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1. Affimer-mediated locking of p21-activated kinase 5 in an intermediate activation state results in kinase inhibition

Author

Heather L. Martin, Amy L. Turner, Julie Higgins, Anna A. Tang, Christian Tiede, Thomas Taylor, Sitthinon Siripanthong, Thomas L. Adams, Iain W. Manfield, Sandra M. Bell, Ewan E. Morrison, Jacquelyn Bond, Chi H. Trinh, Carolyn D. Hurst, Margaret A. Knowles, Richard W. Bayliss, and Darren C. Tomlinson

Subjects
CP: Cell biology, Biology (General), QH301-705.5
Abstract

Summary: Kinases are important therapeutic targets, and their inhibitors are classified according to their mechanism of action, which range from blocking ATP binding to covalent inhibition. Here, a mechanism of inhibition is highlighted by capturing p21-activated kinase 5 (PAK5) in an intermediate state of activation using an Affimer reagent that binds in the P+1 pocket. PAK5 was identified from a non-hypothesis-driven high-content imaging RNAi screen in urothelial cancer cells. Silencing of PAK5 resulted in reduced cell number, G1/S arrest, and enlargement of cells, suggesting it to be important in urothelial cancer cell line survival and proliferation. Affimer reagents were isolated to identify mechanisms of inhibition. The Affimer PAK5-Af17 recapitulated the phenotype seen with siRNA. Co-crystallization revealed that PAK5-Af17 bound in the P+1 pocket of PAK5, locking the kinase into a partial activation state. This mechanism of inhibition indicates that another class of kinase inhibitors is possible.

Published
2023
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2. A transcriptional network of cell cycle dysregulation in noninvasive papillary urothelial carcinoma

Author

Joshua I. Warrick, Margaret A. Knowles, Carolyn D. Hurst, Lauren Shuman, Jay D. Raman, Vonn Walter, Jeffrey Putt, Lars Dyrskjøt, Clarice Groeneveld, Mauro A. A. Castro, A. Gordon Robertson, and David J. DeGraff

Subjects
Medicine, Science
Abstract

Abstract Human cancers display a restricted set of expression profiles, despite diverse mutational drivers. This has led to the hypothesis that select sets of transcription factors act on similar target genes as an integrated network, buffering a tumor’s transcriptional state. Noninvasive papillary urothelial carcinoma (NIPUC) with higher cell cycle activity has higher risk of recurrence and progression. In this paper, we describe a transcriptional network of cell cycle dysregulation in NIPUC, which was delineated using the ARACNe algorithm applied to expression data from a new cohort (n = 81, RNA sequencing), and two previously published cohorts. The transcriptional network comprised 121 transcription factors, including the pluripotency factors SOX2 and SALL4, the sex hormone binding receptors ESR1 and PGR, and multiple homeobox factors. Of these 121 transcription factors, 65 and 56 were more active in tumors with greater and less cell cycle activity, respectively. When clustered by activity of these transcription factors, tumors divided into High Cell Cycle versus Low Cell Cycle groups. Tumors in the High Cell Cycle group demonstrated greater mutational burden and copy number instability. A putative mutational driver of cell cycle dysregulation, such as homozygous loss of CDKN2A, was found in only 50% of High Cell Cycle NIPUC, suggesting a prominent role of transcription factor activity in driving cell cycle dysregulation. Activity of the 121 transcription factors strongly associated with expression of EZH2 and other members of the PRC2 complex, suggesting regulation by this complex influences expression of the transcription factors in this network. Activity of transcription factors in this network also associated with signatures of pluripotency and epithelial-to-mesenchymal transition (EMT), suggesting they play a role in driving evolution to invasive carcinoma. Consistent with this, these transcription factors differed in activity between NIPUC and invasive urothelial carcinoma.

Published
2022
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3. An integrated multi-omics analysis identifies prognostic molecular subtypes of non-muscle-invasive bladder cancer

Author

Sia Viborg Lindskrog, Frederik Prip, Philippe Lamy, Ann Taber, Clarice S. Groeneveld, Karin Birkenkamp-Demtröder, Jørgen Bjerggaard Jensen, Trine Strandgaard, Iver Nordentoft, Emil Christensen, Mateo Sokac, Nicolai J. Birkbak, Lasse Maretty, Gregers G. Hermann, Astrid C. Petersen, Veronika Weyerer, Marc-Oliver Grimm, Marcus Horstmann, Gottfrid Sjödahl, Mattias Höglund, Torben Steiniche, Karin Mogensen, Aurélien de Reyniès, Roman Nawroth, Brian Jordan, Xiaoqi Lin, Dejan Dragicevic, Douglas G. Ward, Anshita Goel, Carolyn D. Hurst, Jay D. Raman, Joshua I. Warrick, Ulrika Segersten, Danijel Sikic, Kim E. M. van Kessel, Tobias Maurer, Joshua J. Meeks, David J. DeGraff, Richard T. Bryan, Margaret A. Knowles, Tatjana Simic, Arndt Hartmann, Ellen C. Zwarthoff, Per-Uno Malmström, Núria Malats, Francisco X. Real, and Lars Dyrskjøt

Subjects
Science
Abstract

Multiple molecular profiling methods are required to study urothelial non-muscle-invasive bladder cancer (NMIBC) due to its heterogeneity. Here the authors integrate multi-omics data of 834 NMIBC patients, identifying a molecular subgroup associated with multiple alterations and worse outcomes.

