Your search keyword '"Ann Hedley"' showing total 111 results

1. Epithelial TGFβ engages growth-factor signalling to circumvent apoptosis and drive intestinal tumourigenesis with aggressive features

Author

Dustin J. Flanagan, Raheleh Amirkhah, David F. Vincent, Nuray Gundaz, Pauline Gentaz, Patrizia Cammareri, Aoife J. McCooey, Amy M. B. McCorry, Natalie C. Fisher, Hayley L. Davis, Rachel A. Ridgway, Jeroen Lohuis, Joshua D. G. Leach, Rene Jackstadt, Kathryn Gilroy, Elisa Mariella, Colin Nixon, William Clark, Ann Hedley, Elke K. Markert, Douglas Strathdee, Laurent Bartholin, Keara L. Redmond, Emma M. Kerr, Daniel B. Longley, Fiona Ginty, Sanghee Cho, Helen G. Coleman, Maurice B. Loughrey, Alberto Bardelli, Timothy S. Maughan, Andrew D. Campbell, Mark Lawler, Simon J. Leedham, Simon T. Barry, Gareth J. Inman, Jacco van Rheenen, Philip D. Dunne, and Owen J. Sansom

Subjects

Science

Abstract

It remains critical to identify colorectal cancers (CRC) that will disseminate as early as possible. Here, the authors identify CRC tumours that are aggressive and prone to early dissemination, characterised by epithelial TGFβ and growth-factor signalling - which could be targeted with MEK/EGFR inhibitors.

Published

2022

2. Traject3d allows label-free identification of distinct co-occurring phenotypes within 3D culture by live imaging

Author

Eva C. Freckmann, Emma Sandilands, Erin Cumming, Matthew Neilson, Alvaro Román-Fernández, Konstantina Nikolatou, Marisa Nacke, Tamsin R. M. Lannagan, Ann Hedley, David Strachan, Mark Salji, Jennifer P. Morton, Lynn McGarry, Hing Y. Leung, Owen J. Sansom, Crispin J. Miller, and David M. Bryant

Subjects

Science

Abstract

There are currently a lack of tools to detect heterogeneity in 3D cultures. Here the authors report Traject3d as a framework to identify heterogeneous states in 3D culture and to understand how these give rise to distinct phenotypes using label-free multi-day time-lapse imaging.

Published

2022

3. Asbestos accelerates disease onset in a genetic model of malignant pleural mesothelioma

Author

Pooyeh Farahmand, Katarina Gyuraszova, Claire Rooney, Ximena L. Raffo-Iraolagoitia, Geeshath Jayasekera, Ann Hedley, Emma Johnson, Tatyana Chernova, Gaurav Malviya, Holly Hall, Tiziana Monteverde, Kevin Blyth, Rodger Duffin, Leo M. Carlin, David Lewis, John Le Quesne, Marion MacFarlane, and Daniel J. Murphy

Subjects

mesothelioma, asbestos, cancer therapy, GM mouse model, macrophages, Toxicology. Poisons, RA1190-1270

Abstract

Hypothesis: Asbestos-driven inflammation contributes to malignant pleural mesothelioma beyond the acquisition of rate-limiting mutations.Methods: Genetically modified conditional allelic mice that were previously shown to develop mesothelioma in the absence of exposure to asbestos were induced with lentiviral vector expressing Cre recombinase with and without intrapleural injection of amosite asbestos and monitored until symptoms required euthanasia. Resulting tumours were examined histologically and by immunohistochemistry for expression of lineage markers and immune cell infiltration.Results: Injection of asbestos dramatically accelerated disease onset and end-stage tumour burden. Tumours developed in the presence of asbestos showed increased macrophage infiltration. Pharmacological suppression of macrophages in mice with established tumours failed to extend survival or to enhance response to chemotherapy.Conclusion: Asbestos-driven inflammation contributes to the severity of mesothelioma beyond the acquisition of rate-limiting mutations, however, targeted suppression of macrophages in established epithelioid mesothelioma showed no therapeutic benefit.

Published

2023

4. Nuclear-capture of endosomes depletes nuclear G-actin to promote SRF/MRTF activation and cancer cell invasion

Author

Sergi Marco, Matthew Neilson, Madeleine Moore, Arantxa Perez-Garcia, Holly Hall, Louise Mitchell, Sergio Lilla, Giovani R. Blanco, Ann Hedley, Sara Zanivan, and Jim C. Norman

Subjects

Science

Abstract

Effective delivery of signals from the cell surface to the nucleus is a key to activate gene transcription. Here, the authors show how endosomes containing EphA2 are transported and captured at the nuclear surface, triggering depletion of G-actin from the nucleus and activating MRTF signalling.

Published

2021

5. Mesenchymal stromal cells cultured in physiological conditions sustain citrate secretion with glutamate anaplerosis

Author

Giuseppe Taurino, Ruhi Deshmukh, Victor H. Villar, Martina Chiu, Robin Shaw, Ann Hedley, Engy Shokry, David Sumpton, Erica Dander, Giovanna D'Amico, Ovidio Bussolati, and Saverio Tardito

Subjects

Mesenchymal stromal cells, Metabolism, Physiological medium, Plasmax, Hypoxia, Stable isotope tracing, Internal medicine, RC31-1245

Abstract

Bone marrow mesenchymal stromal cells (MSCs) have immunomodulatory and regenerative potential. However, culture conditions govern their metabolic processes and therapeutic efficacy. Here we show that culturing donor-derived MSCs in Plasmax™, a physiological medium with the concentrations of nutrients found in human plasma, supports their proliferation and stemness, and prevents the nutritional stress induced by the conventional medium DMEM. The quantification of the exchange rates of metabolites between cells and medium, untargeted metabolomics, stable isotope tracing and transcriptomic analysis, performed at physiologically relevant oxygen concentrations (1%O2), reveal that MSCs rely on a high rate of glucose to lactate conversion, coupled with parallel anaplerotic fluxes from glutamine and glutamate to support citrate synthesis and secretion. These distinctive traits of MSCs shape the metabolic microenvironment of the bone marrow niche and can influence nutrient cross-talks under physiological and pathological conditions.

Published

2022

6. Author Correction: Epithelial TGFβ engages growth-factor signalling to circumvent apoptosis and drive intestinal tumourigenesis with aggressive features

Author

Dustin J. Flanagan, Raheleh Amirkhah, David F. Vincent, Nuray Gunduz, Pauline Gentaz, Patrizia Cammareri, Aoife J. McCooey, Amy M. B. McCorry, Natalie C. Fisher, Hayley L. Davis, Rachel A. Ridgway, Jeroen Lohuis, Joshua D. G. Leach, Rene Jackstadt, Kathryn Gilroy, Elisa Mariella, Colin Nixon, William Clark, Ann Hedley, Elke K. Markert, Douglas Strathdee, Laurent Bartholin, Keara L. Redmond, Emma M. Kerr, Daniel B. Longley, Fiona Ginty, Sanghee Cho, Helen G. Coleman, Maurice B. Loughrey, Alberto Bardelli, Timothy S. Maughan, Andrew D. Campbell, Mark Lawler, Simon J. Leedham, Simon T. Barry, Gareth J. Inman, Jacco van Rheenen, Philip D. Dunne, and Owen J. Sansom

Subjects

Science

Published

2023

7. Loss of BCL9/9l suppresses Wnt driven tumourigenesis in models that recapitulate human cancer

Author

David M. Gay, Rachel A. Ridgway, Miryam Müller, Michael C. Hodder, Ann Hedley, William Clark, Joshua D. Leach, Rene Jackstadt, Colin Nixon, David J. Huels, Andrew D. Campbell, Thomas G. Bird, and Owen J. Sansom

Subjects

Science

Abstract

Whether the Wnt enhanceosome’ components BCL9/9l can affect intestinal homeostasis and tumorigenesis is still unclear. Using conditional Bcl9/9l KO mice, the authors of this study show that the BCL9/9l complex is required for intestinal stem cells to drive tissue regeneration and that loss of BCL9/9l suppresses Wnt-driven transformation.

