griffiths

Subjects

Cervical cancer, Tolinapant, Chemoradiotherapy, Cisplatin, Phase I, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Cervical cancer is the fourth most common cancer in women, with an estimated 342,000 deaths worldwide in 2020. Current standard of care in the UK for locally advanced cervical cancer is concurrent chemoradiotherapy with weekly cisplatin, yet 5-year overall survival rates are only 65% with a distant relapse rate of 50%. Inhibitors of Apoptosis Proteins (IAPs) are often overexpressed in cancer cells and associated with tumour progression and resistance to treatment. Tolinapant, developed by Astex Pharmaceuticals, is an IAP antagonist with an additional mechanism of action via down-regulation of NF-kB, an important regulator in cervical cancer. Preclinical studies performed using tolinapant in combination with cisplatin and radiotherapy showed inhibition of tumour growth and enhanced survival. There is therefore a strong rationale to combine tolinapant with chemoradiotherapy (CRT). Methods CRAIN is a phase Ib open-label, dose escalation study to characterise the safety, tolerability and initial evidence for clinical activity of tolinapant when administered in combination with cisplatin based CRT. Up to 42 patients with newly diagnosed cervix cancer will be recruited from six UK secondary care sites. The number of participants and the duration of the trial will depend on toxicities observed and dose escalation decisions, utilising a TiTE-CRM statistical design. Treatment will constist of standard of care CRT with 45 Gy external beam radiotherapy given in 25 daily fractions over 5 weeks with weekly cisplatin 40mg/m2. This is followed by brachytherapy for which common schedules will be 28 Gy in 4 fractions high-dose-rate or 34 Gy in 2 fractions pulsed-dose-rate. Tolinapant will be administered in fixed dose capsules taken orally daily for seven consecutive days as an outpatient on alternate weeks (weeks 1, 3, 5) during chemoradiation. Dose levels for tolinapant which will be assessed are: 60 mg; 90 mg (starting level); 120 mg; 150 mg; 180 mg. Escalation will be guided by emerging safety data and decisions by the Safety Review Committee. Discussion If this trial determines a recommended phase II dose and shows tolinapant to be safe and effective in combination with CRT, it would warrant future phase trials. Ultimately, we hope to provide a synergistic treatment option for these patients to improve outcome. Trial registrations EudraCT Number: 2021-006555-34 (issued 30th November 2021); ISRCTN18574865 (registered 30th August 2022).

Published

2024

2. Targeting Hypoxia-Inducible Factor-1α in Pancreatic Cancer: siRNA Delivery Using Hyaluronic Acid-Displaying Nanoparticles

Author

Alice Spadea, Annalisa Tirella, Julio Manuel Rios de la Rosa, Enrique Lallana, Manal Mehibel, Brian Telfer, Nicola Tirelli, Margaret Jayne Lawrence, Kaye J. Williams, Ian J. Stratford, and Marianne Ashford

Subjects

polymeric nanoparticles, siRNA delivery, cancer, hyaluronic acid, CD44, Pharmacy and materia medica, RS1-441

Abstract

Background/Objectives: Conventional anticancer therapies often lack specificity, targeting both cancerous and normal cells, which reduces efficacy and leads to undesired off-target effects. An additional challenge is the presence of hypoxic regions in tumors, where the Hypoxia Inducible Factor (HIF) transcriptional system drives the expression of pro-survival and drug resistance genes, leading to radio- and chemo-resistance. This study aims to explore the efficacy of targeted nanoparticle (NP)-based small interfering RNA (siRNA) therapies in downregulating these genes to enhance treatment outcomes in pancreatic cancer, a tumor type characterized by high CD44 expression and hypoxia. Methods: We utilized hyaluronic acid (HA)-displaying nanoparticles composed of positively charged chitosan (CS) complexed with siRNA to target and knock down HIF-1α in pancreatic cancer cells. Two NP formulations were prepared using either low molecular weight (LMW) or high molecular weight (HMW) CS. These formulations were evaluated for their internalization by cells and their effectiveness in gene silencing, both in vitro and in vivo. Results: The study found that the molecular weight (MW) of CS influenced the interaction between HA and CD44, as well as the release of siRNA upon internalization. The LMW CS formulation shows faster uptake kinetics, while HMW CS is more effective in gene knockdown across different cell lines in vitro. In vivo, both were able to significantly knockdown HIF-1α and some of its downstream genes. Conclusions: The results suggest that HMW and LMW CS-based NPs exhibit distinct characteristics, showing that both MWs have potential for targeted pancreatic cancer therapy by influencing different aspects of delivery and gene silencing, particularly in the hypoxic tumor microenvironment.

Published

2024

3. PARP14 inhibition restores PD-1 immune checkpoint inhibitor response following IFNγ-driven acquired resistance in preclinical cancer models

Author

Chun Wai Wong, Christos Evangelou, Kieran N. Sefton, Rotem Leshem, Wei Zhang, Vishaka Gopalan, Sorayut Chattrakarn, Macarena Lucia Fernandez Carro, Erez Uzuner, Holly Mole, Daniel J. Wilcock, Michael P. Smith, Kleita Sergiou, Brian A. Telfer, Dervla T. Isaac, Chang Liu, Nicholas R. Perl, Kerrie Marie, Paul Lorigan, Kaye J. Williams, Patricia E. Rao, Raghavendar T. Nagaraju, Mario Niepel, and Adam F. L. Hurlstone

Subjects

Science

Abstract

Abstract Resistance mechanisms to immune checkpoint blockade therapy (ICBT) limit its response duration and magnitude. Paradoxically, Interferon γ (IFNγ), a key cytokine for cellular immunity, can promote ICBT resistance. Using syngeneic mouse tumour models, we confirm that chronic IFNγ exposure confers resistance to immunotherapy targeting PD-1 (α-PD-1) in immunocompetent female mice. We observe upregulation of poly-ADP ribosyl polymerase 14 (PARP14) in chronic IFNγ-treated cancer cell models, in patient melanoma with elevated IFNG expression, and in melanoma cell cultures from ICBT-progressing lesions characterised by elevated IFNγ signalling. Effector T cell infiltration is enhanced in tumours derived from cells pre-treated with IFNγ in immunocompetent female mice when PARP14 is pharmacologically inhibited or knocked down, while the presence of regulatory T cells is decreased, leading to restoration of α-PD-1 sensitivity. Finally, we determine that tumours which spontaneously relapse in immunocompetent female mice following α-PD-1 therapy upregulate IFNγ signalling and can also be re-sensitised upon receiving PARP14 inhibitor treatment, establishing PARP14 as an actionable target to reverse IFNγ-driven ICBT resistance.