Published
2021
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4. Modeling the mechanical stiffness of pancreatic ductal adenocarcinoma

Author

Delanyo Kpeglo, Matthew D.G. Hughes, Lorna Dougan, Malcolm Haddrick, Margaret A. Knowles, Stephen D. Evans, and Sally A. Peyman

Subjects
Tissue mechanics, Tumor microenvironment, Pancreatic ductal adenocarcinoma, Pancreatic stellate cells, Transforming growth factor β1, Oscillatory shear rheology, Biology (General), QH301-705.5
Abstract

Despite improvements in the understanding of disease biology, pancreatic ductal adenocarcinoma (PDAC) remains the most malignant cancer of the pancreas. PDAC constitutes ∼95% of all pancreatic cancers, and it is highly resistant to therapeutics. The increased tissue rigidity, which stems from the rich fibrotic stroma in the tumor microenvironment, is central to disease development, physiology, and resistance to drug perfusion. Pancreatic stellate cells (PSCs) are responsible for overproduction of extracellular matrix in the fibrotic stroma, and this is exacerbated by the overexpression of transforming growth factor-β (TGF-β). However, there are few in vitro PDAC models, which include both PSCs and TGF-β or mimic in vivo-like tumor stiffness. In this study, we present a three-dimensional in vitro PDAC model, which includes PSCs and TGF-β, and recapitulates PDAC tissue mechanical stiffness. Using oscillatory shear rheology, we show the mechanical stiffness of the model is within range of the PDAC tissue stiffness by day 21 of culture and highlight that the matrix environment is essential to adequately capture PDAC disease. PDAC is a complex, aggressive disease with poor prognosis, and biophysically relevant in vitro PDAC models, which take into account tissue mechanics, will provide improved tumor models for effective therapeutic assessment.

Published
2022
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5. ETV5 links the FGFR3 and Hippo signalling pathways in bladder cancer

Author

Erica di Martino, Olivia Alder, Carolyn D. Hurst, and Margaret A. Knowles

Subjects
Medicine, Science
Abstract

Abstract Activating mutations of fibroblast growth factor receptor 3 (FGFR3) are common in urothelial carcinoma of the bladder (UC). Silencing or inhibition of mutant FGFR3 in bladder cancer cell lines is associated with decreased malignant potential, confirming its important driver role in UC. However, understanding of how FGFR3 activation drives urothelial malignant transformation remains limited. We have previously shown that mutant FGFR3 alters the cell-cell and cell-matrix adhesion properties of urothelial cells, resulting in loss of contact-inhibition of proliferation. In this study, we investigate a transcription factor of the ETS-family, ETV5, as a putative effector of FGFR3 signalling in bladder cancer. We show that FGFR3 signalling induces a MAPK/ERK-mediated increase in ETV5 levels, and that this results in increased level of TAZ, a co-transcriptional regulator downstream of the Hippo signalling pathway involved in cell-contact inhibition. We also demonstrate that ETV5 is a key downstream mediator of the oncogenic effects of mutant FGFR3, as its knockdown in FGFR3-mutant bladder cancer cell lines is associated with reduced proliferation and anchorage-independent growth. Overall this study advances our understanding of the molecular alterations occurring during urothelial malignant transformation and indicates TAZ as a possible therapeutic target in FGFR3-dependent bladder tumours.

Published
2019
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6. Patient-derived mutations within the N-terminal domains of p85α impact PTEN or Rab5 binding and regulation

Author

Paul Mellor, Jeremy D. S. Marshall, Xuan Ruan, Dielle E. Whitecross, Rebecca L. Ross, Margaret A. Knowles, Stanley A. Moore, and Deborah H. Anderson

Subjects
Medicine, Science
Abstract

Abstract The p85α protein regulates flux through the PI3K/PTEN signaling pathway, and also controls receptor trafficking via regulation of Rab-family GTPases. In this report, we determined the impact of several cancer patient-derived p85α mutations located within the N-terminal domains of p85α previously shown to bind PTEN and Rab5, and regulate their respective functions. One p85α mutation, L30F, significantly reduced the steady state binding to PTEN, yet enhanced the stimulation of PTEN lipid phosphatase activity. Three other p85α mutations (E137K, K288Q, E297K) also altered the regulation of PTEN catalytic activity. In contrast, many p85α mutations reduced the binding to Rab5 (L30F, I69L, I82F, I177N, E217K), and several impacted the GAP activity of p85α towards Rab5 (E137K, I177N, E217K, E297K). We determined the crystal structure of several of these p85α BH domain mutants (E137K, E217K, R262T E297K) for bovine p85α BH and found that the mutations did not alter the overall domain structure. Thus, several p85α mutations found in human cancers may deregulate PTEN and/or Rab5 regulated pathways to contribute to oncogenesis. We also engineered several experimental mutations within the p85α BH domain and identified L191 and V263 as important for both binding and regulation of Rab5 activity.