Published

2019

8. Sprouty2 loss‐induced IL6 drives castration‐resistant prostate cancer through scavenger receptor B1

Author

Rachana Patel, Janis Fleming, Ernest Mui, Carolyn Loveridge, Peter Repiscak, Arnaud Blomme, Victoria Harle, Mark Salji, Imran Ahmad, Katy Teo, Freddie C Hamdy, Ann Hedley, Niels van den Broek, Gillian Mackay, Joanne Edwards, Owen J Sansom, and Hing Y Leung

Subjects

androgen receptor, cholesterol, interleukin 6, prostate cancer, scavenger receptor B1, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Metastatic castration‐resistant prostate cancer (mCRPC) is a lethal form of treatment‐resistant prostate cancer and poses significant therapeutic challenges. Deregulated receptor tyrosine kinase (RTK) signalling mediated by loss of tumour suppressor Sprouty2 (SPRY2) is associated with treatment resistance. Using pre‐clinical human and murine mCRPC models, we show that SPRY2 deficiency leads to an androgen self‐sufficient form of CRPC. Mechanistically, HER2‐IL6 signalling axis enhances the expression of androgen biosynthetic enzyme HSD3B1 and increases SRB1‐mediated cholesterol uptake in SPRY2‐deficient tumours. Systemically, IL6 elevated the levels of circulating cholesterol by inducing host adipose lipolysis and hepatic cholesterol biosynthesis. SPRY2‐deficient CRPC is dependent on cholesterol bioavailability and SRB1‐mediated tumoral cholesterol uptake for androgen biosynthesis. Importantly, treatment with ITX5061, a clinically safe SRB1 antagonist, decreased treatment resistance. Our results indicate that cholesterol transport blockade may be effective against SPRY2‐deficient CRPC.

Published

2018

9. Author Correction: Loss of BCL9/9l suppresses Wnt driven tumourigenesis in models that recapitulate human cancer

Author

David M. Gay, Rachel A. Ridgway, Miryam Müller, Michael C. Hodder, Ann Hedley, William Clark, Joshua D. Leach, Rene Jackstadt, Colin Nixon, David J. Huels, Andrew D. Campbell, Thomas G. Bird, and Owen J. Sansom

Subjects

Science

Abstract

The original version of this Article contained an error in the spelling of the author Miryam Müller, which was incorrectly given as Miryam Müeller. This has now been corrected in both the PDF and HTML versions of the Article.

Published

2019

10. On the extent and origins of genic novelty in the phylum Nematoda.

Author

James Wasmuth, Ralf Schmid, Ann Hedley, and Mark Blaxter

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

The phylum Nematoda is biologically diverse, including parasites of plants and animals as well as free-living taxa. Underpinning this diversity will be commensurate diversity in expressed genes, including gene sets associated specifically with evolution of parasitism.Here we have analyzed the extensive expressed sequence tag data (available for 37 nematode species, most of which are parasites) and define over 120,000 distinct putative genes from which we have derived robust protein translations. Combined with the complete proteomes of Caenorhabditis elegans and Caenorhabditis briggsae, these proteins have been grouped into 65,000 protein families that in turn contain 40,000 distinct protein domains. We have mapped the occurrence of domains and families across the Nematoda and compared the nematode data to that available for other phyla. Gene loss is common, and in particular we identify nearly 5,000 genes that may have been lost from the lineage leading to the model nematode C. elegans. We find a preponderance of novelty, including 56,000 nematode-restricted protein families and 26,000 nematode-restricted domains. Mapping of the latest time-of-origin of these new families and domains across the nematode phylogeny revealed ongoing evolution of novelty. A number of genes from parasitic species had signatures of horizontal transfer from their host organisms, and parasitic species had a greater proportion of novel, secreted proteins than did free-living ones.These classes of genes may underpin parasitic phenotypes, and thus may be targets for development of effective control measures.

Published

2008

11. 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

12. Phase <scp>II</scp> proof‐of‐concept study of atorvastatin in castration‐resistant prostate cancer

Author

Linda K. Rushworth, Carolyn Loveridge, Mark Salji, Martin MacLeod, Ernest Mui, David Sumpton, Matthew Neilson, Ann Hedley, Laura Alexander, Elaine McCartney, Rachana Patel, Jan Wallace, Christian Delles, Rob Jones, and Hing Y. Leung

Subjects

Urology

Abstract

To test for evidence of statin-mediated effects in patients with castration-resistant prostate cancer (CRPC) as post-diagnosis use of statins in patients with prostate cancer is associated with favourable survival outcome.The SPECTRE trial was a 6-weeks-long proof-of-concept single-arm Phase II treatment trial, combining atorvastatin and androgen deprivation therapy in patients with CRPC (regardless of metastatic status), designed to test for evidence of statin-mediated effects in patients with CRPC. The primary study endpoint was the proportion of patients achieving a ≥50% drop from baseline in prostate-specific antigen (PSA) levels at any time over the 6-week period of atorvastatin medication (PSA response). Exploratory endpoints include PSA velocity and serum metabolites identified by mass spectrometry .At the scheduled interim analysis, one of 12 patients experienced a ≥50% drop in PSA levels (primary endpoint), with ≥2 patients satisfying the primary endpoint required for further recruitment. All 12 patients experienced substantial falls in serum cholesterol levels following statin treatment. While all patients had comparable pre-study PSA velocities, six of 12 patients showed decreased PSA velocities after statin treatment, suggestive of disease stabilization. Unbiased metabolomics analysis on serial weekly blood samples identified tryptophan to be the dominant metabolite associated with patient response to statin.Data from the SPECTRE study provide the first evidence of statin-mediated effects on CRPC and early sign of disease stabilization. Our data also highlight the possibility of altered tryptophan metabolism being associated with tumour response.

Published

2022

13. Data from Repression of the Type I Interferon Pathway Underlies MYC- and KRAS-Dependent Evasion of NK and B Cells in Pancreatic Ductal Adenocarcinoma

Author

Daniel J. Murphy, Jennifer P. Morton, Owen J. Sansom, Seth B. Coffelt, Leo M. Carlin, Andrew V. Biankin, William Clark, Colin Nixon, Katarina Gyuraszova, Saadia A. Karim, Curtis Rink, Sarah Neidler, Robin Shaw, Rosanna Upstill-Goddard, Björn Kruspig, Sarah Laing, Ann Hedley, Declan Whyte, Robert Wiesheu, Ximena Raffo-Iraolagoitia, Tiziana Monteverde, and Nathiya Muthalagu

Abstract

MYC is implicated in the development and progression of pancreatic cancer, yet the precise level of MYC deregulation required to contribute to tumor development has been difficult to define. We used modestly elevated expression of human MYC, driven from the Rosa26 locus, to investigate the pancreatic phenotypes arising in mice from an approximation of MYC trisomy. We show that this level of MYC alone suffices to drive pancreatic neuroendocrine tumors, and to accelerate progression of KRAS-initiated precursor lesions to metastatic pancreatic ductal adenocarcinoma (PDAC). Our phenotype exposed suppression of the type I interferon (IFN) pathway by the combined actions of MYC and KRAS, and we present evidence of repressive MYC–MIZ1 complexes binding directly to the promoters of the genes encodiing the type I IFN regulators IRF5, IRF7, STAT1, and STAT2. Derepression of IFN regulator genes allows pancreatic tumor infiltration by B and natural killer (NK) cells, resulting in increased survival.Significance:We define herein a novel mechanism of evasion of NK cell–mediated immunity through the combined actions of endogenously expressed mutant KRAS and modestly deregulated expression of MYC, via suppression of the type I IFN pathway. Restoration of IFN signaling may improve outcomes for patients with PDAC.This article is highlighted in the In This Issue feature, p. 747

Published

2023

14. Supplementary Material from Repression of the Type I Interferon Pathway Underlies MYC- and KRAS-Dependent Evasion of NK and B Cells in Pancreatic Ductal Adenocarcinoma

Author

Daniel J. Murphy, Jennifer P. Morton, Owen J. Sansom, Seth B. Coffelt, Leo M. Carlin, Andrew V. Biankin, William Clark, Colin Nixon, Katarina Gyuraszova, Saadia A. Karim, Curtis Rink, Sarah Neidler, Robin Shaw, Rosanna Upstill-Goddard, Björn Kruspig, Sarah Laing, Ann Hedley, Declan Whyte, Robert Wiesheu, Ximena Raffo-Iraolagoitia, Tiziana Monteverde, and Nathiya Muthalagu

Abstract

6 supplementary Figures with legends under each; 3 Supplementary Tables; Supplementary Methods and References

Published

2023

15. Table S4 from Repression of the Type I Interferon Pathway Underlies MYC- and KRAS-Dependent Evasion of NK and B Cells in Pancreatic Ductal Adenocarcinoma

