Your search keyword '"Elizabeth D. Williams"' showing total 204 results

1. Introduction of Androgen Receptor Targeting shRNA Inhibits Tumor Growth in Patient-Derived Prostate Cancer Xenografts

Author

Patrick B. Thomas, Saeid Alinezhad, Andre Joshi, Katrina Sweeney, Brian W. C. Tse, Gregor Tevz, Stephen McPherson, Colleen C. Nelson, Elizabeth D. Williams, and Ian Vela

Subjects

prostate cancer, organoids, precision medicine, patient-derived xenograft, androgen receptor, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Patient-derived xenograft (PDX) models have been established as important preclinical cancer models, overcoming some of the limitations associated with the use of cancer cell lines. The utility of prostate cancer PDX models has been limited by an inability to genetically manipulate them in vivo and difficulties sustaining PDX-derived cancer cells in culture. Viable, short-term propagation of PDX models would allow in vitro transfection with traceable reporters or manipulation of gene expression relevant to different studies within the prostate cancer field. Here, we report an organoid culture system that supports the growth of prostate cancer PDX cells in vitro and permits genetic manipulation, substantially increasing the scope to use PDXs to study the pathobiology of prostate cancer and define potential therapeutic targets. We have established a short-term PDX-derived in vitro cell culture system which enables genetic manipulation of prostate cancer PDXs LuCaP35 and BM18. Genetically manipulated cells could be re-established as viable xenografts when re-implanted subcutaneously in immunocompromised mice and were able to be serially passaged. Tumor growth of the androgen-dependent LuCaP35 PDX was significantly inhibited following depletion of the androgen receptor (AR) in vivo. Taken together, this system provides a method to generate novel preclinical models to assess the impact of controlled genetic perturbations and allows for targeting specific genes of interest in the complex biological setting of solid tumors.

Published

2023

2. Performance of tumour microenvironment deconvolution methods in breast cancer using single-cell simulated bulk mixtures

Author

Khoa A. Tran, Venkateswar Addala, Rebecca L. Johnston, David Lovell, Andrew Bradley, Lambros T. Koufariotis, Scott Wood, Sunny Z. Wu, Daniel Roden, Ghamdan Al-Eryani, Alexander Swarbrick, Elizabeth D. Williams, John V. Pearson, Olga Kondrashova, and Nicola Waddell

Subjects

Science

Abstract

Abstract Cells within the tumour microenvironment (TME) can impact tumour development and influence treatment response. Computational approaches have been developed to deconvolve the TME from bulk RNA-seq. Using scRNA-seq profiling from breast tumours we simulate thousands of bulk mixtures, representing tumour purities and cell lineages, to compare the performance of nine TME deconvolution methods (BayesPrism, Scaden, CIBERSORTx, MuSiC, DWLS, hspe, CPM, Bisque, and EPIC). Some methods are more robust in deconvolving mixtures with high tumour purity levels. Most methods tend to mis-predict normal epithelial for cancer epithelial as tumour purity increases, a finding that is validated in two independent datasets. The breast cancer molecular subtype influences this mis-prediction. BayesPrism and DWLS have the lowest combined numbers of false positives and false negatives, and have the best performance when deconvolving granular immune lineages. Our findings highlight the need for more single-cell characterisation of rarer cell types, and suggest that tumour cell compositions should be considered when deconvolving the TME.

Published

2023

3. Direct bone marrow injection of human bone marrow-derived stromal cells into mouse femurs results in greater prostate cancer PC-3 cell proliferation, but not specifically proliferation within the injected femurs