Published
2018
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7. TRPA1–FGFR2 binding event is a regulatory oncogenic driver modulated by miRNA-142-3p

Author

Jonathan Berrout, Eleni Kyriakopoulou, Lavanya Moparthi, Alexandra S. Hogea, Liza Berrout, Cristina Ivan, Mihaela Lorger, John Boyle, Chris Peers, Stephen Muench, Jacobo Elies Gomez, Xin Hu, Carolyn Hurst, Thomas Hall, Sujanitha Umamaheswaran, Laura Wesley, Mihai Gagea, Michael Shires, Iain Manfield, Margaret A. Knowles, Simon Davies, Klaus Suhling, Yurema Teijeiro Gonzalez, Neil Carragher, Kenneth Macleod, N. Joan Abbott, George A. Calin, Nikita Gamper, Peter M. Zygmunt, and Zahra Timsah

Subjects
Science
Abstract

TRPA1 has been reported to contribute lung cancer adenocarcinoma (LUAD), but the mechanisms are unclear. Here the authors propose that TRPA1/FGFR2 interaction is functional in LUAD and show that astrocytes oppose brain metastasis by mediating the downregulation of TRPA1 through exosome-delivered miRNA-142-3p.

Published
2017
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8. Polycomb Repressor Complex 1 Member, BMI1 Contributes to Urothelial Tumorigenesis through p16-Independent Mechanisms

Author

Lia E. De Faveri, Carolyn D. Hurst, Jo-An Roulson, Henry Wood, Marta Sanchez-Carbayo, Margaret A. Knowles, and Emma J. Chapman

Subjects
Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Urothelial carcinoma (UC) causes significant morbidity and remains the most expensive cancer to treat because of the need for repeated resections and lifelong monitoring for patients with non–muscle-invasive bladder cancer (NMIBC). Novel therapeutics and stratification approaches are needed to improve the outlook for both NMIBC and muscle-invasive bladder cancer. We investigated the expression and effects of B Lymphoma Mo-MLV Insertion Region 1 (BMI1) in UC. BMI1 was found to be overexpressed in most UC cell lines and primary tumors by quantitative real-time polymerase chain reaction and immunohistochemistry. In contrast to some previous reports, no association with tumor stage or grade was observed in two independent tumor panels. Furthermore, upregulation of BMI1 was detected in premalignant bladder lesions, suggesting a role early in tumorigenesis. BMI1 is not located within a common region of genomic amplification in UC. The CDKN2A locus (which encodes the p16 tumor suppressor gene) is a transcriptional target of BMI1 in some cellular contexts. In UC cell lines and primary tissues, no correlation between BMI1 and p16 expression was observed. Retroviral-mediated overexpression of BMI1 immortalized normal human urothelial cells (NHUC) in vitro and was associated with induction of telomerase activity, bypass of senescence, and repression of differentiation. The effects of BMI1 on gene expression were identified by expression microarray analysis of NHUC-BMI1. Metacore analysis of the gene expression profile implicated downstream effects of BMI1 on α4/β1 integrin-mediated adhesion, cytoskeleton remodeling, and CREB1-mediated transcription.

Published
2015
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9. Use of Aleuria alantia Lectin Affinity Chromatography to Enrich Candidate Biomarkers from the Urine of Patients with Bladder Cancer

Author

Sarah R. Ambrose, Naheema S. Gordon, James C. Goldsmith, Wenbin Wei, Maurice P. Zeegers, Nicholas D. James, Margaret A. Knowles, Richard T. Bryan, and Douglas G. Ward

Subjects
bladder cancer, urine, biomarker, lectin, glycoproteome, Microbiology, QR1-502
Abstract

Developing a urine test to detect bladder tumours with high sensitivity and specificity is a key goal in bladder cancer research. We hypothesised that bladder cancer-specific glycoproteins might fulfill this role. Lectin-ELISAs were used to study the binding of 25 lectins to 10 bladder cell lines and serum and urine from bladder cancer patients and non-cancer controls. Selected lectins were then used to enrich glycoproteins from the urine of bladder cancer patients and control subjects for analysis by shotgun proteomics. None of the lectins showed a strong preference for bladder cancer cell lines over normal urothlelial cell lines or for urinary glycans from bladder cancer patients over those from non-cancer controls. However, several lectins showed a strong preference for bladder cell line glycans over serum glycans and are potentially useful for enriching glycoproteins originating from the urothelium in urine. Aleuria alantia lectin affinity chromatography and shotgun proteomics identified mucin-1 and golgi apparatus protein 1 as proteins warranting further investigation as urinary biomarkers for low-grade bladder cancer. Glycosylation changes in bladder cancer are not reliably detected by measuring lectin binding to unfractionated proteomes, but it is possible that more specific reagents and/or a focus on individual proteins may produce clinically useful biomarkers.

Published
2015
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10. The Effect of Mutations on Drug Sensitivity and Kinase Activity of Fibroblast Growth Factor Receptors: A Combined Experimental and Theoretical Study

Author

Tom D. Bunney, Shunzhou Wan, Nethaji Thiyagarajan, Ludovico Sutto, Sarah V. Williams, Paul Ashford, Hans Koss, Margaret A. Knowles, Francesco L. Gervasio, Peter V. Coveney, and Matilda Katan

Subjects
Cancer, FGFR, Clinical inhibitors, Resistance mutations, Medicine, Medicine (General), R5-920
Abstract

Fibroblast growth factor receptors (FGFRs) are recognized therapeutic targets in cancer. We here describe insights underpinning the impact of mutations on FGFR1 and FGFR3 kinase activity and drug efficacy, using a combination of computational calculations and experimental approaches including cellular studies, X-ray crystallography and biophysical and biochemical measurements. Our findings reveal that some of the tested compounds, in particular TKI258, could provide therapeutic opportunity not only for patients with primary alterations in FGFR but also for acquired resistance due to the gatekeeper mutation. The accuracy of the computational methodologies applied here shows a potential for their wider application in studies of drug binding and in assessments of functional and mechanistic impacts of mutations, thus assisting efforts in precision medicine.

