Your search keyword '"Ian R. Powley"' showing total 17 results

1. An optimised patient-derived explant platform for breast cancer reflects clinical responses to chemotherapy and antibody-directed therapy

Author

Constantinos Demetriou, Naila Abid, Michael Butterworth, Larissa Lezina, Pavandeep Sandhu, Lynne Howells, Ian R. Powley, James H. Pringle, Zahirah Sidat, Omar Qassid, Dave Purnell, Monika Kaushik, Kaitlin Duckworth, Helen Hartshorn, Anne Thomas, Jacqui A. Shaw, Marion MacFarlane, Catrin Pritchard, and Gareth J. Miles

Subjects

Patient-derived explants, Therapies, HER2, Breast cancer, Multi-immunofluorescence, Medicine, Science

Abstract

Abstract Breast Cancer is the most common cancer among women globally. Despite significant improvements in overall survival, many tumours are refractory to therapy and so novel approaches are required to improve patient outcomes. We have evaluated patient-derived explants (PDEs) as a novel preclinical platform for breast cancer (BC) and implemented cutting-edge digital pathology and multi-immunofluorescent approaches for investigating biomarker changes in both tumour and stromal areas at endpoint. Short-term culture of intact fragments of BCs as PDEs retained an intact immune microenvironment, and tumour architecture was augmented by the inclusion of autologous serum in the culture media. Cell death/proliferation responses to FET chemotherapy in BC-PDEs correlated significantly with BC patient progression-free survival (p = 0.012 and p = 0.0041, respectively) and cell death responses to the HER2 antibody therapy trastuzumab correlated significantly with HER2 status (p = 0.018). These studies show that the PDE platform combined with digital pathology is a robust preclinical approach for informing clinical responses to chemotherapy and antibody-directed therapies in breast cancer. Furthermore, since BC-PDEs retain an intact tumour architecture over the short-term, they facilitate the preclinical testing of anti-cancer agents targeting the tumour microenvironment.

Published

2024

2. Cryo-EM structural analysis of FADD:Caspase-8 complexes defines the catalytic dimer architecture for co-ordinated control of cell fate

Author

Joanna L. Fox, Michelle A. Hughes, Xin Meng, Nikola A. Sarnowska, Ian R. Powley, Rebekah Jukes-Jones, David Dinsdale, Timothy J. Ragan, Louise Fairall, John W. R. Schwabe, Nobuhiro Morone, Kelvin Cain, and Marion MacFarlane

Subjects

Science

Abstract

The core FADD:Caspase-8 complex and its regulatory partners, such as the cell death inhibitor c-FLIP, coordinate cell fate. Here authors present the structure of full-length procaspase-8 in a complex with FADD and reveal how recruitment of c-FLIPS into this complex inhibits Caspase-8 activity.

Published

2021

3. Absent expansion of AXIN2+ hepatocytes and altered physiology in Axin2CreERT2 mice challenges the role of pericentral hepatocytes in homeostatic liver regeneration

Author

Stephanie May, Miryam Müller, Callum R. Livingstone, George L. Skalka, Peter J. Walsh, Colin Nixon, Ann Hedley, Robin Shaw, William Clark, Johan Vande Voorde, Leah Officer-Jones, Fiona Ballantyne, Ian R. Powley, Thomas M. Drake, Christos Kiourtis, Andrew Keith, Ana Sofia Rocha, Saverio Tardito, David Sumpton, John Le Quesne, Martin Bushell, Owen J. Sansom, and Thomas G. Bird

Subjects

Hepatology

Abstract

BACKGROUND & AIMS: Mouse models of lineage tracing have helped to describe the important subpopulations of hepatocytes responsible for liver regeneration. However, conflicting results have been obtained from different models. Here we aimed to reconcile these conflicting reports by repeating a key lineage tracing study from pericentral hepatocytes and characterised this Axin2CreERT2 model in detail.METHODS: We performed detailed characterisation of the labelled population in the Axin2CreERT2 model. We lineage traced this cell population, quantifying the labelled population over 1 year and performed in depth phenotypic comparison including transcriptomics, metabolomics and analysis of protein through immunohistochemistry of Axin2CreERT2 mice to WT counterparts.RESULTS: We find that after careful definition of a baseline population there is marked differences in labelling between male and female mice. Upon induced lineage tracing there was no expansion of the labelled hepatocyte population in Axin2CreERT2 mice. We find substantial evidence of disrupted homeostasis in Axin2CreERT2 mice. Offspring are born with sub-Mendelian ratios and adult mice have perturbations of hepatic Wnt/β-catenin signalling and related metabolomic disturbance.CONCLUSIONS: We find no evidence of predominant expansion of the pericentral hepatocyte population during liver homeostatic regeneration. Our data highlight the importance of detailed preclinical model characterisation and the pitfalls which may occur when comparing across sexes and backgrounds of mice and the effects of genetic insertion into native loci.