Published

2023

4. A preclinical radiotherapy dosimetry audit using a realistic 3D printed murine phantom

Author

Emma R. Biglin, Adam H. Aitkenhead, Gareth J. Price, Amy L. Chadwick, Elham Santina, Kaye J. Williams, and Karen J. Kirkby

Subjects

Medicine, Science

Abstract

Abstract Preclinical radiation research lacks standardized dosimetry procedures that provide traceability to a primary standard. Consequently, ensuring accuracy and reproducibility between studies is challenging. Using 3D printed murine phantoms we undertook a dosimetry audit of Xstrahl Small Animal Radiation Research Platforms (SARRPs) installed at 7 UK centres. The geometrically realistic phantom accommodated alanine pellets and Gafchromic EBT3 film for simultaneous measurement of the dose delivered and the dose distribution within a 2D plane, respectively. Two irradiation scenarios were developed: (1) a 10 × 10 mm2 static field targeting the pelvis, and (2) a 5 × 5 mm2 90° arc targeting the brain. For static fields, the absolute difference between the planned dose and alanine measurement across all centres was 4.1 ± 4.3% (mean ± standard deviation), with an overall range of − 2.3 to 10.5%. For arc fields, the difference was − 1.2% ± 6.1%, with a range of − 13.1 to 7.7%. EBT3 dose measurements were greater than alanine by 2.0 ± 2.5% and 3.5 ± 6.0% (mean ± standard deviation) for the static and arc fields, respectively. 2D dose distributions showed discrepancies to the planned dose at the field edges. The audit demonstrates that further work on preclinical radiotherapy quality assurance processes is merited.

Published

2022

5. Repurposing FDA approved drugs as radiosensitizers for treating hypoxic prostate cancer

Author

Becky A. S. Bibby, Niluja Thiruthaneeswaran, Lingjian Yang, Ronnie R. Pereira, Elisabet More, Darragh G. McArt, Paul O’Reilly, Robert G. Bristow, Kaye J. Williams, Ananya Choudhury, and Catharine M. L. West

Subjects

Diseases of the genitourinary system. Urology, RC870-923

Abstract

Abstract Background The presence of hypoxia is a poor prognostic factor in prostate cancer and the hypoxic tumor microenvironment promotes radioresistance. There is potential for drug radiotherapy combinations to improve the therapeutic ratio. We aimed to investigate whether hypoxia-associated genes could be used to identify FDA approved drugs for repurposing for the treatment of hypoxic prostate cancer. Methods Hypoxia associated genes were identified and used in the connectivity mapping software QUADrATIC to identify FDA approved drugs as candidates for repurposing. Drugs identified were tested in vitro in prostate cancer cell lines (DU145, PC3, LNCAP). Cytotoxicity was investigated using the sulforhodamine B assay and radiosensitization using a clonogenic assay in normoxia and hypoxia. Results Menadione and gemcitabine had similar cytotoxicity in normoxia and hypoxia in all three cell lines. In DU145 cells, the radiation sensitizer enhancement ratio (SER) of menadione was 1.02 in normoxia and 1.15 in hypoxia. The SER of gemcitabine was 1.27 in normoxia and 1.09 in hypoxia. No radiosensitization was seen in PC3 cells. Conclusion Connectivity mapping can identify FDA approved drugs for potential repurposing that are linked to a radiobiologically relevant phenotype. Gemcitabine and menadione could be further investigated as potential radiosensitizers in prostate cancer.

Published

2021

6. A Novel Mechanism of Ataxia Telangiectasia Mutated Mediated Regulation of Chromatin Remodeling in Hypoxic Conditions

Author

Maria Likhatcheva, Roben G. Gieling, James A. L. Brown, Constantinos Demonacos, and Kaye J. Williams

Subjects

Ataxia Telangiectasia Mutated (ATM), hypoxia, SUV39H1, Tip60, MDM2, Biology (General), QH301-705.5

Abstract

The effects of genotoxic stress can be mediated by activation of the Ataxia Telangiectasia Mutated (ATM) kinase, under both DNA damage-dependent (including ionizing radiation), and independent (including hypoxic stress) conditions. ATM activation is complex, and primarily mediated by the lysine acetyltransferase Tip60. Epigenetic changes can regulate this Tip60-dependent activation of ATM, requiring the interaction of Tip60 with tri-methylated histone 3 lysine 9 (H3K9me3). Under hypoxic stress, the role of Tip60 in DNA damage-independent ATM activation is unknown. However, epigenetic changes dependent on the methyltransferase Suv39H1, which generates H3K9me3, have been implicated. Our results demonstrate severe hypoxic stress (0.1% oxygen) caused ATM auto-phosphorylation and activation (pS1981), H3K9me3, and elevated both Suv39H1 and Tip60 protein levels in FTC133 and HCT116 cell lines. Exploring the mechanism of ATM activation under these hypoxic conditions, siRNA-mediated Suv39H1 depletion prevented H3K9me3 induction, and Tip60 inhibition (by TH1834) blocked ATM auto-phosphorylation. While MDM2 (Mouse double minute 2) can target Suv39H1 for degradation, it can be blocked by sirtuin-1 (Sirt1). Under severe hypoxia MDM2 protein levels were unchanged, and Sirt1 levels depleted. SiRNA-mediated depletion of MDM2 revealed MDM2 dependent regulation of Suv39H1 protein stability under these conditions. We describe a novel molecular circuit regulating the heterochromatic state (H3K9me3 positive) under severe hypoxic conditions, showing that severe hypoxia-induced ATM activation maintains H3K9me3 levels by downregulating MDM2 and preventing MDM2-mediated degradation of Suv39H1. This novel mechanism is a potential anti-cancer therapeutic opportunity, which if exploited could target the hypoxic tumor cells known to drive both tumor progression and treatment resistance.