Author

Daniel J. Murphy, Jennifer P. Morton, Owen J. Sansom, Seth B. Coffelt, Leo M. Carlin, Andrew V. Biankin, William Clark, Colin Nixon, Katarina Gyuraszova, Saadia A. Karim, Curtis Rink, Sarah Neidler, Robin Shaw, Rosanna Upstill-Goddard, Björn Kruspig, Sarah Laing, Ann Hedley, Declan Whyte, Robert Wiesheu, Ximena Raffo-Iraolagoitia, Tiziana Monteverde, and Nathiya Muthalagu

Abstract

Spreadsheet of genes co-regulated by MYC & Miz1 in KMC PDAC cells

Published

2023

16. Figures S1-S6 & Tables S1 & S2 from Colorectal Tumors Require NUAK1 for Protection from Oxidative Stress

Author

Daniel J. Murphy, Sara R. Zanivan, Owen J. Sansom, Graeme I. Murray, Hiroyasu Esumi, Martin Drysdale, Colin Nixon, Allan McVie, David Sumpton, Amy Bryson, Silvija Svambaryte, Mokdad Mezna, Jacqueline Tait-Mulder, Katarina Gyuraszova, Martina Brucoli, Lisa Neilson, Sergio Lilla, Gabriela Kalna, Ann Hedley, Björn Kruspig, Tiziana Monteverde, Fatih Ceteci, Meera Raja, Nathiya Muthalagu, and Jennifer Port

Abstract

Merged supplementary Figures & Figure legends and Tables & Table legends

Published

2023

17. Supplementary Table 3 from Colorectal Tumors Require NUAK1 for Protection from Oxidative Stress

Author

Daniel J. Murphy, Sara R. Zanivan, Owen J. Sansom, Graeme I. Murray, Hiroyasu Esumi, Martin Drysdale, Colin Nixon, Allan McVie, David Sumpton, Amy Bryson, Silvija Svambaryte, Mokdad Mezna, Jacqueline Tait-Mulder, Katarina Gyuraszova, Martina Brucoli, Lisa Neilson, Sergio Lilla, Gabriela Kalna, Ann Hedley, Björn Kruspig, Tiziana Monteverde, Fatih Ceteci, Meera Raja, Nathiya Muthalagu, and Jennifer Port

Abstract

Excel spreadsheet of NUAK1 inhibitor induced phospho-peptide alterations

Published

2023

18. Supplementary Methods from Colorectal Tumors Require NUAK1 for Protection from Oxidative Stress

Author

Daniel J. Murphy, Sara R. Zanivan, Owen J. Sansom, Graeme I. Murray, Hiroyasu Esumi, Martin Drysdale, Colin Nixon, Allan McVie, David Sumpton, Amy Bryson, Silvija Svambaryte, Mokdad Mezna, Jacqueline Tait-Mulder, Katarina Gyuraszova, Martina Brucoli, Lisa Neilson, Sergio Lilla, Gabriela Kalna, Ann Hedley, Björn Kruspig, Tiziana Monteverde, Fatih Ceteci, Meera Raja, Nathiya Muthalagu, and Jennifer Port

Abstract

Supplementary Methods

Published

2023

19. Supplementary Figure S2 from Replication Stress Drives Constitutive Activation of the DNA Damage Response and Radioresistance in Glioblastoma Stem-like Cells

Author

Anthony J. Chalmers, Ester M. Hammond, Katrina H. Stevenson, Lesley Gilmour, Mathew Neilson, Gabriela Kalna, Natividad Gomez-Roman, Ann Hedley, Kathreena M. Kurian, Karen Strathdee, Shaliny Ramachandran, Shafiq U. Ahmed, and Ross D. Carruthers

Abstract

Supplementary Figure S2 shows additional data obtained during aphidicolin studies detailed in Fig 1 and additional data detailing expression of genes associated with ongoing and stalled replication forks from figure 3.

Published

2023

20. Data from Activation of β-Catenin Cooperates with Loss of Pten to Drive AR-Independent Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Owen J. Sansom, Saverio Tardito, Gillian Mackay, Ann Hedley, Colin Nixon, Chara Ntala, Joanne Edwards, Linda K. Rushworth, Carolyn J. Loveridge, Agata Mrowinska, Gaurav Malviya, Ee Hong Tan, Victoria Harle, Arnaud Blomme, Meiling Gao, Ernest Mui, Imran Ahmad, Peter Repiscak, Elspeth A. Brzezinska, and Rachana Patel

Abstract

Inhibition of the androgen receptor (AR) is the main strategy to treat advanced prostate cancers. AR-independent treatment-resistant prostate cancer is a major unresolved clinical problem. Patients with prostate cancer with alterations in canonical WNT pathway genes, which lead to β-catenin activation, are refractory to AR-targeted therapies. Here, using clinically relevant murine prostate cancer models, we investigated the significance of β-catenin activation in prostate cancer progression and treatment resistance. β-Catenin activation, independent of the cell of origin, cooperated with Pten loss to drive AR-independent castration-resistant prostate cancer. Prostate tumors with β-catenin activation relied on the noncanonical WNT ligand WNT5a for sustained growth. WNT5a repressed AR expression and maintained the expression of c-Myc, an oncogenic effector of β-catenin activation, by mediating nuclear localization of NFκBp65 and β-catenin. Overall, WNT/β-catenin and AR signaling are reciprocally inhibited. Therefore, inhibiting WNT/β-catenin signaling by limiting WNT secretion in concert with AR inhibition may be useful for treating prostate cancers with alterations in WNT pathway genes.Significance:Targeting of both AR and WNT/β-catenin signaling may be required to treat prostate cancers that exhibit alterations of the WNT pathway.

Published

2023

21. Supplementary figure and table legends from Replication Stress Drives Constitutive Activation of the DNA Damage Response and Radioresistance in Glioblastoma Stem-like Cells

Author

Anthony J. Chalmers, Ester M. Hammond, Katrina H. Stevenson, Lesley Gilmour, Mathew Neilson, Gabriela Kalna, Natividad Gomez-Roman, Ann Hedley, Kathreena M. Kurian, Karen Strathdee, Shaliny Ramachandran, Shafiq U. Ahmed, and Ross D. Carruthers

Abstract

Legends for supplementary figures and tables

Published

2023

22. Supplementary Information from Increased T-cell Infiltration Elicited by Erk5 Deletion in a Pten-Deficient Mouse Model of Prostate Carcinogenesis

Author

Hing Y. Leung, Owen Sansom, Karen Blyth, Colin Nixon, Ann Hedley, Julie Galbraith, Michelle Welsh, Imran Ahmad, Ee Hong Tan, Rachana Patel, Ernest J. Mui, and Carolyn J. Loveridge

Abstract

This file contains Supplementary Materials and Methods, Supplementary Figures, Legends to Supplementary Figures and Supplementary Tables. Figure S1 shows histopathological analysis of Ptenfl/fl and Ptenfl/fl Erk5fl/fl tumours at 3 and 9-10 month fixed time points and demonstrates that there is reduced %Ki67 positive nuclei in Ptenfl/fl Erk5fl/fl tumours at the 9-10 month time point. There is very little T lymphocyte infiltration at the 3 month time point but significant T lymphocyte infiltration is observed at the later time point. Figure S2 shows Western Blot and QPCR data to validate that P1 and PE cells are null for PTEN and ERK5 protein and Erk5 mRNA transcript where expected. Also shown is IHC staining demonstrating increased immunoreactivity for CCL5 and CXCL10 in Ptenfl/fl Erk5fl/fl compared to Ptenfl/fl tumours and that CCR5 and CXCR3 immunoreactivity is detected in the tumour epithelium and immune cells present in the stroma of Ptenfl/fl Erk5fl/fl tumours. Figure S3 shows IHC staining for CD45 demonstrating significant lymphocyte infiltration in Ptenfl/fl and Ptenfl/fl Erk5fl/fl tumours. Also shown is dual IHC staining for CD3/CD4 revealing a high degree of CD4 reactivity within the lymphoid aggregates of Ptenfl/fl Erk5fl/fl tumours.