Published

2023

4. Metabolic reprogramming provides a novel approach to overcome resistance to BH3-mimetics in Malignant Pleural Mesothelioma

Author

Xiao-Ming Sun, Gareth J Miles, Ian R Powley, Andrew Craxton, Sarah Galavotti, Tatyana Chernova, Alan Dawson, Apostolos Nakas, Anne E Willis, Kelvin Cain, and Marion MacFarlane

Abstract

Malignant pleural mesothelioma (MPM) is an aggressive malignancy linked to asbestos exposure and highly resistant to chemotherapy, potentially due to upregulated expression of the pro-survival proteins, BCL2/BCL-XL/MCL-1. Using clinically-relevant models of MPM we show that patient-derived primary MPM cell lines andex-vivo3D tumour explants are highly resistant to apoptosis induced by the BCL2/BCL-XL inhibitor, ABT-737. Importantly, we discover that 2-deoxyglucose (2DG), a glycolytic inhibitor, can sensitize MPM cells to ABT-737 and show this correlates with loss of the pro-survival protein, MCL-1. siRNA knockdown of MCL-1 (MCL-1 KD) combined with ABT-737 induced BAX/BAK-dependent, but BIM/PUMA-independent apoptosis, mimicking 2DG/ABT-737 treatment. MCL-1 KD/ABT-737 induced mitochondrial cytochromecrelease and caspase-independent inhibition of mitochondrial respiration. Moreover, we observed a hitherto unreported caspase-dependent cleavage of glycolytic enzymes and subsequent inhibition of glycolysis. 2DG inhibited ERK/STAT3 activity, decreased MCL-1 mRNA and protein levels, with concurrent activation of AKT, which limited loss of MCL-1 protein. However, co-treatment with a specific AKT inhibitor, AZD5363, and 2DG/ABT-737 potently induced cell death and inhibited clonogenic cell survival, while in MPM 3D tumour explants MCL-1 protein expression decreased significantly following 2DG or 2DG/AZD5363 treatment. Notably, a similar synergy was observed in MPM cell lines and MPM 3D tumour explants using ABT-737 in combination with the recently developed MCL-1 inhibitor, S63845. Importantly, our study provides a mechanistic explanation for the chemoresistance of MPM and highlights how this can be overcome by a combination of metabolic reprogramming and/or simultaneous targeting of MCL-1 and BCL-2/BCL-XL using BH3-mimetics.

Published

2023

5. Evaluating and comparing immunostaining and computational methods for spatial profiling of drug response in patient-derived explants

Author

Marion MacFarlane, Lynne M. Howells, Catrin Pritchard, Gareth J Miles, J. Howard Pringle, Ian R. Powley, Seid Mohammed, and Tim Hammonds

Subjects

0301 basic medicine, Lung Neoplasms, Stromal cell, Tumour heterogeneity, Antineoplastic Agents, Computational biology, Biology, Article, Pathology and Forensic Medicine, 03 medical and health sciences, 0302 clinical medicine, Carcinoma, Non-Small-Cell Lung, Neoplasms, Image Interpretation, Computer-Assisted, Tumor Cells, Cultured, Humans, Image analysis, Molecular Biology, Drug discovery, Computational Biology, Digital pathology, Cell Biology, Immunohistochemistry, 030104 developmental biology, 030220 oncology & carcinogenesis, Biomarker (medicine), Drug Monitoring, Immunostaining

Abstract

Patient Derived Explants (PDEs) represent the direct culture of fragments of freshly-resected tumour tissue under conditions that retain the original architecture of the tumour. PDEs have advantages over other preclinical cancer models as platforms for predicting patient-relevant drug responses in that they preserve the tumour microenvironment and tumour heterogeneity. At endpoint, PDEs may either be processed for generation of histological sections or homogenised and processed for “omic” evaluation of biomarker expression. A significant advantage of spatial profiling is the ability to co-register drug responses with tumour pathology, tumour heterogeneity and changes in the tumour microenvironment. Spatial profiling of PDEs relies on the utilisation of robust immunostaining approaches for validated biomarkers and incorporation of appropriate image analysis methods to quantitatively and qualitatively monitor changes in biomarker expression in response to anti-cancer drugs. Automation of immunostaining and image analysis would provide a significant advantage for the drug discovery pipeline and therefore, here, we have sought to optimise digital pathology approaches. We compare three image analysis software platforms (QuPath, ImmunoRatio and VisioPharm) for evaluating Ki67 as a marker for proliferation, cleaved PARP (cPARP) as a marker for apoptosis and pan-cytokeratin (CK) as a marker for tumour areas and find that all three generate comparable data to the views of a histomorphometrist. We also show that Virtual Double Staining of sequential sections by immunohistochemistry results in imperfect section alignment such that CK-stained tumour areas are over-estimated. Finally, we demonstrate that multi-immunofluorescence combined with digital image analysis is a superior method for monitoring multiple biomarkers simultaneously in tumour and stromal areas in PDEs.