Published

2021

7. Preclinical dosimetry: exploring the use of small animal phantoms

Author

Emma R. Biglin, Gareth J. Price, Amy L. Chadwick, Adam H. Aitkenhead, Kaye J. Williams, and Karen J. Kirkby

Subjects

Radiotherapy, Tissue-equivalent, Dosimetry, Phantoms, 3D printing, Medical physics. Medical radiology. Nuclear medicine, R895-920, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Preclinical radiotherapy studies using small animals are an indispensable step in the pathway from in vitro experiments to clinical implementation. As radiotherapy techniques advance in the clinic, it is important that preclinical models evolve to keep in line with these developments. The use of orthotopic tumour sites, the development of tissue-equivalent mice phantoms and the recent introduction of image-guided small animal radiation research platforms has enabled similar precision treatments to be delivered in the laboratory. These technological developments, however, are hindered by a lack of corresponding dosimetry standards and poor reporting of methodologies. Without robust and well documented preclinical radiotherapy quality assurance processes, it is not possible to ensure the accuracy and repeatability of dose measurements between laboratories. As a consequence current RT-based preclinical models are at risk of becoming irrelevant. In this review we explore current standardization initiatives, focusing in particular on recent developments in small animal irradiation equipment, 3D printing technology to create customisable tissue-equivalent dosimetry phantoms and combining these phantoms with commonly used detectors.

Published

2019

8. Akt inhibition improves long‐term tumour control following radiotherapy by altering the microenvironment

Author

Emma J Searle, Brian A Telfer, Debayan Mukherjee, Duncan M Forster, Barry R Davies, Kaye J Williams, Ian J Stratford, and Tim M Illidge

Subjects

Akt, microenvironment, radiotherapy, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Radiotherapy is an important anti‐cancer treatment, but tumour recurrence remains a significant clinical problem. In an effort to improve outcomes further, targeted anti‐cancer drugs are being tested in combination with radiotherapy. Here, we have studied the effects of Akt inhibition with AZD5363. AZD5363 administered as an adjuvant after radiotherapy to FaDu and PE/CA PJ34 tumours leads to long‐term tumour control, which appears to be secondary to effects on the irradiated tumour microenvironment. AZD5363 reduces the downstream effectors VEGF and HIF‐1α, but has no effect on tumour vascularity or oxygenation, or on tumour control, when administered prior to radiotherapy. In contrast, AZD5363 given after radiotherapy is associated with marked reductions in tumour vascular density, a decrease in the influx of CD11b+ myeloid cells and a failure of tumour regrowth. In addition, AZD5363 is shown to inhibit the proportion of proliferating tumour vascular endothelial cells in vivo, which may contribute to improved tumour control with adjuvant treatment. These new insights provide promise to improve outcomes with the addition of AZD5363 as an adjuvant therapy following radiotherapy.

Published

2017

9. Supplementary Figure 2 from Inhibition of Monocarboxylate Transporter-1 (MCT1) by AZD3965 Enhances Radiosensitivity by Reducing Lactate Transport

Author

Ian J. Stratford, Susan E. Critchlow, Paul D. Smith, Kaye J. Williams, Brian A. Telfer, Kathryn G. Blount, Filippos Michopoulos, Amy L. Chadwick, and Becky M. Bola

Abstract

This file shows a hierarchical analysis of individual metabolites

Published

2023

10. Supplementary Table 1 from Inhibition of Monocarboxylate Transporter-1 (MCT1) by AZD3965 Enhances Radiosensitivity by Reducing Lactate Transport

Author

Ian J. Stratford, Susan E. Critchlow, Paul D. Smith, Kaye J. Williams, Brian A. Telfer, Kathryn G. Blount, Filippos Michopoulos, Amy L. Chadwick, and Becky M. Bola

Abstract

This file contains details of the reaction conditions for determining glycolytic isoenzyme kinetics

Published

2023

11. Supplementary Tables 1-2 from The Clinically Active PARP Inhibitor AG014699 Ameliorates Cardiotoxicity but Does Not Enhance the Efficacy of Doxorubicin, despite Improving Tumor Perfusion and Radiation Response in Mice

Author

Kaye J. Williams, Nicola J. Curtin, Brian A. Telfer, Muhammed Babur, Ivanda Pavlovska, Suzanne Kyle, Huw D. Thomas, Marzieh Kamjoo, and Majid Ali

Abstract

PDF file - 41K

Published

2023

12. Supplementary Figure 5 from Inhibition of Monocarboxylate Transporter-1 (MCT1) by AZD3965 Enhances Radiosensitivity by Reducing Lactate Transport

Author

Ian J. Stratford, Susan E. Critchlow, Paul D. Smith, Kaye J. Williams, Brian A. Telfer, Kathryn G. Blount, Filippos Michopoulos, Amy L. Chadwick, and Becky M. Bola

Abstract

This file shows the aerobic and anoxic toxicity of AZD3965.

Published

2023

13. Supplementary Figure 2 from [18F]-FLT Positron Emission Tomography Can Be Used to Image the Response of Sensitive Tumors to PI3-Kinase Inhibition with the Novel Agent GDC-0941

Author

Kaye J. Williams, Ian Wilson, Duncan Hiscock, Caroline Dive, Adam McMahon, Gavin Brown, Cassandra Hodgkinson, Kathryn Simpson, Muhammad Babur, Alison Smigova, Marc Radigois, Jamil Gregory, Duncan Forster, Christopher J. Morrow, Roben G. Gieling, Natalie Burrows, and Christopher Cawthorne

Abstract

PDF file - 65 KB, Acute dosing with GDC-0941 leads to an increase in apoptotic signaling in in sensitive tumors.