Published
2015
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11. A Decade of FGF Receptor Research in Bladder Cancer: Past, Present, and Future Challenges

Author

Erica di Martino, Darren C. Tomlinson, and Margaret A. Knowles

Subjects
Diseases of the genitourinary system. Urology, RC870-923
Abstract

Fibroblast growth factors (FGFs) orchestrate a variety of cellular functions by binding to their transmembrane tyrosine-kinase receptors (FGFRs) and activating downstream signalling pathways, including RAS/MAPK, PLCγ1, PI3K, and STATs. In the last ten years, it has become clear that FGF signalling is altered in a high proportion of bladder tumours. Activating mutations and/or overexpression of FGFR3 are common in urothelial tumours with low malignant potential and low-stage and -grade urothelial carcinomas (UCs) and are associated with a lower risk of progression and better survival in some subgroups. FGFR1 is not mutated in UC, but overexpression is frequent in all grades and stages and recent data indicate a role in urothelial epithelial-mesenchymal transition. In vitro and in vivo studies have shown that FGFR inhibition has cytotoxic and/or cytostatic effects in FGFR-dependent bladder cancer cells and FGFR-targeted agents are currently being investigated in clinical studies for the treatment of UC. Urine-based tests detecting common FGFR3 mutations are also under development for surveillance of low-grade and -stage tumours and for general population screening. Overall, FGFRs hold promise as therapeutic targets, diagnostic and prognostic markers, and screening tools for early detection and clinical management of UC.

Published
2012
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12. Development of resistance to <scp>FGFR</scp> inhibition in urothelial carcinoma via multiple pathways in vitro

Author

Geoffrey A Pettitt, Carolyn D Hurst, Zubeda Khan, Helen R McPherson, Matthew C Dunning, Olivia Alder, Fiona M Platt, Emma VI Black, Julie E Burns, and Margaret A Knowles

Subjects
Pathology and Forensic Medicine
Abstract

Alterations of fibroblast growth factor receptors (FGFRs) are common in bladder and other cancers and result in disrupted signalling via several pathways. Therapeutics that target FGFRs have now entered the clinic, but in common with many cancer therapies, resistance develops in most cases. To model this we derived resistant sublines of two FGFR-driven bladder cancer cell lines by long term culture with the FGFR inhibitor PD173074 and explored mechanisms using expression profiling and whole exome sequencing. We identified several resistance-associated molecular profiles. These included HRAS mutation in one case and reversible mechanisms resembling a drug-tolerant persister phenotype in others. Upregulated IGF1R expression in one resistant derivative was associated with sensitivity to linsitinib and a profile with upregulation of a YAP/TAZ signature to sensitivity to the YAP inhibitor CA3 in another. However, upregulation of other potential therapeutic targets was not indicative of sensitivity. Overall, the heterogeneity in resistance mechanisms and commonality of the persister state present a considerable challenge for personalised therapy. Nevertheless, the reversibility of resistance may indicate a benefit from treatment interruptions or re-treatment following disease relapse in some patients. This article is protected by copyright. All rights reserved.

Published
2022
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13. The Lund Molecular Taxonomy Applied to Non–Muscle-Invasive Urothelial Carcinoma

Author

Nour-Al-Dain Marzouka, Pontus Eriksson, Carina Bernardo, Carolyn D. Hurst, Margaret A. Knowles, Gottfrid Sjödahl, Fredrik Liedberg, and Mattias Höglund

Subjects
Carcinoma, Transitional Cell, Urinary Bladder Neoplasms, Biomarkers, Tumor, Humans, Molecular Medicine, Urothelium, Immunohistochemistry, Pathology and Forensic Medicine
Abstract

The precise classification of tumors into relevant molecular subtypes will facilitate both future research and optimal treatment. Here, the Lund Taxonomy system for molecular classification of urothelial carcinoma was applied to two large and independent cohorts of non-muscle-invasive tumors. Of 752 tumors classified, close to 100% were of the luminal subtypes, 95% urothelial-like (Uro; UroA, UroB, or UroC) and 5% genomically unstable. The obtained subtype structure organized the tumors into groups with specific and coherent gene mutation, genomic, and clinical profiles. The intrasubtype variability in the largest group of tumors, UroA, was caused by infiltration and proliferation, not considered as cancer cell type-defining properties. Within the UroA subtype, a HOXB/late cell-cycle gene expression polarity was found, strongly associated with FGFR3, STAG2, and TP53 mutations, as well as with chromosome 9 losses. Kaplan-Meier analyses identified the genomically unstable subtype as a progression high-risk group, also valid in the subgroup of T1 tumors. Almost all progression events occurred within 12 months in this subtype. Also, a general progression gene signature was derived that identifies high- and low-risk tumors. All findings were demonstrated in two independent cohorts. The Lund Taxonomy system is applicable to both non-muscle- and muscle-invasive tumors and may be a useful biological framework for translational studies.