Published

2021

6. Development of a patient-derived explant model for prediction of drug responses in endometrial cancer

Author

Marion MacFarlane, Gareth J Miles, Esther L. Moss, Ian R. Powley, Catrin Pritchard, Roger Hew, J. Howard Pringle, and Anna Collins

Subjects

0301 basic medicine, Paclitaxel, Pilot Projects, Context (language use), Pembrolizumab, Antibodies, Monoclonal, Humanized, Hysterectomy, Carboplatin, Tissue Culture Techniques, Endometrium, Genetic Heterogeneity, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Antineoplastic Combined Chemotherapy Protocols, Biomarkers, Tumor, Tumor Microenvironment, Humans, Medicine, Apoptosis Marker, Proliferation Marker, Precision Medicine, Immune Checkpoint Inhibitors, business.industry, Obstetrics and Gynecology, Immune checkpoint, Endometrial Neoplasms, 030104 developmental biology, Oncology, chemistry, Chemotherapy, Adjuvant, 030220 oncology & carcinogenesis, Cancer research, Feasibility Studies, Biomarker (medicine), Female, Drug Screening Assays, Antitumor, business

Abstract

Objective To undertake a pilot study to develop a novel Patient-Derived-Explant (PDE) model system for use in endometrial cancer (EC) that is capable of monitoring differential drug responses in a pre-clinical setting. Methods Fresh tumour was obtained post-hysterectomy from 27 patients with EC. Tumours were cut into 1–3 mm3 explants that were cultured at the air-liquid interface for 16–24 h in culture media. Explants were cultured in different media conditions to optimise viability. Explants were also treated with carboplatin/paclitaxel or pembrolizumab for 24 h and processed into histology slides. Multiplexed immunofluorescence for Ki67 (proliferation marker), cPARP (apoptosis marker) and CAM 5.2 (tumour mask) was performed followed by image analysis and quantitation of biomarker expression. Results EC samples are amenable to PDE culture with preserved histological architecture and PDE viability for up to 48 h, with the addition of autologous serum in culture media facilitating EC-PDE viability. Our PDE platform provides evidence of differential drug-response to conventional chemotherapeutics and immune checkpoint inhibition, and these responses can be assessed in the context of a preserved tumour microenvironment. Conclusions Our PDE platform represents a rapid, low-cost pre-clinical model which can be easily integrated into drug development pipelines. PDE culture preserves original tumour architecture and enables evaluation of spatial relationships in the tumour microenvironment. PDE culture has the potential for personalised drug-testing in a pre-clinical setting which is increasingly important in an era of personalised medicine in the treatment of EC.

Published

2021

7. Patient-derived explants (PDEs) as a powerful preclinical platform for anti-cancer drug and biomarker discovery

Author

Marion MacFarlane, Catherine A. Kettleborough, Catrin Pritchard, Meeta Patel, Lynne M. Howells, Justin S. Bryans, Tim Hammonds, Howard Pringle, Ian R. Powley, Anne Thomas, and Gareth J Miles

Subjects

Proteomics, Drug, Cancer Research, Tumour heterogeneity, media_common.quotation_subject, Cancer drugs, Antineoplastic Agents, Translational research, Review Article, Computational biology, Tissue Culture Techniques, Mice, 03 medical and health sciences, 0302 clinical medicine, Neoplasms, Drug Discovery, Animals, Humans, Medicine, Precision Medicine, Biomarker discovery, Cancer models, 030304 developmental biology, media_common, 0303 health sciences, business.industry, Cancer drug discovery, Disease Models, Animal, Oncology, Preclinical testing, 030220 oncology & carcinogenesis, Anti cancer drugs, Drug Screening Assays, Antitumor, business

Abstract

Preclinical models that can accurately predict outcomes in the clinic are much sought after in the field of cancer drug discovery and development. Existing models such as organoids and patient-derived xenografts have many advantages, but they suffer from the drawback of not contextually preserving human tumour architecture. This is a particular problem for the preclinical testing of immunotherapies, as these agents require an intact tumour human-specific microenvironment for them to be effective. In this review, we explore the potential of patient-derived explants (PDEs) for fulfilling this need. PDEs involve the ex vivo culture of fragments of freshly resected human tumours that retain the histological features of original tumours. PDE methodology for anti-cancer drug testing has been in existence for many years, but the platform has not been widely adopted in translational research facilities, despite strong evidence for its clinical predictivity. By modifying PDE endpoint analysis to include the spatial profiling of key biomarkers by using multispectral imaging, we argue that PDEs offer many advantages, including the ability to correlate drug responses with tumour pathology, tumour heterogeneity and changes in the tumour microenvironment. As such, PDEs are a powerful model of choice for cancer drug and biomarker discovery programmes.

Published

2020

8. Patient-Derived Tumor Explants As a 'Live' Preclinical Platform for Predicting Drug Resistance in Patients

Author

Catrin Pritchard, Lynne M. Howells, Meeta Patel, Howard Pringle, Michael Butterworth, Ian R. Powley, James Cooper, Constantinos Demetriou, Marion MacFarlane, Giuditta Viticchiè, Gareth J Miles, and Naila Abid

Subjects

Drug, Biomarker identification, Tissue Fixation, media_common.quotation_subject, General Chemical Engineering, Fluorescent Antibody Technique, Context (language use), Antineoplastic Agents, Drug resistance, Computational biology, General Biochemistry, Genetics and Molecular Biology, Neoplasms, Drug response, Medicine, Humans, In patient, media_common, Cell Proliferation, Paraffin Embedding, Cell Death, Staining and Labeling, General Immunology and Microbiology, business.industry, General Neuroscience, Human tumor, Drug Resistance, Neoplasm, business, Patient stratification