Published

2023

14. Supplementary Figure 6 from Inhibition of Monocarboxylate Transporter-1 (MCT1) by AZD3965 Enhances Radiosensitivity by Reducing Lactate Transport

Author

Ian J. Stratford, Susan E. Critchlow, Paul D. Smith, Kaye J. Williams, Brian A. Telfer, Kathryn G. Blount, Filippos Michopoulos, Amy L. Chadwick, and Becky M. Bola

Abstract

This file shows IHC slides of H526 tumors taken from mice treated with or without AZD3965 and stained for MCT4 or CD31 expression.

Published

2023

15. Supplementary Figure 3 from Inhibition of Monocarboxylate Transporter-1 (MCT1) by AZD3965 Enhances Radiosensitivity by Reducing Lactate Transport

Author

Ian J. Stratford, Susan E. Critchlow, Paul D. Smith, Kaye J. Williams, Brian A. Telfer, Kathryn G. Blount, Filippos Michopoulos, Amy L. Chadwick, and Becky M. Bola

Abstract

This file shows a comparison of the effect of hypoxia on metabolite profiles.

Published

2023

16. Supplementary Figure 4 from Inhibition of Monocarboxylate Transporter-1 (MCT1) by AZD3965 Enhances Radiosensitivity by Reducing Lactate Transport

Author

Ian J. Stratford, Susan E. Critchlow, Paul D. Smith, Kaye J. Williams, Brian A. Telfer, Kathryn G. Blount, Filippos Michopoulos, Amy L. Chadwick, and Becky M. Bola

Abstract

This file shows that Inhibition of lactate transport by AZD3965 can cause oxidative stress.

Published

2023

17. Supplementary Figure 3 from [18F]-FLT Positron Emission Tomography Can Be Used to Image the Response of Sensitive Tumors to PI3-Kinase Inhibition with the Novel Agent GDC-0941

Author

Kaye J. Williams, Ian Wilson, Duncan Hiscock, Caroline Dive, Adam McMahon, Gavin Brown, Cassandra Hodgkinson, Kathryn Simpson, Muhammad Babur, Alison Smigova, Marc Radigois, Jamil Gregory, Duncan Forster, Christopher J. Morrow, Roben G. Gieling, Natalie Burrows, and Christopher Cawthorne

Abstract

PDF file - 75 KB, Uptake of 18F-FDG decreases significantly after ~18h of GDC-0941 treatment in U87, but not HCT116, tumors.

Published

2023

18. Supplementary Figure 1 from [18F]-FLT Positron Emission Tomography Can Be Used to Image the Response of Sensitive Tumors to PI3-Kinase Inhibition with the Novel Agent GDC-0941

Author

Kaye J. Williams, Ian Wilson, Duncan Hiscock, Caroline Dive, Adam McMahon, Gavin Brown, Cassandra Hodgkinson, Kathryn Simpson, Muhammad Babur, Alison Smigova, Marc Radigois, Jamil Gregory, Duncan Forster, Christopher J. Morrow, Roben G. Gieling, Natalie Burrows, and Christopher Cawthorne

Abstract

PDF file - 74 KB, GDC-0941 inhibits hypoxic signaling in drug sensitive U87 tumors.

Published

2023

19. Supplementary Figure 4 from [18F]-FLT Positron Emission Tomography Can Be Used to Image the Response of Sensitive Tumors to PI3-Kinase Inhibition with the Novel Agent GDC-0941

Author

Kaye J. Williams, Ian Wilson, Duncan Hiscock, Caroline Dive, Adam McMahon, Gavin Brown, Cassandra Hodgkinson, Kathryn Simpson, Muhammad Babur, Alison Smigova, Marc Radigois, Jamil Gregory, Duncan Forster, Christopher J. Morrow, Roben G. Gieling, Natalie Burrows, and Christopher Cawthorne

Abstract

PDF file - 46 KB, Chronic dosing with GDC-0941 leads to an increase in MAP-kinase pathway signaling in sensitive tumors.

Published

2023

20. Supplementary Information - Metabolites from Inhibition of Monocarboxylate Transporter-1 (MCT1) by AZD3965 Enhances Radiosensitivity by Reducing Lactate Transport

Author

Ian J. Stratford, Susan E. Critchlow, Paul D. Smith, Kaye J. Williams, Brian A. Telfer, Kathryn G. Blount, Filippos Michopoulos, Amy L. Chadwick, and Becky M. Bola

Abstract

This file contains information on the metabolites measured in the metabolomics analysis

Published

2023

21. Supplementary Figure 1 from The Clinically Active PARP Inhibitor AG014699 Ameliorates Cardiotoxicity but Does Not Enhance the Efficacy of Doxorubicin, despite Improving Tumor Perfusion and Radiation Response in Mice

Author

Kaye J. Williams, Nicola J. Curtin, Brian A. Telfer, Muhammed Babur, Ivanda Pavlovska, Suzanne Kyle, Huw D. Thomas, Marzieh Kamjoo, and Majid Ali

Abstract

PDF file - 81K

Published

2023

22. Supplementary Figure Legends from Inhibition of Monocarboxylate Transporter-1 (MCT1) by AZD3965 Enhances Radiosensitivity by Reducing Lactate Transport

Author

Ian J. Stratford, Susan E. Critchlow, Paul D. Smith, Kaye J. Williams, Brian A. Telfer, Kathryn G. Blount, Filippos Michopoulos, Amy L. Chadwick, and Becky M. Bola

Abstract

This file provides the legends to Supplementary figures 1-6.