Author

Bianca Nowlan, Elizabeth D. Williams, and Michael Robert Doran

Subjects

Prostate cancer, Bone marrow, Bone marrow mesenchymal stem cell, Bone marrow stromal cell, Mouse models, Humanization, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background While prostate cancer (PCa) cells most often metastasize to bone in men, species-specific differences between human and mouse bone marrow mean that this pattern is not faithfully replicated in mice. Herein we evaluated the impact of partially humanizing mouse bone marrow with human bone marrow-derived stromal cells (BMSC, also known as "mesenchymal stem cells") on human PCa cell behaviour. Methods BMSC are key cellular constituents of marrow. We used intrafemoral injection to transplant 5 × 105 luciferase (Luc) and green fluorescence protein (GFP) expressing human BMSC (hBMSC-Luc/GFP) into the right femur of non-obese diabetic (NOD)-severe combined immunodeficiency (scid) interleukin (IL)-2γ−/− (NSG) mice. Two weeks later, 2.5 × 106 PC-3 prostate cancer cells expressing DsRed (PC-3-DsRed) were delivered into the mice via intracardiac injection. PC-3-DsRed cells were tracked over time using an In Vivo Imaging System (IVIS) live animal imaging system, X-ray and IVIS imaging performed on harvested organs, and PC-3 cell numbers in femurs quantified using flow cytometry and histology. Results Flow cytometry analysis revealed greater PC-3-DsRed cell numbers within femurs of the mice that received hBMSC-Luc/GFP. However, while there were overall greater PC-3-DsRed cell numbers in these animals, there were not more PC-3-DsRed in the femurs injected with hBMSC-Luc/GFP than in contralateral femurs. A similar proportion of mice in with or without hBMSC-Luc/GFP had bone lessions, but the absolute number of bone lesions was greater in mice that had received hBMSC-Luc/GFP. Conclusion PC-3-DsRed cells preferentially populated bones in mice that had received hBMSC-Luc/GFP, although PC-3-DsRed cells not specifically localize in the bone marrow cavity where hBMSC-Luc/GFP had been transplanted. hBMSC-Luc/GFP appear to modify mouse biology in a manner that supports PC-3-DsRed tumor development, rather than specifically influencing PC-3-DsRed cell homing. This study provides useful insights into the role of humanizing murine bone marrow with hBMSC to study human PCa cell biology.

Published

2022

4. Deep learning in cancer diagnosis, prognosis and treatment selection

Author

Khoa A. Tran, Olga Kondrashova, Andrew Bradley, Elizabeth D. Williams, John V. Pearson, and Nicola Waddell

Subjects

Artificial intelligence, Deep learning, Multi-modal learning, Explainability, Cancer genomics, Precision oncology, Medicine, Genetics, QH426-470

Abstract

Abstract Deep learning is a subdiscipline of artificial intelligence that uses a machine learning technique called artificial neural networks to extract patterns and make predictions from large data sets. The increasing adoption of deep learning across healthcare domains together with the availability of highly characterised cancer datasets has accelerated research into the utility of deep learning in the analysis of the complex biology of cancer. While early results are promising, this is a rapidly evolving field with new knowledge emerging in both cancer biology and deep learning. In this review, we provide an overview of emerging deep learning techniques and how they are being applied to oncology. We focus on the deep learning applications for omics data types, including genomic, methylation and transcriptomic data, as well as histopathology-based genomic inference, and provide perspectives on how the different data types can be integrated to develop decision support tools. We provide specific examples of how deep learning may be applied in cancer diagnosis, prognosis and treatment management. We also assess the current limitations and challenges for the application of deep learning in precision oncology, including the lack of phenotypically rich data and the need for more explainable deep learning models. Finally, we conclude with a discussion of how current obstacles can be overcome to enable future clinical utilisation of deep learning.

Published

2021

5. A humanized orthotopic tumor microenvironment alters the bone metastatic tropism of prostate cancer cells

Author

Jacqui A. McGovern, Nathalie Bock, Abbas Shafiee, Laure C. Martine, Ferdinand Wagner, Jeremy G. Baldwin, Marietta Landgraf, Christoph A. Lahr, Christoph Meinert, Elizabeth D. Williams, Pamela M. Pollock, Jim Denham, Pamela J. Russell, Gail P. Risbridger, Judith A. Clements, Daniela Loessner, Boris M. Holzapfel, and Dietmar W. Hutmacher

Subjects

Biology (General), QH301-705.5

Abstract

McGovern et al. establish an orthotopic, humanized prostate cancer model to study bone metastasis. The authors demonstrate that a humanized tumor microenvironment (TME) influences the metastatic spread of cancer cells to tissue-engineered bone, highlighting the importance of the TME in prostate cancer metastasis to bone.

Published

2021

6. Using the Microwell-mesh to culture microtissues in vitro and as a carrier to implant microtissues in vivo into mice

Author

Melissa E. Monterosso, Kathryn Futrega, William B. Lott, Ian Vela, Elizabeth D. Williams, and Michael R. Doran