Abstract

An understanding of drug resistance and the development of novel strategies to sensitize highly resistant cancers rely on the availability of suitable preclinical models that can accurately predict patient responses. One of the disadvantages of existing preclinical models is the inability to contextually preserve the human tumor microenvironment (TME) and accurately represent intratumoral heterogeneity, thus limiting the clinical translation of data. By contrast, by representing the culture of live fragments of human tumors, the patient-derived explant (PDE) platform allows drug responses to be examined in a three-dimensional (3D) context that mirrors the pathological and architectural features of the original tumors as closely as possible. Previous reports with PDEs have documented the ability of the platform to distinguish chemosensitive from chemoresistant tumors, and it has been shown that this segregation is predictive of patient responses to the same chemotherapies. Simultaneously, PDEs allow the opportunity to interrogate molecular, genetic, and histological features of tumors that predict drug responses, thereby identifying biomarkers for patient stratification as well as novel interventional approaches to sensitize resistant tumors. This paper reports PDE methodology in detail, from collection of patient samples through to endpoint analysis. It provides a detailed description of explant derivation and culture methods, highlighting bespoke conditions for particular tumors, where appropriate. For endpoint analysis, there is a focus on multiplexed immunofluorescence and multispectral imaging for the spatial profiling of key biomarkers within both tumoral and stromal regions. By combining these methods, it is possible to generate quantitative and qualitative drug response data that can be related to various clinicopathological parameters and thus potentially be used for biomarker identification.

Published

2021

9. Analysis of Prostate Cancer Tumor Microenvironment Identifies Reduced Stromal CD4 Effector T-cell Infiltration in Tumors with Pelvic Nodal Metastasis

Author

Ewan J. McGhee, Marianna Kruithof-de Julio, Tamara Jamaspishvili, Ian R. Powley, Carl S. Goodyear, John Le Quesne, David M. Berman, Leo M. Carlin, Hing Y. Leung, Ana Teodósio, Edward W. Roberts, Leah Officer, Jonathan Salmond, Chara Ntala, Mark Salji, Arnaud Blomme, George N. Thalmann, Imran Ahmad, Ahmad, Imran [0000-0002-4404-1926], and Apollo - University of Cambridge Repository

Subjects

Tumor microenvironment, Stromal cell, Prostate cancer, business.industry, Urology, Immune cells, Cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, 610 Medicine & health, medicine.disease, Primary tumor, Diseases of the genitourinary system. Urology, Metastasis, medicine.anatomical_structure, Prostate, medicine, Cancer research, Lymph node, RC870-923, business, RC254-282

Abstract

Background Pelvic nodal metastasis in prostate cancer impacts patient outcome negatively. Objective To explore tumor-infiltrating immune cells as a potential predictive tool for regional lymph node (LN) metastasis. Design, setting, and participants We applied multiplex immunofluorescence and targeted transcriptomic analysis on 94 radical prostatectomy specimens in patients with (LN+) or without (LN–) pelvic nodal metastases. Both intraepithelial and stromal infiltrations of immune cells and differentially expressed genes (mRNA and protein levels) were correlated with the nodal status. Outcome measurements and statistical analysis The identified CD4 effector cell signature of nodal metastasis was validated in a comparable independent patient cohort of 184 informative cases. Patient outcome analysis and decision curve analysis were performed with the CD4 effector cell density–based signature. Results and limitations In the discovery cohort, both tumor epithelium and stroma from patients with nodal metastasis had significantly lower infiltration of multiple immune cell types, with stromal CD4 effector cells highlighted as the top candidate marker. Targeted gene expression analysis and confirmatory protein analysis revealed key alteration of extracellular matrix components in tumors with nodal metastasis. Of note, stromal CD4 immune cell density was a significant independent predictor of LN metastasis (odds ratio [OR] = 0.15, p = 0.004), and was further validated as a significant predictor of nodal metastasis in the validation cohort (OR = 0.26, p, Take Home Message Decreased intratumoral CD4 T effector cell densities are associated with a higher risk of lymph node metastasis. Future evaluation of CD4-based assays on prostate cancer diagnostic biopsy materials may improve selection of at-risk patients for the treatment of lymph node metastasis.

Published

2021

10. Exploration of Matrix Effects in Laser Ablation Inductively Coupled Plasma Mass Spectrometry Imaging of Cisplatin-Treated Tumors

Author

Janella de Jesus, Catia Costa, Ellie Karekla, Calum J. Greenhalgh, Catrin Pritchard, Melanie J. Bailey, Marion MacFarlane, J. Howard Pringle, Amy J. Managh, Gareth J. Miles, and Ian R. Powley

Subjects

Lung Neoplasms, medicine.medical_treatment, chemistry.chemical_element, Antineoplastic Agents, Particle-induced X-ray emission, 010402 general chemistry, Mass spectrometry, 01 natural sciences, Mass Spectrometry, Analytical Chemistry, Matrix (chemical analysis), Tissue Culture Techniques, Carcinoma, Non-Small-Cell Lung, Spheroids, Cellular, medicine, Distribution (pharmacology), Humans, Cisplatin, Ion beam analysis, 010401 analytical chemistry, Radiochemistry, Ablation, Carbon, 0104 chemical sciences, chemistry, Laser Therapy, Platinum, medicine.drug

Abstract

The use of a low aerosol dispersion ablation chamber within a laser ablation inductively coupled plasma mass spectrometer (LA-ICP-MS) setup allows for high-resolution, high-speed imaging of the distribution of elements within a sample. Here we show how this enhanced capability creates new analytical problems and solutions. We report the distribution of platinum at the cellular level in non-small cell lung cancer (NSCLC) explant models after treatment with clinically relevant doses of cisplatin. This revealed for the first time a correlation between the platinum signal and the presence of carbon deposits within lung tissue. We show how complementary ion beam analysis techniques, particle-induced X-ray emission (PIXE) and elastic backscattering spectrometry (EBS), can be used to explore potential matrix effects in LA-ICP-MS data. For these samples, it was confirmed that the enhancement was unlikely to have resulted from a matrix effect alone. Thus, the presence of carbon deposits within tissue has potential implications for the effective distribution of the cisplatin drug.