Published

2023

23. Supplementary Figure 1 from Inhibition of Monocarboxylate Transporter-1 (MCT1) by AZD3965 Enhances Radiosensitivity by Reducing Lactate Transport

Author

Ian J. Stratford, Susan E. Critchlow, Paul D. Smith, Kaye J. Williams, Brian A. Telfer, Kathryn G. Blount, Filippos Michopoulos, Amy L. Chadwick, and Becky M. Bola

Abstract

This file shows thes tructure of AZD3965, which is the S enantiomer.

Published

2023

24. Supplementary Methods from Inhibition of Monocarboxylate Transporter-1 (MCT1) by AZD3965 Enhances Radiosensitivity by Reducing Lactate Transport

Author

Ian J. Stratford, Susan E. Critchlow, Paul D. Smith, Kaye J. Williams, Brian A. Telfer, Kathryn G. Blount, Filippos Michopoulos, Amy L. Chadwick, and Becky M. Bola

Abstract

This file contains details of the MTT proliferation assay

Published

2023

25. Data from [18F]-FLT Positron Emission Tomography Can Be Used to Image the Response of Sensitive Tumors to PI3-Kinase Inhibition with the Novel Agent GDC-0941

Author

Kaye J. Williams, Ian Wilson, Duncan Hiscock, Caroline Dive, Adam McMahon, Gavin Brown, Cassandra Hodgkinson, Kathryn Simpson, Muhammad Babur, Alison Smigova, Marc Radigois, Jamil Gregory, Duncan Forster, Christopher J. Morrow, Roben G. Gieling, Natalie Burrows, and Christopher Cawthorne

Abstract

The phosphoinositide 3-kinase (PI3K) pathway is deregulated in a range of cancers, and several targeted inhibitors are entering the clinic. This study aimed to investigate whether the positron emission tomography tracer 3′-deoxy-3′-[18F]fluorothymidine ([18F]-FLT) is suitable to mark the effect of the novel PI3K inhibitor GDC-0941, which has entered phase II clinical trial. CBA nude mice bearing U87 glioma and HCT116 colorectal xenografts were imaged at baseline with [18F]-FLT and at acute (18 hours) and chronic (186 hours) time points after twice-daily administration of GDC-0941 (50 mg/kg) or vehicle. Tumor uptake normalized to blood pool was calculated, and tissue was analyzed at sacrifice for PI3K pathway inhibition and thymidine kinase (TK1) expression. Uptake of [18F]-FLT was also assessed in tumors inducibly overexpressing a dominant-negative form of the PI3K p85 subunit p85α, as well as HCT116 liver metastases after GDC-0941 therapy. GDC-0941 treatment induced tumor stasis in U87 xenografts, whereas inhibition of HCT116 tumors was more variable. Tumor uptake of [18F]-FLT was significantly reduced following GDC-0941 dosing in responsive tumors at the acute time point and correlated with pharmacodynamic markers of PI3K signaling inhibition and significant reduction in TK1 expression in U87, but not HCT116, tumors. Reduction of PI3K signaling via expression of Δp85α significantly reduced tumor growth and [18F]-FLT uptake, as did treatment of HCT116 liver metastases with GDC-0941. These results indicate that [18F]-FLT is a strong candidate for the noninvasive measurement of GDC-0941 action. Mol Cancer Ther; 12(5); 819–28. ©2013 AACR.

Published

2023

26. Supplementary Figure Legends from [18F]-FLT Positron Emission Tomography Can Be Used to Image the Response of Sensitive Tumors to PI3-Kinase Inhibition with the Novel Agent GDC-0941

Author

Kaye J. Williams, Ian Wilson, Duncan Hiscock, Caroline Dive, Adam McMahon, Gavin Brown, Cassandra Hodgkinson, Kathryn Simpson, Muhammad Babur, Alison Smigova, Marc Radigois, Jamil Gregory, Duncan Forster, Christopher J. Morrow, Roben G. Gieling, Natalie Burrows, and Christopher Cawthorne

Abstract

PDF file - 51 KB

Published

2023

27. Supplementary Figure 10 from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Figure 10

Published

2023

28. Data from The Mitogen-Activated Protein/Extracellular Signal-Regulated Kinase Kinase 1/2 Inhibitor AZD6244 (ARRY-142886) Enhances the Radiation Responsiveness of Lung and Colorectal Tumor Xenografts

Author

Stephen R. Wedge, Kaye J. Williams, Ian J. Stratford, Camille Debray, Robert W. Wilkinson, Armelle Logie, Muhammed Babur, Paul D. Smith, Brian A. Telfer, and Aoife M. Shannon

Abstract

Purpose: Novel molecularly targeted agents, given in combination with radiotherapy, have the potential to increase tumor response rates and the survival of patients with lung cancer. AZD6244 is a potent and selective inhibitor of mitogen-activated protein kinase (MAPK) kinase 1/2 (MEK1/2), a critical enzyme within the MAPK/extracellular signal-regulated kinase (ERK) signaling pathway that regulates the proliferation and survival of tumor cells.Experimental Design: This study examined the potential benefit of combining AZD6244 with fractionated radiotherapy using human lung and colon carcinoma xenograft models.Results: AZD6244 reduced ERK phosphorylation in Calu-6 lung cancer cells in vitro. Administration of AZD6244 for 10 days (25 mg/kg twice daily p.o.) inhibited the tumor growth of Calu-6 xenografts, with regrowth occurring on cessation of drug treatment. When fractionated tumor-localized radiotherapy (5 × 2 Gy) was combined with AZD6244 treatment, the tumor growth delay was enhanced significantly when compared with either modality alone, and this effect was also seen in a colon tumor model. We examined the effect of inhibiting MEK1/2 on the molecular responses to hypoxia, a potential interaction that could contribute to radioresponsiveness. AZD6244 reduced hypoxia-inducible factor–specific transactivation in vivo, shown using Calu-6 dual clone cells that stably express a Firefly luciferase gene under the control of a hypoxia-driven promoter. Furthermore, hypoxia-inducible factor-1α, GLUT-1, and vascular endothelial growth factor levels were reduced by AZD6244, and there was a significant decrease in vascular perfusion in the tumors given combination treatment when compared with the other treatment groups.Conclusions: These data provide support for the clinical development of AZD6244 in combination with radiotherapy and indicate a potential role for AZD6244 in inhibiting the tumor hypoxia response. (Clin Cancer Res 2009;15(21):6619–29)