Published
2022
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21. Supplementary Table 1 from FGFR3 Translocations in Bladder Cancer: Differential Sensitivity to HSP90 Inhibition Based on Drug Metabolism

Author

David A. Proia, Richard C. Bates, Margaret A. Knowles, Noriaki Tatsuta, Takayo Inoue, Luisa Shin Ogawa, Donald L. Smith, Manuel Sequeira, Jim Sang, Masazumi Nagai, John-Paul Jimenez, Chaohua Zhang, Suqin He, and Jaime Acquaviva

Abstract

PDF - 67K, FGFR3 fusion-positive bladder cell line sensitivity and metabolism profiles of targeted anticancer compounds.

Published
2023
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25. Supplementary Figure 1 from FGFR3 Translocations in Bladder Cancer: Differential Sensitivity to HSP90 Inhibition Based on Drug Metabolism

Author

David A. Proia, Richard C. Bates, Margaret A. Knowles, Noriaki Tatsuta, Takayo Inoue, Luisa Shin Ogawa, Donald L. Smith, Manuel Sequeira, Jim Sang, Masazumi Nagai, John-Paul Jimenez, Chaohua Zhang, Suqin He, and Jaime Acquaviva

Abstract

PDF - 667K, Ganetespib treatment overcomes the FGFR inhibitor resistant phenotype in FGFR3 mutant bladder cancer cell lines.

Published
2023
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26. Data from FGFR3 Translocations in Bladder Cancer: Differential Sensitivity to HSP90 Inhibition Based on Drug Metabolism

Author

David A. Proia, Richard C. Bates, Margaret A. Knowles, Noriaki Tatsuta, Takayo Inoue, Luisa Shin Ogawa, Donald L. Smith, Manuel Sequeira, Jim Sang, Masazumi Nagai, John-Paul Jimenez, Chaohua Zhang, Suqin He, and Jaime Acquaviva

Abstract

Activating mutations and/or overexpression of FGFR3 are common in bladder cancer, making FGFR3 an attractive therapeutic target in this disease. In addition, FGFR3 gene rearrangements have recently been described that define a unique subset of bladder tumors. Here, a selective HSP90 inhibitor, ganetespib, induced loss of FGFR3-TACC3 fusion protein expression and depletion of multiple oncogenic signaling proteins in RT112 bladder cells, resulting in potent cytotoxicity comparable with the pan-FGFR tyrosine kinase inhibitor BGJ398. However, in contrast to BGJ398, ganetespib exerted pleiotropic effects on additional mitogenic and survival pathways and could overcome the FGFR inhibitor–resistant phenotype of FGFR3 mutant–expressing 97-7 and MHG-U3 cells. Combinatorial benefit was observed when ganetespib was used with BGJ398 both in vitro and in vivo. Interestingly, two additional FGFR3 fusion-positive lines (RT4 and SW480) retained sensitivity to HSP90 inhibitor treatment by the ansamycins 17-AAG and 17-DMAG yet displayed intrinsic resistance to ganetespib or AUY922, both second-generation resorcinol-based compounds. Both cell lines, compared with RT112, expressed considerably higher levels of endogenous UGT1A enzyme; this phenotype resulted in a rapid glucuronidation-dependent metabolism and subsequent efflux of ganetespib from SW780 cells, thus providing a mechanism to account for the lack of bioactivity.Implications: Pharmacologic blockade of the molecular chaperone HSP90 represents a promising approach for treating bladder tumors driven by oncogenic gene rearrangements of FGFR3. Furthermore, UDP-glucuronosyltransferase enzyme expression may serve as a predictive factor for clinical response to resorcinol-based HSP90 inhibitors. Mol Cancer Res; 12(7); 1042–54. ©2014 AACR.

Published
2023
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30. Molecular profile of pure squamous cell carcinoma of the bladder identifies major roles for <scp>OSMR</scp> and <scp>YAP</scp> signalling

Author

Carolyn D Hurst, Guo Cheng, Fiona M Platt, Olivia Alder, Emma VI Black, Julie E Burns, Joanne Brown, Sunjay Jain, Jo‐An Roulson, and Margaret A Knowles

Subjects
Carcinoma, Transitional Cell, Oncostatin M Receptor beta Subunit, Urinary Bladder Neoplasms, Urinary Bladder, Carcinoma, Squamous Cell, Humans, Receptors, Oncostatin M, Pathology and Forensic Medicine
Abstract