Published

2020

11. Caspase-8 tyrosine-380 phosphorylation inhibits CD95 DISC function by preventing procaspase-8 maturation and cycling within the complex

Author

Marion MacFarlane, Ian R. Powley, Kelvin Cain, and Michelle A. Hughes

Subjects

Models, Molecular, 0301 basic medicine, Death Domain Receptor Signaling Adaptor Proteins, Cancer Research, Protein Conformation, Apoptosis, Caspase 8, Models, Biological, Jurkat Cells, 03 medical and health sciences, Enzyme activator, 0302 clinical medicine, Cell Line, Tumor, Genetics, Humans, fas Receptor, Phosphorylation, Molecular Biology, Caspase, biology, Cell migration, Cell cycle, Cell biology, Enzyme Activation, src-Family Kinases, 030104 developmental biology, 030220 oncology & carcinogenesis, Mutation, Proteolysis, biology.protein, Tyrosine, Original Article, Protein Multimerization, Signal transduction, Signal Transduction

Abstract

Caspase-8 is a key initiator of apoptotic cell death where it functions as the apical protease in death receptor-mediated apoptosis triggered via the death-inducing signalling complex (DISC). However, the observation that caspase-8 is upregulated in many common tumour types led to the discovery of alternative non-apoptotic, pro-survival functions, many of which are contingent on phosphorylation of a tyrosine residue (Y380) found in the linker region between the two catalytic domains of the enzyme. Furthermore, Src-mediated Y380 phosphorylation leads to increased resistance to CD95-induced apoptosis; however, the mechanism underlying this impaired response to extrinsic apoptotic stimuli has not been identified. Consequently, we have employed a number of model systems to further dissect this protective mechanism. First, using an in vitro DISC model together with recombinant procaspase-8 variants, we show that Y380 phosphorylation inhibits procaspase-8 activation at the CD95 DISC, thereby preventing downstream activation of the caspase cascade. Second, we validated this finding in a cellular context using transfected neuroblastoma cell lines deficient in caspase-8. Reconstitution of these lines with phosphomimetic-caspase-8 results in increased resistance to CD95-mediated apoptosis and enhanced cell migration. When the in vitro DISC is assembled in the presence of cell lysate, caspase-8 Y380 phosphorylation attenuates DISC activity by inhibiting procaspase-8 autoproteolytic activity but not recruitment or homodimerization of caspase-8 within the complex. Once incorporated into the DISC, phosphorylated caspase-8 is unable to be released from the complex; this inhibits further cycling and release of active catalytic subunits into the cytoplasm, thus resulting in increased apoptotic resistance. Taken together, our novel findings expand our understanding of the key mechanisms underlying the anti-apoptotic functions of caspase-8 which may act as a critical block to existing antitumour therapies. Importantly, reversal or inhibition of caspase-8 phosphorylation may prove a valuable avenue to explore for sensitization of resistant tumours to extrinsic apoptotic stimuli.

Published

2016

12. Co-operative and Hierarchical Binding of c-FLIP and Caspase-8: A Unified Model Defines How c-FLIP Isoforms Differentially Control Cell Fate

Author

Martin Leverkus, Marion MacFarlane, Michelle A. Hughes, Rebekah Jukes-Jones, Sebastian Horn, Maria Feoktistova, Kelvin Cain, John W.R. Schwabe, Ian R. Powley, and Louise Fairall

Subjects

0301 basic medicine, Gene isoform, Fas-Associated Death Domain Protein, CASP8 and FADD-Like Apoptosis Regulating Protein, Apoptosis, Plasma protein binding, Caspase 8, Bioinformatics, Article, 03 medical and health sciences, 0302 clinical medicine, Tandem Mass Spectrometry, Humans, Protein Isoforms, Cell Lineage, FADD, Molecular Biology, biology, Activator (genetics), Cell Biology, Cell biology, 030104 developmental biology, Mutagenesis, Flip, 030220 oncology & carcinogenesis, Death-inducing signaling complex, biology.protein, Protein Binding