Published

2023

29. Supplementary Video from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Video

Published

2023

30. Supplementary Data from Enhanced Fatty Acid Scavenging and Glycerophospholipid Metabolism Accompany Melanocyte Neoplasia Progression in Zebrafish

Author

Adam Hurlstone, Adam W. McMahon, Kaye J. Williams, Emmanuelle Claude, Paul Lorigan, Michael P. Smith, Herman P. Spaink, Warwick B. Dunn, Katherine Hollywood, B. Ewa Snaar-Jagalska, Shuning He, Irene Barinaga-Rementeria Ramirez, Michael Fairclough, Michael Green, Jivko Kamarashev, Christos Evangelou, Raghavendar T. Nagaraju, Duncan Forster, Emrys A. Jones, Andrew P. Badrock, Hannah R. Johnston, and Fiona Henderson

Abstract

Figures S1-S9

Published

2023

31. Supplementary Material from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Material

Published

2023

32. Table S2 from Enhanced Fatty Acid Scavenging and Glycerophospholipid Metabolism Accompany Melanocyte Neoplasia Progression in Zebrafish

Author

Adam Hurlstone, Adam W. McMahon, Kaye J. Williams, Emmanuelle Claude, Paul Lorigan, Michael P. Smith, Herman P. Spaink, Warwick B. Dunn, Katherine Hollywood, B. Ewa Snaar-Jagalska, Shuning He, Irene Barinaga-Rementeria Ramirez, Michael Fairclough, Michael Green, Jivko Kamarashev, Christos Evangelou, Raghavendar T. Nagaraju, Duncan Forster, Emrys A. Jones, Andrew P. Badrock, Hannah R. Johnston, and Fiona Henderson

Abstract

From microarray analysis, genes from VGP melanocyte neoplasia whose transcripts are significantly up- or down-regulated compared to wild-type tissue that are associated with lipid metabolism and are not differentially expressed also in BRAFV600E or V12RAS RGP samples.

Published

2023

33. Supplementary Figure 5 from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Figure 5

Published

2023

34. Supplementary Figure 6 from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Figure 6

Published

2023

35. Supplementary Figure 8 from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Figure 8

Published

2023

36. Supplementary Figure 2 from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Figure 2

Published

2023

37. Supplementary Figure 4 from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Figure 4

Published

2023

38. Supplementary Figure 9 from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Figure 9

Published

2023

39. Supplementary Data from The Mitogen-Activated Protein/Extracellular Signal-Regulated Kinase Kinase 1/2 Inhibitor AZD6244 (ARRY-142886) Enhances the Radiation Responsiveness of Lung and Colorectal Tumor Xenografts

Author

Stephen R. Wedge, Kaye J. Williams, Ian J. Stratford, Camille Debray, Robert W. Wilkinson, Armelle Logie, Muhammed Babur, Paul D. Smith, Brian A. Telfer, and Aoife M. Shannon

Abstract

Supplementary Data from The Mitogen-Activated Protein/Extracellular Signal-Regulated Kinase Kinase 1/2 Inhibitor AZD6244 (ARRY-142886) Enhances the Radiation Responsiveness of Lung and Colorectal Tumor Xenografts

Published

2023

40. Supplementary Tables from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Tables

Published

2023

41. Supplementary Figure 7 from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Figure 7

Published

2023

42. Data from Enhanced Fatty Acid Scavenging and Glycerophospholipid Metabolism Accompany Melanocyte Neoplasia Progression in Zebrafish

Author

Adam Hurlstone, Adam W. McMahon, Kaye J. Williams, Emmanuelle Claude, Paul Lorigan, Michael P. Smith, Herman P. Spaink, Warwick B. Dunn, Katherine Hollywood, B. Ewa Snaar-Jagalska, Shuning He, Irene Barinaga-Rementeria Ramirez, Michael Fairclough, Michael Green, Jivko Kamarashev, Christos Evangelou, Raghavendar T. Nagaraju, Duncan Forster, Emrys A. Jones, Andrew P. Badrock, Hannah R. Johnston, and Fiona Henderson

Abstract

Alterations in lipid metabolism in cancer cells impact cell structure, signaling, and energy metabolism, making lipid metabolism a potential diagnostic marker and therapeutic target. In this study, we combined PET, desorption electrospray ionization-mass spectrometry (DESI-MS), nonimaging MS, and transcriptomic analyses to interrogate changes in lipid metabolism in a transgenic zebrafish model of oncogenic RAS-driven melanocyte neoplasia progression. Exogenous fatty acid uptake was detected in melanoma tumor nodules by PET using the palmitic acid surrogate tracer 14(R,S)-18F-fluoro-6-thia-heptadecanoic acid ([18F]-FTHA), consistent with upregulation of genes associated with fatty acid uptake found through microarray analysis. DESI-MS imaging revealed that FTHA uptake in tumors was heterogeneous. Transcriptome and lipidome analyses further highlighted dysregulation of glycerophospholipid pathways in melanoma tumor nodules, including increased abundance of phosphatidyl ethanolamine and phosphatidyl choline species, corroborated by DESI-MS, which again revealed heterogeneous phospholipid composition in tumors. Overexpression of the gene encoding lipoprotein lipase (LPL), which was upregulated in zebrafish melanocyte tumor nodules and expressed in the majority of human melanomas, accelerated progression of oncogenic RAS-driven melanocyte neoplasia in zebrafish. Depletion or antagonism of LPL suppressed human melanoma cell growth; this required simultaneous fatty acid synthase (FASN) inhibition when FASN expression was also elevated. Collectively, our findings implicate fatty acid acquisition as a possible therapeutic target in melanoma, and the methods we developed for monitoring fatty acid uptake have potential for diagnosis, patient stratification, and monitoring pharmacologic response.Significance:These findings demonstrate the translational potential of monitoring fatty acid uptake and identify lipoprotein lipase as a potential therapeutic target in melanoma.