Pure squamous cell carcinoma (SCC) is the most common pure variant form of bladder cancer, found in 2-5% of cases. It often presents late and is unresponsive to cisplatin-based chemotherapy. The molecular features of these tumours have not been elucidated in detail. We carried out whole-exome sequencing (WES), copy number, and transcriptome analysis of bladder SCC. Muscle-invasive bladder cancer (MIBC) samples with no evidence of squamous differentiation (non-SD) were used for comparison. To assess commonality of features with urothelial carcinoma with SD, we examined data from SD samples in The Cancer Genome Atlas (TCGA) study of MIBC. TP53 was the most commonly mutated gene in SCC (64%) followed by FAT1 (45%). Copy number analysis revealed complex changes in SCC, many differing from those in samples with SD. Gain of 5p and 7p was the most common feature, and focal regions on 5p included OSMR and RICTOR. In addition to 9p deletions, we found some samples with focal gain of 9p24 containing CD274 (PD-L1). Loss of 4q35 containing FAT1 was found in many samples such that all but one sample analysed by WES had FAT1 mutation or deletion. Expression features included upregulation of oncostatin M receptor (OSMR), metalloproteinases, metallothioneins, keratinisation genes, extracellular matrix components, inflammatory response genes, stem cell markers, and immune response modulators. Exploration of differentially expressed transcription factors identified BNC1 and TFAP2A, a gene repressed by PPARG, as the most upregulated factors. Known urothelial differentiation factors were downregulated along with 72 Kruppel-associated (KRAB) domain-containing zinc finger family protein (KZFP) genes. Novel therapies are urgently needed for these tumours. In addition to upregulated expression of EGFR, which has been suggested as a therapeutic target in basal/squamous bladder cancer, we identified expression signatures that indicate upregulated OSMR and YAP/TAZ signalling. Preclinical evaluation of the effects of inhibition of these pathways alone or in combination is merited.

Published
2022
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32. Supplementary Data from Analysis of VHL Gene Alterations and their Relationship to Clinical Parameters in Sporadic Conventional Renal Cell Carcinoma

Author

Rosamonde E. Banks, Peter J. Selby, Adrian Joyce, Margaret A. Knowles, Eamonn R. Maher, Walter Gregory, Dewi Astuti, David A. Cairns, Patricia Harnden, Christopher Booth, Claire Taylor, Dena Cohen, Rachel A. Craven, and Alison C. Young

Abstract

Supplementary Data from Analysis of VHL Gene Alterations and their Relationship to Clinical Parameters in Sporadic Conventional Renal Cell Carcinoma

Published
2023
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34. Data from Patterns of Expression of DNA Repair Genes and Relapse From Melanoma

Author

Julia Newton-Bishop, D. Timothy Bishop, Margaret A. Knowles, Jennifer H. Barrett, Ian A. Cree, Katharine A. Parker, Floor de Kort, Andy Boon, Barry Powell, Martin Cook, Sara Edward, Maria Marples, Mark Harland, Jérémie Nsengimana, Samira Lobo, Juliette Randerson-Moor, Angana Mitra, Caroline Conway, and Rosalyn Jewell

Abstract

Purpose: To use gene expression profiling of formalin-fixed primary melanoma samples to detect expression patterns that are predictive of relapse and response to chemotherapy.Experimental Design: Gene expression profiles were identified in samples from two studies (472 tumors). Gene expression data for 502 cancer-related genes from these studies were combined for analysis.Results: Increased expression of DNA repair genes most strongly predicted relapse and was associated with thicker tumors. Increased expression of RAD51 was the most predictive of relapse-free survival in unadjusted analysis (hazard ratio, 2.98; P = 8.80 × 10−6). RAD52 (hazard ratio, 4.73; P = 0.0004) and TOP2A (hazard ratio, 3.06; P = 0.009) were independent predictors of relapse-free survival in multivariable analysis. These associations persisted when the analysis was further adjusted for demographic and histologic features of prognostic importance (RAD52 P = 0.01; TOP2A P = 0.02). Using principal component analysis, expression of DNA repair genes was summarized into one variable. Genes whose expression correlated with this variable were predominantly associated with the cell cycle and DNA repair. In 42 patients treated with chemotherapy, DNA repair gene expression was greater in tumors from patients who progressed on treatment. Further data supportive of a role for increased expression of DNA repair genes as predictive biomarkers are reported, which were generated using multiplex PCR.Conclusions: Overexpression of DNA repair genes (predominantly those involved in double-strand break repair) was associated with relapse. These data support the hypothesis that melanoma progression requires maintenance of genetic stability and give insight into mechanisms of melanoma drug resistance and potential therapies. Clin Cancer Res; 16(21); 5211–21. ©2010 AACR.

Published
2023
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36. Data from Spectrum of Phosphatidylinositol 3-Kinase Pathway Gene Alterations in Bladder Cancer

Author

Margaret A. Knowles, Patricia Harnden, Walter M. Gregory, Claire F. Taylor, Carolyn D. Hurst, and Fiona M. Platt

Abstract

Purpose: The phosphatidylinositol 3-kinase (PI3K) pathway can be activated by alterations affecting several pathway components. For rational application of targeted therapies, detailed understanding of tumor biology and approaches to predict efficacy in individual tumors are required. Our aim was to assess the frequency and distribution of pathway alterations in bladder cancer.Experimental Design: We examined the pathway components (PIK3CA, PTEN, TSC1, RHEB, and LKB1) and putative upstream regulators (FGFR3 and RAS genes) for mutation, allelic loss, copy number alteration, and expression in bladder tumors and cell lines.Results: No mutations were found in RHEB and only a single mutation in LKB1. PIK3CA mutations were detected in 25% of tumors and 26% of cell lines with a significant excess of helical domain mutations (E542K and E545K). There was over-representation but not amplification of the gene. Loss of heterozygosity of the PTEN region and homozygous deletion were found in 12% and 1.4% of tumors, and reduced expression in 49%. Forty-six percent of cell lines showed alterations that implicated PTEN. Sixteen percent of tumors and 11% of cell lines showed TSC1 mutation, and 9q loss of heterozygosity was common (57%). Pathway alterations were independently distributed, suggesting that the mutation of two pathway members may have additive or synergistic effects through noncanonical functions.Conclusions: PI3K pathway alterations are common in bladder cancer. The lack of redundancy of alterations suggests that single-agent PI3K-targeted therapy may not be successful in these cancers. This study provides a well-characterized series of cell lines for use in preclinical studies of targeted agents. (Clin Cancer Res 2009;15(19):6008–17)