Published

2023

23. Supplementary Information from SLFN5 Regulates LAT1-Mediated mTOR Activation in Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Arnaud Blomme, Sara Zanivan, Martin E. Gleave, David Sumpton, Luke Gaughan, Ladan Fazli, Gillian M. MacKay, Sergio Lilla, Colin Nixon, Laura C.A. Galbraith, Sonia H.Y. Kung, Elodie Renaude, Eric Hervouet, Paul Peixoto, William Clark, Ann Hedley, Giovanny Rodriguez Blanco, Chara Ntala, Linda Rushworth, Mark J. Salji, and Rafael S. Martinez

Abstract

Figures S1-S2-S3 + Suppl. Fig. legends + Suppl. Methods

Published

2023

24. Supplementary Data from RUNX1 Is a Driver of Renal Cell Carcinoma Correlating with Clinical Outcome

Author

Karen Blyth, Ewan R. Cameron, Joanne Edwards, Owen J. Sansom, Joshua D.G. Leach, William Clark, Colin Nixon, Dimitris Athineos, Steven Howard, Ann Hedley, Kirsteen J. Campbell, J. Henry M. Däbritz, Laura McDonald, Susan M. Mason, and Nicholas Rooney

Abstract

All Supplementary data figures and legends. Supplementary Figure 1. In Silico analysis of RUNX1 expression in human kidney cancer. Supplementary Figure 2. Knockdown of RUNX1 with shRNA causes a growth defect in two ccRCC cell lines. Supplementary Figure 3. RUNX1 deletion in 786-O* cells and orthotopic xenograft. Supplementary Figure 4. Principle component analysis. Gene expression variances between control (786-O pX, Red) and RUNX1 CRISPR cells (786-O A1, yellow and 786-O A3, purple). Supplementary Figure 5. Heterozygous deletion of RUNX2 in a GEM model of kidney cancer does not affect survival.

Published

2023

25. Supplementary Data 1 from RUNX1 Is a Driver of Renal Cell Carcinoma Correlating with Clinical Outcome

Author

Karen Blyth, Ewan R. Cameron, Joanne Edwards, Owen J. Sansom, Joshua D.G. Leach, William Clark, Colin Nixon, Dimitris Athineos, Steven Howard, Ann Hedley, Kirsteen J. Campbell, J. Henry M. Däbritz, Laura McDonald, Susan M. Mason, and Nicholas Rooney

Abstract

RNAseq data set

Published

2023

26. Supplementary Data 3 from SLFN5 Regulates LAT1-Mediated mTOR Activation in Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Arnaud Blomme, Sara Zanivan, Martin E. Gleave, David Sumpton, Luke Gaughan, Ladan Fazli, Gillian M. MacKay, Sergio Lilla, Colin Nixon, Laura C.A. Galbraith, Sonia H.Y. Kung, Elodie Renaude, Eric Hervouet, Paul Peixoto, William Clark, Ann Hedley, Giovanny Rodriguez Blanco, Chara Ntala, Linda Rushworth, Mark J. Salji, and Rafael S. Martinez

Abstract

Pathway Enrichment_RNASeq

Published

2023

27. Supplementary Data 1 from SLFN5 Regulates LAT1-Mediated mTOR Activation in Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Arnaud Blomme, Sara Zanivan, Martin E. Gleave, David Sumpton, Luke Gaughan, Ladan Fazli, Gillian M. MacKay, Sergio Lilla, Colin Nixon, Laura C.A. Galbraith, Sonia H.Y. Kung, Elodie Renaude, Eric Hervouet, Paul Peixoto, William Clark, Ann Hedley, Giovanny Rodriguez Blanco, Chara Ntala, Linda Rushworth, Mark J. Salji, and Rafael S. Martinez

Abstract

Proteomics_CRPC

Published

2023

28. Supplementary Data 4 from SLFN5 Regulates LAT1-Mediated mTOR Activation in Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Arnaud Blomme, Sara Zanivan, Martin E. Gleave, David Sumpton, Luke Gaughan, Ladan Fazli, Gillian M. MacKay, Sergio Lilla, Colin Nixon, Laura C.A. Galbraith, Sonia H.Y. Kung, Elodie Renaude, Eric Hervouet, Paul Peixoto, William Clark, Ann Hedley, Giovanny Rodriguez Blanco, Chara Ntala, Linda Rushworth, Mark J. Salji, and Rafael S. Martinez

Abstract

SLFN5_binding sites

Published

2023

29. Supplementary Data 2 from SLFN5 Regulates LAT1-Mediated mTOR Activation in Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Arnaud Blomme, Sara Zanivan, Martin E. Gleave, David Sumpton, Luke Gaughan, Ladan Fazli, Gillian M. MacKay, Sergio Lilla, Colin Nixon, Laura C.A. Galbraith, Sonia H.Y. Kung, Elodie Renaude, Eric Hervouet, Paul Peixoto, William Clark, Ann Hedley, Giovanny Rodriguez Blanco, Chara Ntala, Linda Rushworth, Mark J. Salji, and Rafael S. Martinez

Abstract

RNASeq_SLFN5 KO

Published

2023

30. Supplementary Data 5 from SLFN5 Regulates LAT1-Mediated mTOR Activation in Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Arnaud Blomme, Sara Zanivan, Martin E. Gleave, David Sumpton, Luke Gaughan, Ladan Fazli, Gillian M. MacKay, Sergio Lilla, Colin Nixon, Laura C.A. Galbraith, Sonia H.Y. Kung, Elodie Renaude, Eric Hervouet, Paul Peixoto, William Clark, Ann Hedley, Giovanny Rodriguez Blanco, Chara Ntala, Linda Rushworth, Mark J. Salji, and Rafael S. Martinez

Abstract

ATF4_binding sites

Published

2023

31. Data from RUNX1 Is a Driver of Renal Cell Carcinoma Correlating with Clinical Outcome

Author

Karen Blyth, Ewan R. Cameron, Joanne Edwards, Owen J. Sansom, Joshua D.G. Leach, William Clark, Colin Nixon, Dimitris Athineos, Steven Howard, Ann Hedley, Kirsteen J. Campbell, J. Henry M. Däbritz, Laura McDonald, Susan M. Mason, and Nicholas Rooney

Abstract

The recurring association of specific genetic lesions with particular types of cancer is a fascinating and largely unexplained area of cancer biology. This is particularly true of clear cell renal cell carcinoma (ccRCC) where, although key mutations such as loss of VHL is an almost ubiquitous finding, there remains a conspicuous lack of targetable genetic drivers. In this study, we have identified a previously unknown protumorigenic role for the RUNX genes in this disease setting. Analysis of patient tumor biopsies together with loss-of-function studies in preclinical models established the importance of RUNX1 and RUNX2 in ccRCC. Patients with high RUNX1 (and RUNX2) expression exhibited significantly poorer clinical survival compared with patients with low expression. This was functionally relevant, as deletion of RUNX1 in ccRCC cell lines reduced tumor cell growth and viability in vitro and in vivo. Transcriptional profiling of RUNX1-CRISPR–deleted cells revealed a gene signature dominated by extracellular matrix remodeling, notably affecting STMN3, SERPINH1, and EPHRIN signaling. Finally, RUNX1 deletion in a genetic mouse model of kidney cancer improved overall survival and reduced tumor cell proliferation. In summary, these data attest to the validity of targeting a RUNX1-transcriptional program in ccRCC.Significance:These data reveal a novel unexplored oncogenic role for RUNX genes in kidney cancer and indicate that targeting the effects of RUNX transcriptional activity could be relevant for clinical intervention in ccRCC.