Abstract

Summary The death-inducing signaling complex (DISC) initiates death receptor-induced apoptosis. DISC assembly and activation are controlled by c-FLIP isoforms, which function as pro-apoptotic (c-FLIPL only) or anti-apoptotic (c-FLIPL/c-FLIPS) regulators of procaspase-8 activation. Current models assume that c-FLIP directly competes with procaspase-8 for recruitment to FADD. Using a functional reconstituted DISC, structure-guided mutagenesis, and quantitative LC-MS/MS, we show that c-FLIPL/S binding to the DISC is instead a co-operative procaspase-8-dependent process. FADD initially recruits procaspase-8, which in turn recruits and heterodimerizes with c-FLIPL/S via a hierarchical binding mechanism. Procaspase-8 activation is regulated by the ratio of unbound c-FLIPL/S to procaspase-8, which determines composition of the procaspase-8:c-FLIPL/S heterodimer. Thus, procaspase-8:c-FLIPL exhibits localized enzymatic activity and is preferentially an activator, promoting DED-mediated procaspase-8 oligomer assembly, whereas procaspase-8:c-FLIPS lacks activity and potently blocks procaspase-8 activation. This co-operative hierarchical binding model explains the dual role of c-FLIPL and crucially defines how c-FLIP isoforms differentially control cell fate., Graphical Abstract, Highlights • c-FLIP isoforms (L/S) do not directly compete with caspase-8 for binding to FADD • c-FLIP binds to the DISC via a co-operative hierarchical caspase-8-dependent process • Co-operative and hierarchical binding crucially explains the dual function of c-FLIPL • Our unified model defines how c-FLIP isoforms differentially direct cell fate, It is unclear how c-FLIP isoforms can differentially regulate caspase-8 activation to direct cell fate. Hughes et al. show that c-FLIPL/S recruitment to FADD is indirect and requires caspase-8. This co-operative hierarchical binding process explains the conundrum of the dual role of c-FLIPL and defines how c-FLIPL/S differentially control cell fate.

Published

2016

13. Abstract 666: A novel, highly selective PI3Kδ inhibitor for the treatment of solid malignancies that express high levels of target protein as assessed by immunohistochemistry

Author

Michael Lahn, Amy R. MacQueen, Lars van der Veen, Karolina Niewola, Giuditta Viticchiè, Pritom Shah, Ian R. Powley, Zoë Johnson, and Francesca Finotello

Subjects

Cancer Research, Melanoma, Cancer, Biology, medicine.disease, Immune tolerance, Oncology, In vivo, Myeloid-derived Suppressor Cell, medicine, Cancer research, Immunohistochemistry, Diffuse large B-cell lymphoma, CD8

Abstract

The inhibition of PI3Kδ preferentially targets regulatory T cells and myeloid derived suppressor cells, breaking tumour-induced immune tolerance and restoring anti-tumour immunity. Bioinformatics and protein expression studies have shown that PIK3CD/PI3Kδ is also highly expressed in certain solid malignancies. IOA-244 is a novel, highly selective PI3Kδ inhibitor, with the unique property of being ATP non-competitive. In addition to the effects of PI3Kδ inhibition on the balance of CD8+ T cells and T regulatory cells in the tumour microenvironment, we have recently demonstrated that IOA-244 effectively controls the growth of tumour cells with high levels of PI3Kδ in vivo in T-cell deficient hosts. Analysis of TCGA datasets shows that certain solid tumours express high levels of PIK3CD transcript, comparable to that of diffuse large B cell lymphoma. Of these indications, cutaneous and uveal melanoma are amongst the highest expressers. To support the clinical development of IOA-244, we demonstrate that patient-derived melanoma cells with a high expression of PIK3CD are susceptible to treatment with IOA-244 in a mouse patient-derived xenograft model. Furthermore, in vitro explant studies using clinical biopsy material demonstrates that PI3Kδ expression can be detected in tumour tissue and that IOA-244 has an anti-proliferative function when added to these samples. Based on these and other supporting data, IOA-244 has received clinical trial approval in Europe and phase I clinical testing is underway in solid tumours with an anticipated high Treg:CD8 ratio and/or high protein expression of PI3Kδ. Citation Format: Amy R. MacQueen, Giuditta Viticchie, Karolina Niewola, Francesca Finotello, Ian Powley, Pritom Shah, Lars van der Veen, Michael Lahn, Zoe Johnson. A novel, highly selective PI3Kδ inhibitor for the treatment of solid malignancies that express high levels of target protein as assessed by immunohistochemistry [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 666.

Published

2020

14. Compromised vitamin D receptor signalling in malignant melanoma is associated with tumour progression and mitogen-activated protein kinase activity

Author

Silvia Popovici, Gerald Saldanha, J.H. Pringle, Deepthi Dasari, Peter E. Hutchinson, Ian R. Powley, Eftychios Papadogeorgakis, John A. Halsall, and J.E. Osborne

Subjects

musculoskeletal diseases, 0301 basic medicine, MAPK/ERK pathway, Adult, Cancer Research, Skin Neoplasms, MAP Kinase Signaling System, Dermatology, Biology, Calcitriol receptor, Metastasis, 03 medical and health sciences, Young Adult, 0302 clinical medicine, polycyclic compounds, medicine, Humans, Viability assay, Vitamin D, Protein kinase A, Melanoma, Aged, Aged, 80 and over, Kinase, digestive, oral, and skin physiology, Middle Aged, medicine.disease, Immunohistochemistry, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Cancer research, Disease Progression, lipids (amino acids, peptides, and proteins), Signal Transduction