Published
2023
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38. Supplementary Data from Patterns of Expression of DNA Repair Genes and Relapse From Melanoma

Author

Julia Newton-Bishop, D. Timothy Bishop, Margaret A. Knowles, Jennifer H. Barrett, Ian A. Cree, Katharine A. Parker, Floor de Kort, Andy Boon, Barry Powell, Martin Cook, Sara Edward, Maria Marples, Mark Harland, Jérémie Nsengimana, Samira Lobo, Juliette Randerson-Moor, Angana Mitra, Caroline Conway, and Rosalyn Jewell

Abstract

Supplementary Figure S1, Supplementary Methods, and Supplementary Tables S1-S2.

Published
2023
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39. Data from Novel Tumor Subgroups of Urothelial Carcinoma of the Bladder Defined by Integrated Genomic Analysis

Author

Margaret A. Knowles, Claire F. Taylor, Fiona M. Platt, and Carolyn D. Hurst

Abstract

Purpose: There is a need for improved subclassification of urothelial carcinoma (UC) at diagnosis. A major aim of this study was to search for novel genomic subgroups.Experimental design: We assessed 160 tumors for genome-wide copy number alterations and mutation in genes implicated in UC. These comprised all tumor grades and stages and included 49 high-grade stage T1 (T1G3) tumors.Results: Our findings point to the existence of genomic subclasses of the “gold-standard” grade/stage groups. The T1G3 tumors separated into 3 major subgroups that differed with respect to the type and number of copy number events and to FGFR3 and TP53 mutation status. We also identified novel regions of copy number alteration, uncovered relationships between molecular events, and elucidated relationships between molecular events and clinico-pathologic features. FGFR3 mutant tumors were more chromosomally stable than their wild-type counterparts and a mutually exclusive relationship between FGFR3 mutation and overrepresentation of 8q was observed in non-muscle-invasive tumors. In muscle-invasive (MI) tumors, metastasis was positively associated with losses of regions on 10q (including PTEN), 16q and 22q, and gains on 10p, 11q, 12p, 19p, and 19q. Concomitant copy number alterations positively associated with TP53 mutation in MI tumors were losses on 16p, 2q, 4q, 11p, 10q, 13q, 14q, 16q, and 19p, and gains on 1p, 8q, 10q, and 12q. Significant complexity was revealed in events affecting chromosome 9.Conclusions: These findings may lead to improved biologic understanding and the development of prognostic biomarkers. Novel regions of copy number alteration may reveal potential therapeutic targets. Clin Cancer Res; 18(21); 5865–77. ©2012 AACR.

Published
2023
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42. Data from Gene Expression Profiling of Paraffin-Embedded Primary Melanoma Using the DASL Assay Identifies Increased Osteopontin Expression as Predictive of Reduced Relapse-Free Survival

Author

Julia Newton-Bishop, D. Timothy Bishop, Margaret A. Knowles, Floor de Kort, Faye Elliott, Andy Boon, Barry Powell, Martin Cook, D. Scott Sanders, Sara Edward, Jrmie Nsengimana, Samira Lobo, Juliette Randerson-Moor, Rosalyn Jewell, Angana Mitra, and Caroline Conway

Abstract

Purpose: Gene expression studies in melanoma have been few because tumors are small and cryopreservation is rarely possible. The purpose of this study was to evaluate the Illumina DASL Array Human Cancer Panel for gene expression studies in formalin-fixed melanoma primary tumors and to identify prognostic biomarkers.Experimental Design: Primary tumors from two studies were sampled using a tissue microarray needle. Study 1: 254 tumors from a melanoma cohort recruited from 2000 to 2006. Study 2: 218 tumors from a case-control study of patients undergoing sentinel node biopsy.Results: RNA was obtained from 76 of blocks; 1.4 of samples failed analysis (transcripts from SPP1; P = 2.11 106) and supportive evidence for this was obtained in study 2 used as a validation set (P = 0.006; unadjusted data). Osteopontin level in study 1 remained a significant predictor of relapse-free survival when data were adjusted for age, sex, tumor site, and histologic predictors of relapse. Genes whose expression correlated most strongly with osteopontin were PBX1, BIRC5 (survivin), and HLF.Conclusion: Expression data were obtained from 74 of primary melanomas and provided confirmatory evidence that osteopontin expression is a prognostic biomarker. These results suggest that predictive biomarker studies may be possible using stored blocks from mature clinical trials. (Clin Cancer Res 2009;15(22):693946)

Published
2023
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43. Supplementary Data from Gene Expression Profiling of Paraffin-Embedded Primary Melanoma Using the DASL Assay Identifies Increased Osteopontin Expression as Predictive of Reduced Relapse-Free Survival