Published

2023

32. Supplementary Data 6 from SLFN5 Regulates LAT1-Mediated mTOR Activation in Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Arnaud Blomme, Sara Zanivan, Martin E. Gleave, David Sumpton, Luke Gaughan, Ladan Fazli, Gillian M. MacKay, Sergio Lilla, Colin Nixon, Laura C.A. Galbraith, Sonia H.Y. Kung, Elodie Renaude, Eric Hervouet, Paul Peixoto, William Clark, Ann Hedley, Giovanny Rodriguez Blanco, Chara Ntala, Linda Rushworth, Mark J. Salji, and Rafael S. Martinez

Abstract

List of antibodies

Published

2023

33. Data from SLFN5 Regulates LAT1-Mediated mTOR Activation in Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Arnaud Blomme, Sara Zanivan, Martin E. Gleave, David Sumpton, Luke Gaughan, Ladan Fazli, Gillian M. MacKay, Sergio Lilla, Colin Nixon, Laura C.A. Galbraith, Sonia H.Y. Kung, Elodie Renaude, Eric Hervouet, Paul Peixoto, William Clark, Ann Hedley, Giovanny Rodriguez Blanco, Chara Ntala, Linda Rushworth, Mark J. Salji, and Rafael S. Martinez

Abstract

Androgen deprivation therapy (ADT) is the standard of care for treatment of nonresectable prostate cancer. Despite high treatment efficiency, most patients ultimately develop lethal castration-resistant prostate cancer (CRPC). In this study, we performed a comparative proteomic analysis of three in vivo, androgen receptor (AR)-responsive orthograft models of matched hormone-naïve prostate cancer and CRPC. Differential proteomic analysis revealed that distinct molecular mechanisms, including amino acid (AA) and fatty acid metabolism, are involved in the response to ADT in the different models. Despite this heterogeneity, Schlafen family member 5 (SLFN5) was identified as an AR-regulated protein in CRPC. SLFN5 expression was high in CRPC tumors and correlated with poor patient outcome. In vivo, SLFN5 depletion strongly impaired tumor growth in castrated conditions. Mechanistically, SLFN5 interacted with ATF4 and regulated the expression of LAT1, an essential AA transporter. Consequently, SLFN5 depletion in CRPC cells decreased intracellular levels of essential AA and impaired mTORC1 signaling in a LAT1-dependent manner. These results confirm that these orthograft models recapitulate the high degree of heterogeneity observed in patients with CRPC and further highlight SLFN5 as a clinically relevant target for CRPC.Significance:This study identifies SLFN5 as a novel regulator of the LAT1 amino acid transporter and an essential contributor to mTORC1 activity in castration-resistant prostate cancer.

Published

2023

34. Supplementary Table 1 from RUNX1 Is a Driver of Renal Cell Carcinoma Correlating with Clinical Outcome

Author

Karen Blyth, Ewan R. Cameron, Joanne Edwards, Owen J. Sansom, Joshua D.G. Leach, William Clark, Colin Nixon, Dimitris Athineos, Steven Howard, Ann Hedley, Kirsteen J. Campbell, J. Henry M. Däbritz, Laura McDonald, Susan M. Mason, and Nicholas Rooney

Abstract

Supplementary Table 1. The relationship between RUNX2 and clinico-pathological characteristics of kidney cancer in the TMA study.

Published

2023

35. Data from Replication Stress Drives Constitutive Activation of the DNA Damage Response and Radioresistance in Glioblastoma Stem-like Cells

Author

Anthony J. Chalmers, Ester M. Hammond, Katrina H. Stevenson, Lesley Gilmour, Mathew Neilson, Gabriela Kalna, Natividad Gomez-Roman, Ann Hedley, Kathreena M. Kurian, Karen Strathdee, Shaliny Ramachandran, Shafiq U. Ahmed, and Ross D. Carruthers

Abstract

Glioblastoma (GBM) is a lethal primary brain tumor characterized by treatment resistance and inevitable tumor recurrence, both of which are driven by a subpopulation of GBM cancer stem–like cells (GSC) with tumorigenic and self-renewal properties. Despite having broad implications for understanding GSC phenotype, the determinants of upregulated DNA-damage response (DDR) and subsequent radiation resistance in GSC are unknown and represent a significant barrier to developing effective GBM treatments. In this study, we show that constitutive DDR activation and radiation resistance are driven by high levels of DNA replication stress (RS). CD133+ GSC exhibited reduced DNA replication velocity and a higher frequency of stalled replication forks than CD133− non-GSC in vitro; immunofluorescence studies confirmed these observations in a panel of orthotopic xenografts and human GBM specimens. Exposure of non-GSC to low-level exogenous RS generated radiation resistance in vitro, confirming RS as a novel determinant of radiation resistance in tumor cells. GSC exhibited DNA double-strand breaks, which colocalized with “replication factories” and RNA: DNA hybrids. GSC also demonstrated increased expression of long neural genes (>1 Mbp) containing common fragile sites, supporting the hypothesis that replication/transcription collisions are the likely cause of RS in GSC. Targeting RS by combined inhibition of ATR and PARP (CAiPi) provided GSC-specific cytotoxicity and complete abrogation of GSC radiation resistance in vitro. These data identify RS as a cancer stem cell–specific target with significant clinical potential.Significance: These findings shed new light on cancer stem cell biology and reveal novel therapeutics with the potential to improve clinical outcomes by overcoming inherent radioresistance in GBM. Cancer Res; 78(17); 5060–71. ©2018 AACR.

Published

2023

36. Supplementary Data 7 from SLFN5 Regulates LAT1-Mediated mTOR Activation in Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Arnaud Blomme, Sara Zanivan, Martin E. Gleave, David Sumpton, Luke Gaughan, Ladan Fazli, Gillian M. MacKay, Sergio Lilla, Colin Nixon, Laura C.A. Galbraith, Sonia H.Y. Kung, Elodie Renaude, Eric Hervouet, Paul Peixoto, William Clark, Ann Hedley, Giovanny Rodriguez Blanco, Chara Ntala, Linda Rushworth, Mark J. Salji, and Rafael S. Martinez

Abstract

List of primers

Published

2023

37. Table S1 from SLFN5 Regulates LAT1-Mediated mTOR Activation in Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Arnaud Blomme, Sara Zanivan, Martin E. Gleave, David Sumpton, Luke Gaughan, Ladan Fazli, Gillian M. MacKay, Sergio Lilla, Colin Nixon, Laura C.A. Galbraith, Sonia H.Y. Kung, Elodie Renaude, Eric Hervouet, Paul Peixoto, William Clark, Ann Hedley, Giovanny Rodriguez Blanco, Chara Ntala, Linda Rushworth, Mark J. Salji, and Rafael S. Martinez

Abstract

Significantly down-reg genes in SLFN5 KO cells and tumours

Published

2023

38. Supplemental tables 1, 2 and 3 from Replication Stress Drives Constitutive Activation of the DNA Damage Response and Radioresistance in Glioblastoma Stem-like Cells

Author

Anthony J. Chalmers, Ester M. Hammond, Katrina H. Stevenson, Lesley Gilmour, Mathew Neilson, Gabriela Kalna, Natividad Gomez-Roman, Ann Hedley, Kathreena M. Kurian, Karen Strathdee, Shaliny Ramachandran, Shafiq U. Ahmed, and Ross D. Carruthers

Abstract

Supplemental Table 1 Summary table of in vivo growth characteristics of E2, G7, R10, R15, R24, R9 and S2 GSC primary GBM cultures after intracranial injection in CD1 nude mice. Supplemental Table 2 List of primary antibodies utilised Supplemental Table 3 List of secondary antibodies utilised

Published

2023

39. Data from Increased T-cell Infiltration Elicited by Erk5 Deletion in a Pten-Deficient Mouse Model of Prostate Carcinogenesis

Author

Hing Y. Leung, Owen Sansom, Karen Blyth, Colin Nixon, Ann Hedley, Julie Galbraith, Michelle Welsh, Imran Ahmad, Ee Hong Tan, Rachana Patel, Ernest J. Mui, and Carolyn J. Loveridge

Abstract

Prostate cancer does not appear to respond to immune checkpoint therapies where T-cell infiltration may be a key limiting factor. Here, we report evidence that ablating the growth regulatory kinase Erk5 can increase T-cell infiltration in an established Pten-deficient mouse model of human prostate cancer. Mice that were doubly mutant in prostate tissue for Pten and Erk5 (prostate DKO) exhibited a markedly increased median survival with reduced tumor size and proliferation compared with control Pten-mutant mice, the latter of which exhibited increased Erk5 mRNA expression. A comparative transcriptomic analysis revealed upregulation in prostate DKO mice of the chemokines Ccl5 and Cxcl10, two potent chemoattractants for T lymphocytes. Consistent with this effect, we observed a relative increase in a predominantly CD4+ T-cell infiltrate in the prostate epithelial and stroma of tumors from DKO mice. Collectively, our results offer a preclinical proof of concept for ERK5 as a target to enhance T-cell infiltrates in prostate cancer, with possible implications for leveraging immune therapy in this disease. Cancer Res; 77(12); 3158–68. ©2017 AACR.