Abstract

The aims of this study were to investigate, in cutaneous malignant melanoma (MM), the integrity of nuclear vitamin D receptor (VDR) signalling, as implied by VDR subcellular location; to investigate the relationship between VDR and tumour progression and the inhibitory effect on VDR by mitogen-activated protein kinase (MAPK) overactivity. Archived tissue from 34 benign melanocytic naevi, 149 MMs and 44 matched metastases were stained by immunohistochemistry for VDR and a subset of primary MMs were stained for phosphorylated-extracellular signal-regulated kinase as a marker of MAPK activity. MM cell lines were investigated to show the subcellular location of VDR and cell viability in response to ligand±MAPK inhibitor. Benign melanocytic naevi showed mainly a strong nuclear VDR staining in contrast to MM where decreased nuclear and emergent cytoplasmic VDRs were associated with malignant progression in terms of dermal invasion and metastasis. MMs that retained exclusive nuclear VDR at the tumour base did not metastasize, a potentially important prognostic indicator. Decreased nuclear VDR correlated with increased cytoplasmic staining, suggesting the failure of nuclear entry as a primary cause of defective VDR signalling in MM. The histological subset analysis and MM cell line studies confirmed the inhibitory effect of MAPK activity on VDR signalling, but the pattern of VDR subcellular localization suggested failure of VDR nuclear entry as a primary effect of MAPK activity rather than direct inhibition of VDR-regulated transcription. Furthermore, high MAPK activity in tumours expressing cytoplasmic VDR was associated with worsened prognosis.

Published

2018

15. Molecular profiling reveals primary mesothelioma cell lines recapitulate human disease

Author

David Dinsdale, Ian R. Powley, L Cresswell, Tatyana Chernova, Anne E. Willis, Stefano Grosso, Alexey V. Antonov, Sara Galavotti, Fiona Murphy, Xiao-Ming Sun, Kelvin Cain, Gareth J Miles, Jonathan Bennett, Apostolos Nakas, Martin Bushell, and Marion MacFarlane

Subjects

Male, Mesothelioma, 0301 basic medicine, Lung Neoplasms, Bioinformatics, Genomic Instability, Transcriptome, 03 medical and health sciences, Oxygen Consumption, 0302 clinical medicine, CDKN2A, Tumor Suppressor Protein p14ARF, Tumor Cells, Cultured, medicine, Cyclin-Dependent Kinase Inhibitor p18, Humans, Molecular Biology, Gene, Cyclin-Dependent Kinase Inhibitor p16, Aged, Original Paper, Neurofibromin 2, Principal Component Analysis, business.industry, Cell growth, Mesothelioma, Malignant, Cell Biology, Middle Aged, medicine.disease, Phenotype, Primary tumor, Up-Regulation, 030104 developmental biology, Tandem Repeat Sequences, Cell culture, 030220 oncology & carcinogenesis, Metabolome, Cancer research, Female, Tumor Suppressor Protein p53, business

Abstract

Malignant mesothelioma (MM) is an aggressive, fatal tumor strongly associated with asbestos exposure. There is an urgent need to improve MM patient outcomes and this requires functionally validated pre-clinical models. Mesothelioma-derived cell lines provide an essential and relatively robust tool and remain among the most widely used systems for candidate drug evaluation. Although a number of cell lines are commercially available, a detailed comparison of these commercial lines with freshly derived primary tumor cells to validate their suitability as pre-clinical models is lacking. To address this, patient-derived primary mesothelioma cell lines were established and characterized using complementary multidisciplinary approaches and bioinformatic analysis. Clinical markers of mesothelioma, transcriptional and metabolic profiles, as well as the status of p53 and the tumor suppressor genes CDKN2A and NF2, were examined in primary cell lines and in two widely used commercial lines. Expression of MM-associated markers, as well as the status of CDKN2A, NF2, the 'gatekeeper' in MM development, and their products demonstrated that primary cell lines are more representative of the tumor close to its native state and show a degree of molecular diversity, thus capturing the disease heterogeneity in a patient cohort. Molecular profiling revealed a significantly different transcriptome and marked metabolic shift towards a greater glycolytic phenotype in commercial compared with primary cell lines. Our results highlight that multiple, appropriately characterised, patient-derived tumor cell lines are required to enable concurrent evaluation of molecular profiles versus drug response. Furthermore, application of this approach to other difficult-to-treat tumors would generate improved cellular models for pre-clinical evaluation of novel targeted therapies.

Published

2016

16. Resistance to HSP90 inhibition involving loss of MCL1 addiction

Author

Jin-Li Luo, Kyle B. Matchett, Mohamed El-Tanani, Marion MacFarlane, Astero Klabatsa, Ian R. Powley, D.A. Proia, M. Sequeira, J. Le Quesne, Dean A. Fennell, Edward W. P. Law, Sara Busacca, J.H. Pringle, and J.M. Edwards

Subjects

0301 basic medicine, Cancer Research, Peptidomimetic, Synthetic lethality, Drug resistance, 03 medical and health sciences, 0302 clinical medicine, Puma, Cell Line, Tumor, Genetics, STAT5 Transcription Factor, Humans, MCL1, HSP90 Heat-Shock Proteins, Molecular Biology, biology, Tumor Suppressor Proteins, biology.organism_classification, Hsp90, 030104 developmental biology, Apoptosis, 030220 oncology & carcinogenesis, Chaperone (protein), biology.protein, Cancer research, Myeloid Cell Leukemia Sequence 1 Protein, Original Article, Peptidomimetics