Author

Julia Newton-Bishop, D. Timothy Bishop, Margaret A. Knowles, Floor de Kort, Faye Elliott, Andy Boon, Barry Powell, Martin Cook, D. Scott Sanders, Sara Edward, Jrmie Nsengimana, Samira Lobo, Juliette Randerson-Moor, Rosalyn Jewell, Angana Mitra, and Caroline Conway

Abstract

Supplementary Data from Gene Expression Profiling of Paraffin-Embedded Primary Melanoma Using the DASL Assay Identifies Increased Osteopontin Expression as Predictive of Reduced Relapse-Free Survival

Published
2023
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46. Data from Analysis of VHL Gene Alterations and their Relationship to Clinical Parameters in Sporadic Conventional Renal Cell Carcinoma

Author

Rosamonde E. Banks, Peter J. Selby, Adrian Joyce, Margaret A. Knowles, Eamonn R. Maher, Walter Gregory, Dewi Astuti, David A. Cairns, Patricia Harnden, Christopher Booth, Claire Taylor, Dena Cohen, Rachel A. Craven, and Alison C. Young

Abstract

Purpose: This study aimed to carry out a comprehensive analysis of genetic and epigenetic changes of the von Hippel Lindau (VHL) gene in patients with conventional (clear cell) renal cell carcinoma and to determine their significance relative to clinicopathologic characteristics and outcome.Experimental Design: The VHL status in 86 conventional renal cell carcinomas was determined by mutation detection, loss of heterozygosity (LOH), and promoter methylation analysis, extending our original cohort to a total of 177 patients. Data were analyzed to investigate potential relationships between VHL changes, clinical parameters, and outcome.Results: LOH was found in 89.2%, mutation in 74.6%, and methylation in 31.3% of evaluable tumors; evidence of biallelic inactivation (LOH and mutation or methylation alone) was found in 86.0% whereas no involvement of VHL was found in only 3.4% of samples. Several associations were suggested, including those between LOH and grade, nodal status and necrosis, mutation and sex, and methylation and grade. Biallelic inactivation may be associated with better overall survival compared with patients with no VHL involvement, although small sample numbers in the latter group severely limit this analysis, which requires independent confirmation.Conclusions: This study reports one of the highest proportions of conventional renal cell carcinoma with VHL changes, and suggests possible relationships between VHL status and clinical variables. The data suggest that VHL defects may define conventional renal cell carcinomas but the clinical significance of specific VHL alterations will only be clarified by the determination of their biological effect at the protein level rather than through genetic or epigenetic analysis alone. (Clin Cancer Res 2009;15(24):7582–92)

Published
2023
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49. Data from Distinct MicroRNA Alterations Characterize High- and Low-Grade Bladder Cancer

Author

Freddie C. Hamdy, Adrian L. Harris, Mark Meuth, Margaret A. Knowles, Erica Di Martino, Derek J. Rosario, Ishtiaq Rehman, Marta Milo, Stéphane Larré, Ewa Dudziec, Katie Myers, Helen Bryant, Helen C. Owen, Saiful Miah, and James W.F. Catto

Abstract

Urothelial carcinoma of the bladder (UCC) is a common disease that arises by at least two different molecular pathways. The biology of UCC is incompletely understood, making the management of this disease difficult. Recent evidence implicates a regulatory role for microRNA in cancer. We hypothesized that altered microRNA expression contributes to UCC carcinogenesis. To test this hypothesis, we examined the expression of 322 microRNAs and their processing machinery in 78 normal and malignant urothelial samples using real-time rtPCR. Genes targeted by differentially expressed microRNA were investigated using real-time quantification and microRNA knockdown. We also examined the role of aberrant DNA hypermethylation in microRNA downregulation. We found that altered microRNA expression is common in UCC and occurs early in tumorogenesis. In normal urothelium from patients with UCC, 11% of microRNAs had altered expression when compared with disease-free controls. This was associated with upregulation of Dicer, Drosha, and Exportin 5. In UCC, microRNA alterations occur in a tumor phenotype–specific manner and can predict disease progression. High-grade UCC were characterized by microRNA upregulation, including microRNA-21 that suppresses p53 function. In low-grade UCC, there was downregulation of many microRNA molecules. In particular, loss of microRNAs-99a/100 leads to upregulation of FGFR3 before its mutation. Promoter hypermethylation is partly responsible for microRNA downregulation. In conclusion, distinct microRNA alterations characterize UCC and target genes in a pathway-specific manner. These data reveal new insights into the disease biology and have implications regarding tumor diagnosis, prognosis and therapy. [Cancer Res 2009;69(21):8472–81]

Published
2023
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50. Supplementary Table 1, Figures 1 - 2 from Imatinib Radiosensitizes Bladder Cancer by Targeting Homologous Recombination

Author

Anne E. Kiltie, Roger M. Phillips, Robert G. Bristow, Margaret A. Knowles, Mark T.W. Teo, Blaz Groselj, Martin Kerr, and Boling Qiao

Abstract

PDF file - 287K, Supplementary Table 1. Target regions for Ku80 and RAD51 siRNA. Supplementary Figure 1. Western blots of Ku80 and RAD51 in RT112 stable shRNA clones. Supplementary Figure 2. Full length western blots.

Published
2023
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