Published

2023

40. Supplementary Data from Activation of β-Catenin Cooperates with Loss of Pten to Drive AR-Independent Castration-Resistant Prostate Cancer

Author

Hing Y. Leung, Owen J. Sansom, Saverio Tardito, Gillian Mackay, Ann Hedley, Colin Nixon, Chara Ntala, Joanne Edwards, Linda K. Rushworth, Carolyn J. Loveridge, Agata Mrowinska, Gaurav Malviya, Ee Hong Tan, Victoria Harle, Arnaud Blomme, Meiling Gao, Ernest Mui, Imran Ahmad, Peter Repiscak, Elspeth A. Brzezinska, and Rachana Patel

Abstract

The supplementary file contains details of the materials and methods used in the manuscript. File also contains supplementary figures S1 to S3 describing in details the murine model used to study role of activated ß-catenin in prostate cancer progression. Supplementary figure S4 describes the murine orthograft model generated to study mechanistic details. Supplementary figure S5 describes the metabolic profile of primary murine prostate cancer cells with Pten loss and ß-catenin activation and figures S6 and S7 show the effects of combining ADT with inhibition of WNT signalling.

Published

2023

41. Migration through physical constraints is enabled by MAPK-induced cell softening via actin cytoskeleton re-organization

Author

Gabriela Kalna, Susan M. Mason, Matthew Neilson, David J. McGarry, June Munro, Michael F. Olson, Margaret Mullin, Daniela Moralli, Huabing Yin, Ann Hedley, Aleksandra Ptak, Catherine M. Green, Karen Blyth, Dominika A. Rudzka, Ya-Hua Chim, and Giulia Spennati

Subjects

Proto-Oncogene Proteins B-raf, MAPK/ERK pathway, MAP Kinase Signaling System, Cell Plasticity, Cell, Biology, Proto-Oncogene Proteins p21(ras), Focal adhesion, 03 medical and health sciences, 0302 clinical medicine, Cell Movement, Cell Line, Tumor, medicine, Humans, Neoplasm Invasiveness, Neoplasm Metastasis, skin and connective tissue diseases, Cytoskeleton, Melanoma, Cell Proliferation, 030304 developmental biology, Focal Adhesions, 0303 health sciences, Cell growth, Micropore Filters, MEK inhibitor, Motility, Cell Biology, Actin cytoskeleton, MAPK, Elasticity, Biomechanical Phenomena, Cell biology, Actin Cytoskeleton, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Cancer cell, Anisotropy, Research Article

Abstract

Cancer cells are softer than the normal cells, and metastatic cells are even softer. These changes in biomechanical properties contribute to cancer progression by facilitating cell movement through physically constraining environments. To identify properties that enabled passage through physical constraints, cells that were more efficient at moving through narrow membrane micropores were selected from established cell lines. By examining micropore-selected human MDA MB 231 breast cancer and MDA MB 435 melanoma cancer cells, membrane fluidity and nuclear elasticity were excluded as primary contributors. Instead, reduced actin cytoskeleton anisotropy, focal adhesion density and cell stiffness were characteristics associated with efficient passage through constraints. By comparing transcriptomic profiles between the parental and selected populations, increased Ras/MAPK signalling was linked with cytoskeleton rearrangements and cell softening. MEK inhibitor treatment reversed the transcriptional, cytoskeleton, focal adhesion and elasticity changes. Conversely, expression of oncogenic KRas in parental MDA MB 231 cells, or oncogenic BRaf in parental MDA MB 435 cells, significantly reduced cell stiffness. These results reveal that MAPK signalling, in addition to tumour cell proliferation, has a significant role in regulating cell biomechanics. This article has an associated First Person interview with the first author of the paper., Highlighted Article: Selection for tumour cells that efficiently pass through narrow diameter microporous membranes reveals a prominent role for MAPK signalling in regulating cell elasticity.

Published

2023

42. p53-mediated redox control promotes liver regeneration and maintains liver function in response to CCl4

Author

Robin M. Shaw, Karen H. Vousden, Timothy J. Humpton, Thomas G. Bird, William C. Clark, Ann Hedley, Christos Kiourtis, Holly Hall, Colin Nixon, and Karen Blyth

Subjects

chemistry.chemical_classification, 0303 health sciences, Reactive oxygen species, biology, Hepatotoxin, Cytochrome P450, Cell Biology, Liver regeneration, 3. Good health, law.invention, Cell biology, Signalling & Oncogenes, 03 medical and health sciences, Metabolism, 0302 clinical medicine, Mediator, chemistry, law, 030220 oncology & carcinogenesis, biology.protein, Suppressor, Liver function, Molecular Biology, Transcription factor, 030304 developmental biology

Abstract

The p53 transcription factor coordinates wide-ranging responses to stress that contribute to its function as a tumour suppressor. The responses to p53 induction are complex and range from mediating the elimination of stressed or damaged cells to promoting survival and repair. These activities of p53 can modulate tumour development but may also play a role in pathological responses to stress such as tissue damage and repair. Using a p53 reporter mouse, we have previously detected strong induction of p53 activity in the liver of mice treated with the hepatotoxin carbon tetrachloride (CCl4). Here, we show that p53 functions to support repair and recovery from CCl4-mediated liver damage, control reactive oxygen species (ROS) and limit the development of hepatocellular carcinoma (HCC), in part through the activation of a detoxification cytochrome P450, CYP2A5 (CYP2A6 in humans). Our work demonstrates an important role for p53-mediated redox control in facilitating the hepatic regenerative response after damage and identifies CYP2A5/CYP2A6 as a mediator of this pathway with potential prognostic utility in human HCC.

Published

2021

43. Tracheostomy in children promotes persistent neutrophilic airway inflammation

Author

Jason Powell, Steven Powell, Michael W Mather, Lauren Beck, Andrew Nelson, Pawel Palmowski, Andrew Porter, Jonathan Coxhead, Ann Hedley, Jonathan Scott, Anthony J Rostron, Thomas P Hellyer, Fatima Zaidi, Tracey Davey, James P Garnett, Rachel Agbeko, Chris Ward, Christopher J Stewart, Clifford C Taggart, Malcolm Brodlie, and A John Simpson

Abstract

BackgroundTracheostomies in children are associated with significant morbidity, poor quality of life, excess healthcare costs, and excess mortality. The underlying mechanisms facilitating adverse outcomes in tracheostomised children are poorly understood. We aimed to characterise airway host defence in tracheostomised children using serial molecular analyses.MethodsTracheal aspirates, tracheal cytology brushings, nasal swabs and stool samples were prospectively collected from children with a tracheostomy and controls. Transcriptomic, proteomic, and metabolomic methods were applied to characterise the impact of tracheostomy on host immune response and the airway microbiome.ResultsChildren followed up serially from the time of tracheostomy up to three months post-procedure (n=9) were studied. A validation cohort of children with a long-term tracheostomy was also enrolled (n=24). Controls (n=13) comprised children without a tracheostomy undergoing bronchoscopy. Tracheostomy was associated with new, rapidly emergent and sustained airway neutrophilic inflammation, superoxide production and evidence of proteolysis when compared with controls. In contrast, reduced airway microbial diversity was established pre-tracheostomy and sustained thereafter.ConclusionsChildhood tracheostomy is associated with rapidly emergent and persistent airway neutrophil recruitment and activation, with sustained proteolysis and superoxide generation. These findings suggest neutrophil recruitment and activation as potential exploratory targets in seeking to prevent recurrent airway complications in this vulnerable group of patients.Key messageThe effect tracheostomy has on children is not described. Tracheostomy in children results in persistent local airway neutrophilic inflammation, proteolysis, superoxide production and dysbiosis.