Abstract

Inhibition of the chaperone heat-shock protein 90 (HSP90) induces apoptosis, and it is a promising anti-cancer strategy. The mechanisms underpinning apoptosis activation following HSP90 inhibition and how they are modified during acquired drug resistance are unknown. We show for the first time that, to induce apoptosis, HSP90 inhibition requires the cooperation of multi BH3-only proteins (BID, BIK, PUMA) and the reciprocal suppression of the pro-survival BCL-2 family member MCL1, which occurs via inhibition of STAT5A. A subset of tumour cell lines exhibit dependence on MCL1 expression for survival and this dependence is also associated with tumour response to HSP90 inhibition. In the acquired resistance setting, MCL1 suppression in response to HSP90 inhibitors is maintained; however, a switch in MCL1 dependence occurs. This can be exploited by the BH3 peptidomimetic ABT737, through non-BCL-2-dependent synthetic lethality.

Published

2016

17. Long-Fiber Carbon Nanotubes Replicate Asbestos-Induced Mesothelioma with Disruption of the Tumor Suppressor Gene Cdkn2a ( Ink4a/Arf )

Author

David Dinsdale, Peter Greaves, Craig A. Poland, Anne E. Willis, Tatyana Chernova, Marion MacFarlane, Xiao-Ming Sun, Stefano Grosso, Martin Bushell, Ian R. Powley, Sara Galavotti, Anja Schinwald, Fiona Murphy, John Le Quesne, Jonathan Bennett, Ken Donaldson, Apostolos Nakas, Joaquin Zacarias-Cabeza, Kate Dudek, Sun, Xiao-Ming [0000-0001-8460-2444], Grosso, Stefano [0000-0003-2911-2826], Willis, Anne [0000-0002-1470-8531], and Apollo - University of Cambridge Repository

Subjects

Male, Mesothelioma, 0301 basic medicine, Lung Neoplasms, Carcinogenesis, medicine.disease_cause, Mice, 0302 clinical medicine, CDKN2A, Cells, Cultured, Middle Aged, hypermethylation, 030220 oncology & carcinogenesis, DNA methylation, Female, General Agricultural and Biological Sciences, Tumor suppressor gene, Biology, Methylation, Article, General Biochemistry, Genetics and Molecular Biology, Asbestos, 03 medical and health sciences, Journal Article, medicine, Animals, Humans, Gene silencing, Epigenetics, Cyclin-Dependent Kinase Inhibitor p19, neoplasms, Cyclin-Dependent Kinase Inhibitor p16, Aged, Cell Proliferation, Inflammation, carbon nanotubes, epigenetics, Nanotubes, Carbon, Mesothelioma, Malignant, toxicity, medicine.disease, respiratory tract diseases, Mice, Inbred C57BL, 030104 developmental biology, Immunology, Cancer research, tumor suppressor genes

Abstract

Summary Mesothelioma is a fatal tumor of the pleura and is strongly associated with asbestos exposure. The molecular mechanisms underlying the long latency period of mesothelioma and driving carcinogenesis are unknown. Moreover, late diagnosis means that mesothelioma research is commonly focused on end-stage disease. Although disruption of the CDKN2A (INK4A/ARF) locus has been reported in end-stage disease, information is lacking on the status of this key tumor suppressor gene in pleural lesions preceding mesothelioma. Manufactured carbon nanotubes (CNTs) are similar to asbestos in terms of their fibrous shape and biopersistent properties and thus may pose an asbestos-like inhalation hazard. Here we show that instillation of either long CNTs or long asbestos fibers into the pleural cavity of mice induces mesothelioma that exhibits common key pro-oncogenic molecular events throughout the latency period of disease progression. Sustained activation of pro-oncogenic signaling pathways, increased proliferation, and oxidative DNA damage form a common molecular signature of long-CNT- and long-asbestos-fiber-induced pathology. We show that hypermethylation of p16/Ink4a and p19/Arf in CNT- and asbestos-induced inflammatory lesions precedes mesothelioma; this results in silencing of Cdkn2a (Ink4a/Arf) and loss of p16 and p19 protein, consistent with epigenetic alterations playing a gatekeeper role in cancer. In end-stage mesothelioma, silencing of p16/Ink4a is sustained and deletion of p19/Arf is detected, recapitulating human disease. This study addresses the long-standing question of which early molecular changes drive carcinogenesis during the long latency period of mesothelioma development and shows that CNT and asbestos pose a similar health hazard., Highlights • Long-fiber carbon nanotubes induce malignant mesothelioma with loss of Cdkn2a • Long-fiber carbon nanotube tumors replicate asbestos-induced mesothelioma in humans • Cdkn2a hypermethylation during disease latency precedes fiber-induced mesothelioma • Long-fiber carbon nanotubes pose an asbestos-like hazard, Manufactured carbon nanotubes (CNTs) show structural similarities to asbestos, strongly associated with the fatal tumor mesothelioma. Chernova et al. show that CNTs and asbestos indeed pose similar health hazards and address the long-standing question of which early molecular changes drive carcinogenesis during mesothelioma’s long latency period.

Published

2017