Published

2023

43. Supplementary Figure 3 from Oxygen-enhanced MRI Is Feasible, Repeatable, and Detects Radiotherapy-induced Change in Hypoxia in Xenograft Models and in Patients with Non–small Cell Lung Cancer

Author

James P.B. O'Connor, Kaye J. Williams, Corinne Faivre-Finn, Geoff J.M. Parker, Alan Jackson, Robert G. Bristow, Marie-Claude Asselin, Julian C. Matthews, Caron Behan, Garry Ashton, Hitesh Mistry, Victoria Tessyman, Yvonne Watson, Susan Cheung, Isabel Peset, Muhammad Babur, Adam K. Featherstone, Ayşe Latif, Ross A. Little, and Ahmed Salem

Abstract

Supplementary Figure 3

Published

2023

44. Supplementary Data from Vasoactivity of AG014699, a Clinically Active Small Molecule Inhibitor of Poly(ADP-ribose) Polymerase: a Contributory Factor to Chemopotentiation In vivo?

Author

Kaye J. Williams, Nicola J. Curtin, David G. Hirst, Chris Shaw, Tracy Robson, Suzanne Kyle, Marzieh Kamjoo, Huw D. Thomas, Martin O'Rourke, Cian McCrudden, Brian A. Telfer, and Majid Ali

Abstract

Supplementary Data from Vasoactivity of AG014699, a Clinically Active Small Molecule Inhibitor of Poly(ADP-ribose) Polymerase: a Contributory Factor to Chemopotentiation In vivo?

Published

2023

45. Data from Oxygen-Enhanced MRI Accurately Identifies, Quantifies, and Maps Tumor Hypoxia in Preclinical Cancer Models

Author

Simon P. Robinson, John C. Waterton, Andrew R. Reynolds, Geoff J.M. Parker, Alan Jackson, Ross A. Little, Kaye J. Williams, Katherine G. Finegan, Muhammad Babur, Yann Jamin, Jessica K.R. Boult, and James P.B. O'Connor

Abstract

There is a clinical need for noninvasive biomarkers of tumor hypoxia for prognostic and predictive studies, radiotherapy planning, and therapy monitoring. Oxygen-enhanced MRI (OE-MRI) is an emerging imaging technique for quantifying the spatial distribution and extent of tumor oxygen delivery in vivo. In OE-MRI, the longitudinal relaxation rate of protons (ΔR1) changes in proportion to the concentration of molecular oxygen dissolved in plasma or interstitial tissue fluid. Therefore, well-oxygenated tissues show positive ΔR1. We hypothesized that the fraction of tumor tissue refractory to oxygen challenge (lack of positive ΔR1, termed “Oxy-R fraction”) would be a robust biomarker of hypoxia in models with varying vascular and hypoxic features. Here, we demonstrate that OE-MRI signals are accurate, precise, and sensitive to changes in tumor pO2 in highly vascular 786-0 renal cancer xenografts. Furthermore, we show that Oxy-R fraction can quantify the hypoxic fraction in multiple models with differing hypoxic and vascular phenotypes, when used in combination with measurements of tumor perfusion. Finally, Oxy-R fraction can detect dynamic changes in hypoxia induced by the vasomodulator agent hydralazine. In contrast, more conventional biomarkers of hypoxia (derived from blood oxygenation-level dependent MRI and dynamic contrast–enhanced MRI) did not relate to tumor hypoxia consistently. Our results show that the Oxy-R fraction accurately quantifies tumor hypoxia noninvasively and is immediately translatable to the clinic. Cancer Res; 76(4); 787–95. ©2015 AACR.

Published

2023

46. Supplementary Figure S2 from Oxygen-Enhanced MRI Accurately Identifies, Quantifies, and Maps Tumor Hypoxia in Preclinical Cancer Models

Author

Simon P. Robinson, John C. Waterton, Andrew R. Reynolds, Geoff J.M. Parker, Alan Jackson, Ross A. Little, Kaye J. Williams, Katherine G. Finegan, Muhammad Babur, Yann Jamin, Jessica K.R. Boult, and James P.B. O'Connor

Abstract

Validation of R1 measurement accuracy

Published

2023

47. Roadmap for Precision preclinical x-ray radiation studies

Author

Frank Verhaegen, Karl T Butterworth, Anthony J Chalmers, Rob P Coppes, Dirk de Ruysscher, Sophie Dobiasch, John D Fenwick, Patrick V Granton, Stefan H J Heijmans, Mark A Hill, Constantinos Koumenis, Kirsten Lauber, Brian Marples, Katia Parodi, Lucas C G G Persoon, Nick Staut, Anna Subiel, Rianne D W Vaes, Stefan van Hoof, Ioannis L Verginadis, Jan J Wilkens, Kaye J Williams, George D Wilson, Ludwig J Dubois, Maastro clinic, RS: GROW - R3 - Innovative Cancer Diagnostics & Therapy, Radiotherapie, Surgery, M-lab, RS: GROW - R2 - Basic and Translational Cancer Biology, and Precision Medicine

Subjects

irradiation, dosimetry, Radiological and Ultrasound Technology, translation, imaging, SDG 3 - Good Health and Well-being, Radiology Nuclear Medicine and imaging, preclinical, precision, Radiology, Nuclear Medicine and imaging, cancer models

Abstract

This Roadmap paper covers the field of precision preclinical x-ray radiation studies in animal models. It is mostly focused on models for cancer and normal tissue response to radiation, but also discusses other disease models. The recent technological evolution in imaging, irradiation, dosimetry and monitoring that have empowered these kinds of studies is discussed, and many developments in the near future are outlined. Finally, clinical translation and reverse translation are discussed.