Published

2022

44. SLFN5 Regulates LAT1-Mediated mTOR Activation in Castration-Resistant Prostate Cancer

Author

Sara Zanivan, Rafael S. Martinez, William C. Clark, Paul Peixoto, Sergio Lilla, Colin Nixon, Laura C. A. Galbraith, Eric Hervouet, Ladan Fazli, Ann Hedley, Sonia H.Y. Kung, Luke Gaughan, Linda K. Rushworth, Hing Y. Leung, Martin E. Gleave, Gillian M. Mackay, Chara Ntala, Mark Salji, David Sumpton, Arnaud Blomme, Giovanny Rodriguez Blanco, and Elodie Renaude

Subjects

Male, 0301 basic medicine, Cancer Research, Proteome, Mice, Nude, Apoptosis, Cell Cycle Proteins, mTORC1, Mechanistic Target of Rapamycin Complex 1, urologic and male genital diseases, Large Neutral Amino Acid-Transporter 1, Mice, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, In vivo, Biomarkers, Tumor, Tumor Cells, Cultured, Animals, Humans, Medicine, PI3K/AKT/mTOR pathway, Cell Proliferation, business.industry, TOR Serine-Threonine Kinases, ATF4, Transporter, Prognosis, medicine.disease, Activating Transcription Factor 4, Xenograft Model Antitumor Assays, Gene Expression Regulation, Neoplastic, Survival Rate, Androgen receptor, Prostatic Neoplasms, Castration-Resistant, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Metabolome, Cancer research, Transcriptome, business, Intracellular

Abstract

Androgen deprivation therapy (ADT) is the standard of care for treatment of nonresectable prostate cancer. Despite high treatment efficiency, most patients ultimately develop lethal castration-resistant prostate cancer (CRPC). In this study, we performed a comparative proteomic analysis of three in vivo, androgen receptor (AR)-responsive orthograft models of matched hormone-naïve prostate cancer and CRPC. Differential proteomic analysis revealed that distinct molecular mechanisms, including amino acid (AA) and fatty acid metabolism, are involved in the response to ADT in the different models. Despite this heterogeneity, Schlafen family member 5 (SLFN5) was identified as an AR-regulated protein in CRPC. SLFN5 expression was high in CRPC tumors and correlated with poor patient outcome. In vivo, SLFN5 depletion strongly impaired tumor growth in castrated conditions. Mechanistically, SLFN5 interacted with ATF4 and regulated the expression of LAT1, an essential AA transporter. Consequently, SLFN5 depletion in CRPC cells decreased intracellular levels of essential AA and impaired mTORC1 signaling in a LAT1-dependent manner. These results confirm that these orthograft models recapitulate the high degree of heterogeneity observed in patients with CRPC and further highlight SLFN5 as a clinically relevant target for CRPC. Significance: This study identifies SLFN5 as a novel regulator of the LAT1 amino acid transporter and an essential contributor to mTORC1 activity in castration-resistant prostate cancer.

Published

2021

45. PPAR-gamma induced AKT3 expression increases levels of mitochondrial biogenesis driving prostate cancer

Author

Imran Ahmad, Laura C. A. Galbraith, Gillian M. Mackay, Ernest Mui, Colin Nixon, Owen J. Sansom, Hing Y. Leung, David Sumpton, Ann Hedley, and David P. Strachan

Subjects

0301 basic medicine, Male, Cancer Research, Peroxisome proliferator-activated receptor gamma, Epithelial-Mesenchymal Transition, Peroxisome proliferator-activated receptor, Receptors, Cytoplasmic and Nuclear, Biology, Karyopherins, AKT3, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Cell Line, Tumor, Genetics, Animals, Humans, Epithelial–mesenchymal transition, Cancer models, Molecular Biology, Transcription factor, Protein kinase B, chemistry.chemical_classification, Prostate cancer, Organelle Biogenesis, Prostatic Neoplasms, Lipid Metabolism, Peroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alpha, Cell biology, Mitochondria, Gene Expression Regulation, Neoplastic, PPAR gamma, 030104 developmental biology, chemistry, Mitochondrial biogenesis, 030220 oncology & carcinogenesis, Organelle biogenesis, Proto-Oncogene Proteins c-akt

Abstract

Peroxisome Proliferator-Activated Receptor Gamma (PPARG) is one of the three members of the PPAR family of transcription factors. Besides its roles in adipocyte differentiation and lipid metabolism, we recently demonstrated an association between PPARG and metastasis in prostate cancer. In this study a functional effect of PPARG on AKT serine/threonine kinase 3 (AKT3), which ultimately results in a more aggressive disease phenotype was identified. AKT3 has previously been shown to regulate PPARG co-activator 1 alpha (PGC1α) localisation and function through its action on chromosome maintenance region 1 (CRM1). AKT3 promotes PGC1α localisation to the nucleus through its inhibitory effects on CRM1, a known nuclear export protein. Collectively our results demonstrate how PPARG over-expression drives an increase in AKT3 levels, which in turn has the downstream effect of increasing PGC1α localisation within the nucleus, driving mitochondrial biogenesis. Furthermore, this increase in mitochondrial mass provides higher energetic output in the form of elevated ATP levels which may fuel the progression of the tumour cell through epithelial to mesenchymal transition (EMT) and ultimately metastasis.

Published

2021

46. E3 ligase-inactivation rewires CBL interactome to elicit oncogenesis by hijacking RTK–CBL–CIN85 axis

Author

Danny T. Huang, David Sumpton, Sergio Lilla, Lori Buetow, Syed Feroj Ahmed, William C. Clark, Gary J. Sibbet, Ann Hedley, Sara Zanivan, and Mads Gabrielsen

Subjects

0301 basic medicine, Cancer Research, Lymphoma, B-Cell, Ubiquitylation, Endosome, Receptor Protein-Tyrosine Kinases, Mutant, Breast Neoplasms, macromolecular substances, Biology, medicine.disease_cause, environment and public health, Interactome, Article, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, hemic and lymphatic diseases, Genetics, medicine, Humans, Proto-Oncogene Proteins c-cbl, Molecular Biology, Adaptor Proteins, Signal Transducing, Cell Proliferation, Myeloproliferative Disorders, Ubiquitin, fungi, Cancer, Oncogenes, medicine.disease, Ubiquitin ligase, ErbB Receptors, Gene Expression Regulation, Neoplastic, enzymes and coenzymes (carbohydrates), 030104 developmental biology, Tissue Array Analysis, 030220 oncology & carcinogenesis, Mutation, Proteolysis, biology.protein, Cancer research, Female, Carcinogenesis, Protein Binding

Abstract

Casitas B-lineage lymphoma (CBL) is a ubiquitin ligase (E3) that becomes activated upon Tyr371-phosphorylation and targets receptor protein tyrosine kinases for ubiquitin-mediated degradation. Deregulation of CBL and its E3 activity is observed in myeloproliferative neoplasms and other cancers, including breast, colon, and prostate cancer. Here, we explore the oncogenic mechanism of E3-inactive CBL mutants identified in myeloproliferative neoplasms. We show that these mutants bind strongly to CIN85 under normal growth conditions and alter the CBL interactome. Lack of E3 activity deregulates CIN85 endosomal trafficking, leading to an altered transcriptome that amplifies signaling events to promote oncogenesis. Disruption of CBL mutant interactions with EGFR or CIN85 reduces oncogenic transformation. Given the importance of the CBL–CIN85 interaction in breast cancers, we examined the expression levels of CIN85, CBL, and the status of Tyr371-phosphorylated CBL (pCBL) in human breast cancer tissue microarrays. Interestingly, pCBL shows an inverse correlation with both CIN85 and CBL, suggesting that high expression of inactivated CBL could coordinate with CIN85 for breast cancer progression. Inhibition of the CBL–CIN85 interaction with a proline-rich peptide of CBL that binds CIN85 reduced the proliferation of MDA-MB-231 cells. Together, these results provide a rationale for exploring the potential of targeting the EGFR–CBL–CIN85 axis in CBL-inactivated mutant cancers.

Published

2021

47. The amino acid transporter SLC7A5 is required for efficient growth of KRAS-mutant colorectal cancer

Author

Owen J. Sansom, John R. P. Knight, Simon T. Barry, Rachel A. Ridgway, David Sumpton, Rory T. Steven, Giovanny Rodriguez-Blanco, Eyal Gottlieb, Gaurav Malviya, William C. Clark, Douglas Strathdee, Emma R. Johnson, Holly Hall, Alex Dexter, Teresa Murta, David Y. Lewis, Saverio Tardito, Gregory Hamm, Gavin Brown, Colin Nixon, Kathryn Gilroy, Zoltan Takats, Sudhir B Malla, Dmitry Solovyev, Sigrid K. Fey, Fatih Ceteci, Gillian M. Mackay, Susan E. Critchlow, Ann Hedley, Nikola Vlahov, Alan M. Race, Martin Bushell, Andrew D. Campbell, Arafath Kaja Najumudeen, Richard J. A. Goodwin, Josephine Bunch, Chelsea J. Nikula, Agata Mrowinska, Philip D Dunne, Rene Jackstadt, and Joshua D.G. Leach

Subjects

0303 health sciences, Mutation, Mutant, mTORC1, Biology, medicine.disease_cause, digestive system diseases, Glutamine, 03 medical and health sciences, 0302 clinical medicine, Cancer cell, Genetics, medicine, Cancer research, Amino acid transporter, KRAS, Signal transduction, neoplasms, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Oncogenic KRAS mutations and inactivation of the APC tumor suppressor co-occur in colorectal cancer (CRC). Despite efforts to target mutant KRAS directly, most therapeutic approaches focus on downstream pathways, albeit with limited efficacy. Moreover, mutant KRAS alters the basal metabolism of cancer cells, increasing glutamine utilization to support proliferation. We show that concomitant mutation of Apc and Kras in the mouse intestinal epithelium profoundly rewires metabolism, increasing glutamine consumption. Furthermore, SLC7A5, a glutamine antiporter, is critical for colorectal tumorigenesis in models of both early- and late-stage metastatic disease. Mechanistically, SLC7A5 maintains intracellular amino acid levels following KRAS activation through transcriptional and metabolic reprogramming. This supports the increased demand for bulk protein synthesis that underpins the enhanced proliferation of KRAS-mutant cells. Moreover, targeting protein synthesis, via inhibition of the mTORC1 regulator, together with Slc7a5 deletion abrogates the growth of established Kras-mutant tumors. Together, these data suggest SLC7A5 as an attractive target for therapy-resistant KRAS-mutant CRC.