Published

2023

48. Spatial gene expression changes in the mouse heart after base-targeted irradiation

Author

Gerard M. Walls, Mihaela Ghita, Rachel Queen, Kevin S. Edgar, Eleanor K. Gill, Refik Kuburas, David J. Grieve, Chris J. Watson, Alan McWilliam, Marcel Van Herk, Kaye J. Williams, Aidan J. Cole, Suneil Jain, Karl T. Butterworth, and Biomedical Engineering and Physics

Subjects

Cancer Research, Radiation, Oncology, SDG 3 - Good Health and Well-being, Radiology Nuclear Medicine and imaging, Radiology, Nuclear Medicine and imaging

Abstract

Purpose: Radiation cardiotoxicity (RC) is a clinically significant adverse effect of treatment for patients with thoracic malignancies. Clinical studies in lung cancer have indicated that heart substructures are not uniformly radiosensitive, and that dose to the heart base drives RC. In this study, we aimed to characterize late changes in gene expression using spatial transcriptomics in a mouse model of base regional radiosensitivity. Methods and Materials: An aged female C57BL/6 mouse was irradiated with 16 Gy delivered to the cranial third of the heart using a 6 × 9 mm parallel opposed beam geometry on a small animal radiation research platform, and a second mouse was sham-irradiated. After echocardiography, whole hearts were collected at 30 weeks for spatial transcriptomic analysis to map gene expression changes occurring in different regions of the partially irradiated heart. Cardiac regions were manually annotated on the capture slides and the gene expression profiles compared across different regions. Results: Ejection fraction was reduced at 30 weeks after a 16 Gy irradiation to the heart base, compared with the sham-irradiated controls. There were markedly more significant gene expression changes within the irradiated regions compared with nonirradiated regions. Variation was observed in the transcriptomic effects of radiation on different cardiac base structures (eg, between the right atrium [n = 86 dysregulated genes], left atrium [n = 96 dysregulated genes], and the vasculature [n = 129 dysregulated genes]). Disrupted biological processes spanned extracellular matrix as well as circulatory, neuronal, and contractility activities. Conclusions: This is the first study to report spatially resolved gene expression changes in irradiated tissues. Examination of the regional radiation response in the heart can help to further our understanding of the cardiac base's radiosensitivity and support the development of actionable targets for pharmacologic intervention and biologically relevant dose constraints.

Published

2023

49. High content screening of patient-derived cell lines highlights the potential of non-standard chemotherapeutic agents for the treatment of glioblastoma.

Author

Kenny Kwok-Hei Yu, Jessica T Taylor, Omar N Pathmanaban, Amir Saam Youshani, Deniz Beyit, Joanna Dutko-Gwozdz, Roderick Benson, Gareth Griffiths, Ian Peers, Peter Cueppens, Brian A Telfer, Kaye J Williams, Catherine McBain, Ian D Kamaly-Asl, and Brian W Bigger

Subjects

Medicine, Science

Abstract

Glioblastoma (GBM) is the most common primary brain malignancy in adults, yet survival outcomes remain poor. First line treatment is well established, however disease invariably recurs and improving prognosis is challenging. With the aim of personalizing therapy at recurrence, we have established a high content screening (HCS) platform to analyze the sensitivity profile of seven patient-derived cancer stem cell lines to 83 FDA-approved chemotherapy drugs, with and without irradiation.Seven cancer stem cell lines were derived from patients with GBM and, along with the established cell line U87-MG, each patient-derived line was cultured in tandem in serum-free conditions as adherent monolayers and three-dimensional neurospheres. Chemotherapeutics were screened at multiple concentrations and cells double-stained to observe their effect on both cell death and proliferation. Sensitivity was classified using high-throughput algorithmic image analysis.Cell line specific drug responses were observed across the seven patient-derived cell lines. Few agents were seen to have radio-sensitizing effects, yet some drug classes showed a marked difference in efficacy between monolayers and neurospheres. In vivo validation of six drugs suggested that cell death readout in a three-dimensional culture scenario is a more physiologically relevant screening model and could be used effectively to assess the chemosensitivity of patient-derived GBM lines.The study puts forward a number of non-standard chemotherapeutics that could be useful in the treatment of recurrent GBM, namely mitoxantrone, bortezomib and actinomycin D, whilst demonstrating the potential of HCS to be used for personalized treatment based on the chemosensitivity profile of patient tumor cells.

Published

2018

50. PARP14 inhibition restores PD-1 immune checkpoint inhibitor response following IFNγ-driven adaptive resistance

Author

Chun Wai Wong, Christos Evangelou, Kieran N. Sefton, Rotem Leshem, Kleita Sergiou, Macarena Lucia Fernandez Carro, Erez Uzuner, Holly Mole, Brian A. Telfer, Daniel J. Wilcock, Michael P. Smith, Kaiko Kunii, Nicholas R. Perl, Paul Lorigan, Kaye J. Williams, Patricia E. Rao, Raghavendar T. Nagaraju, Mario Niepel, and Adam F.L. Hurlstone

Abstract

Adaptive resistance limits immune checkpoint blockade therapy (ICBT) response duration and magnitude. Interferon γ (IFNγ), a critical cytokine that promotes cellular immunity, also induces adaptive resistance to ICBT. Using syngeneic mouse tumour models, we confirmed that chronic IFNγ exposure confers resistance to anti-Programmed cell death protein 1 (α-PD-1) therapy. We identified consistent upregulation of poly-ADP ribosyl polymerase 14 (PARP14) in both chronic IFNγ-treated cancer cells and patient melanoma with elevatedIFNGexpression. Knockdown or pharmacological inhibition of PARP14 increased effector T cell infiltration into tumours derived from cells pre-treated with IFNγ and decreased the presence of regulatory T cells, leading to restoration of α-PD-1 sensitivity. Finally, we determined that tumours which spontaneously relapsed following α-PD-1 therapy could be re-sensitised upon receiving PARP14 inhibitor treatment, establishing PARP14 as an actionable target to reverse IFNγ-driven ICBT resistance.

Published

2022