Published

2021

48. Cancer-associated fibroblasts require proline synthesis by PYCR1 for the deposition of pro-tumorigenic extracellular matrix

Author

Emily J. Kay, Karla Paterson, Carla Riera-Domingo, David Sumpton, J. Henry M. Däbritz, Saverio Tardito, Claudia Boldrini, Juan R. Hernandez-Fernaud, Dimitris Athineos, Sandeep Dhayade, Ekaterina Stepanova, Enio Gjerga, Lisa J. Neilson, Sergio Lilla, Ann Hedley, Grigorios Koulouras, Grace McGregor, Craig Jamieson, Radia Marie Johnson, Morag Park, Kristina Kirschner, Crispin Miller, Jurre J. Kamphorst, Fabricio Loayza-Puch, Julio Saez-Rodriguez, Massimiliano Mazzone, Karen Blyth, Michele Zagnoni, and Sara Zanivan

Subjects

Proline, Carcinogenesis, Endocrinology, Diabetes and Metabolism, Glutamine, Breast Neoplasms, Cell Biology, Extracellular Matrix, RC0254, Cancer-Associated Fibroblasts, Physiology (medical), Internal Medicine, Humans, Female, Pyrroline Carboxylate Reductases, QD, Collagen

Abstract

Elevated production of collagen-rich extracellular matrix is a hallmark of cancer-associated fibroblasts (CAFs) and a central driver of cancer aggressiveness. Here we find that proline, a highly abundant amino acid in collagen proteins, is newly synthesized from glutamine in CAFs to make tumour collagen in breast cancer xenografts. PYCR1 is a key enzyme for proline synthesis and highly expressed in the stroma of breast cancer patients and in CAFs. Reducing PYCR1 levels in CAFs is sufficient to reduce tumour collagen production, tumour growth and metastatic spread in vivo and cancer cell proliferation in vitro. Both collagen and glutamine-derived proline synthesis in CAFs are epigenetically upregulated by increased pyruvate dehydrogenase-derived acetyl-CoA levels. PYCR1 is a cancer cell vulnerability and potential target for therapy; therefore, our work provides evidence that targeting PYCR1 may have the additional benefit of halting the production of a pro-tumorigenic extracellular matrix. Our work unveils new roles for CAF metabolism to support pro-tumorigenic collagen production. ispartof: NATURE METABOLISM vol:4 issue:6 pages:693-+ ispartof: location:Germany status: published

Published

2022

49. Human-correlated genetic HCC models identify combination therapy for precision medicine

Author

Miryam Müller, Stephanie May, Holly Hall, Timothy J. Kendall, Lynn McGarry, Lauriane Blukacz, Sandro Nuciforo, Thomas Jamieson, Narisa Phinichkusolchit, Sandeep Dhayade, Jack Leslie, Joep Sprangers, Gaurav Malviya, Agata Mrowinska, Emma Johnson, Misti McCain, John Halpin, Christos Kiourtis, Anastasia Georgakopoulou, Colin Nixon, William Clark, Robin Shaw, Ann Hedley, Thomas M. Drake, Ee Hong Tan, Matt Neilson, Daniel J. Murphy, David Lewis, Helen L. Reeves, Derek A. Mann, Karen Blyth, Markus H. Heim, Leo M. Carlin, Owen J. Sansom, Crispin Miller, and Thomas G. Bird

Abstract

Hepatocellular carcinoma (HCC), the most common form of primary liver cancer, is a leading cause of cancer related mortality worldwide. HCC occurs typically from a background of chronic liver disease, caused by a spectrum of predisposing conditions. Tumour development is driven by the expansion of clones that accumulated progressive driver mutations, with hepatocytes the most likely cell of origin. However, the landscape of driver mutations in HCC is independent of the underlying aetiologies. Despite an increasing range of systemic treatment options for advanced HCC outcomes remain heterogeneous and typically poor. Emerging data suggest that drug efficacies depend on disease aetiology and genetic alterations. Exploring subtypes in preclinical models with human relevance will therefore be essential to advance precision medicine in HCC. We generated over twenty-five new genetically-driven in vivo and in vitro HCC models. Our models represent multiple features of human HCC, including clonal origin, histopathological appearance, and metastasis to distant organs. We integrated transcriptomic data from the mouse models with human HCC data and identified four common human-mouse subtype clusters. The subtype clusters had distinct transcriptomic characteristics that aligned with histopathology. In a proof-of-principle analysis, we verified response to standard of care treatment and used a linked in vitro-in vivo pipeline to identify a promising therapeutic candidate, cladribine, that has not been linked to HCC treatment before. Cladribine acts in a highly effective subtype-specific manner in combination with standard of care therapy.

Published

2022

50. MYC regulates fatty acid metabolism through a multigenic program in claudin-low triple negative breast cancer

Author

Johan Vande Voorde, Caroline Perry, Ann Hedley, Richard Schlegel, Mairi E. Sandison, David W. Speicher, Tony McBryan, Zachary T. Schug, Susan Chalmers, Peter D. Adams, Adam J. Cohen-Nowak, Qin Liu, Eyal Gottlieb, Andrew V. Kossenkov, Hsin-Yao Tang, Jessica C. Casciano, Katelyn D. Miller, John G. McCarron, Nicole Gorman, Qifeng Zhang, Michael J.O. Wakelam, Xuefeng Liu, and Thomas Beer

Subjects

RM, Cancer Research, Epithelial-Mesenchymal Transition, Triple Negative Breast Neoplasms, PDGFRB, Biology, Transfection, Article, Proto-Oncogene Proteins c-myc, RC0254, Transcriptome, 03 medical and health sciences, chemistry.chemical_compound, Breast cancer, 0302 clinical medicine, Cell Line, Tumor, Metabolomics, Humans, Beta oxidation, Triple-negative breast cancer, Cell Proliferation, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Fatty acid metabolism, Kinase, digestive, oral, and skin physiology, Fatty Acids, Fatty acid, Oncogenes, Claudin-Low, Cancer metabolism, 3. Good health, Oncology, chemistry, 030220 oncology & carcinogenesis, Claudins, Cancer research, Female

Abstract

BackgroundRecent studies have suggested that fatty acid oxidation (FAO) is a key metabolic pathway for the growth of triple negative breast cancers (TNBCs), particularly those that have high expression of MYC. However, the underlying mechanism by which MYC promotes FAO remains poorly understood.MethodsWe used a combination of metabolomics, transcriptomics, bioinformatics, and microscopy to elucidate a potential mechanism by which MYC regulates FAO in TNBC.ResultsWe propose that MYC induces a multigenic program that involves changes in intracellular calcium signalling and fatty acid metabolism. We determined key roles for fatty acid transporters (CD36), lipases (LPL), and kinases (PDGFRB, CAMKK2, and AMPK) that each contribute to promoting FAO in human mammary epithelial cells that express oncogenic levels of MYC. Bioinformatic analysis further showed that this multigenic program is highly expressed and predicts poor survival in the claudin-low molecular subtype of TNBC, but not other subtypes of TNBCs, suggesting that efforts to target FAO in the clinic may best serve claudin-low TNBC patients.ConclusionWe identified critical pieces of the FAO machinery that have the potential to be targeted for improved treatment of patients with TNBC, especially the claudin-low molecular subtype.

Published

2020