Subjects

Medicine, Science

Abstract

Abstract Prostate cancer (PCa) patient-derived xenografts (PDXs) are commonly propagated by serial transplantation of “pieces” of tumour in mice, but the cellular composition of pieces is not standardised. Herein, we optimised a microwell platform, the Microwell-mesh, to aggregate precise numbers of cells into arrays of microtissues, and then implanted the Microwell-mesh into NOD-scid IL2γ−/− (NSG) mice to study microtissue growth. First, mesh pore size was optimised using microtissues assembled from bone marrow-derived stromal cells, with mesh opening dimensions of 100×100 μm achieving superior microtissue vascularisation relative to mesh with 36×36 μm mesh openings. The optimised Microwell-mesh was used to assemble and implant PCa cell microtissue arrays (hereafter microtissues formed from cancer cells are referred to as microtumours) into mice. PCa cells were enriched from three different PDX lines, LuCaP35, LuCaP141, and BM18. 3D microtumours showed greater in vitro viability than 2D cultures, but neither proliferated. Microtumours were successfully established in mice 81% (57 of 70), 67% (4 of 6), 76% (19 of 25) for LuCaP35, LuCaP141, and BM18 PCa cells, respectively. Microtumour growth was tracked using live animal imaging for size or bioluminescence signal. If augmented with further imaging advances and cell bar coding, this microtumour model could enable greater resolution of PCa PDX drug response, and lead to the more efficient use of animals. The concept of microtissue assembly in the Microwell-mesh, and implantation in vivo may also have utility in implantation of islets, hair follicles or other organ-specific cells that self-assemble into 3D structures, providing an important bridge between in vitro assembly of mini-organs and in vivo implantation.

Published

2021

7. Circulating Tumour Cells Indicate the Presence of Residual Disease Post-Castration in Prostate Cancer Patient-Derived Xenograft Models

Author

Sara Hassan, Tony Blick, Jack Wood, Erik W. Thompson, and Elizabeth D. Williams

Subjects

kallikrein related peptidase 3, metastasis, circulating tumour cell, castrate-resistant prostate cancer, epithelial mesenchymal plasticity, prostate specific antigen, Biology (General), QH301-705.5

Abstract

Castrate-resistant prostate cancer (CRPC) is the lethal form of prostate cancer. Epithelial mesenchymal plasticity (EMP) has been associated with disease progression to CRPC, and prostate cancer therapies targeting the androgen signalling axis, including androgen deprivation therapy (ADT), promote EMP. We explored effects of castration on EMP in the tumours and circulating tumour cells (CTCs) of patient-derived xenograft (PDX)-bearing castrated mice using human-specific RT-qPCR assays and immunocytochemistry. Expression of prostate epithelial cell marker KLK3 was below detection in most tumours from castrated mice (62%, 23/37 mice), consistent with its known up-regulation by androgens. Endpoint tumour size after castration varied significantly in a PDX model-specific pattern; while most tumours were castration-sensitive (BM18, LuCaP70), the majority of LuCaP105 tumours continued to grow following castration. By contrast, LuCaP96 PDX showed a mixed response to castration. CTCs were detected in 33% of LuCaP105, 43% of BM18, 47% of LuCaP70, and 54% of LuCaP96 castrated mice using RPL32 mRNA measurement in plasma. When present, CTC numbers estimated using human RPL32 expression ranged from 1 to 458 CTCs per ml blood, similar to our previous observations in non-castrated mice. In contrast to their non-castrated counterparts, there was no relationship between tumour size and CTC burden in castrated mice. Unsupervised hierarchical clustering of the gene expression profiles of CTCs collected from castrated and non-castrated mice revealed distinct CTC sub-groups within the pooled population that were classified as having mesenchymal, epithelial, or EMP hybrid gene expression profiles. The epithelial signature was only found in CTCs from non-castrated mice. Hybrid and mesenchymal signatures were detected in CTCs from both castrated and non-castrated mice, with an emphasis towards mesenchymal phenotypes in castrated mice. Post-castration serum PSA levels were either below detection or very low for all the CTC positive samples highlighting the potential usefulness of CTCs for disease monitoring after androgen ablation therapy. In summary, our study of castration effects on prostate cancer PDX CTCs showed that CTCs were often detected in the castrate setting, even in mice with no palpable tumours, and demonstrated the superior ability of CTCs to reveal residual disease over the conventional clinical biomarker serum PSA.

Published

2022

8. Integrin alpha-2 and beta-1 expression increases through multiple generations of the EDW01 patient-derived xenograft model of breast cancer—insight into their role in epithelial mesenchymal transition in vivo gained from an in vitro model system

Author

Razan Wafai, Elizabeth D. Williams, Emma de Souza, Peter T. Simpson, Amy E. McCart Reed, Jamie R. Kutasovic, Mark Waltham, Cameron E. Snell, Tony Blick, Erik W. Thompson, and Honor J. Hugo

Subjects

Integrin, Hypoxia, Twist1, EMT, Breast cancer, Patient-derived xenograft (PDX), Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Breast cancers acquire aggressive capabilities via epithelial to mesenchymal transition (EMT), in which various integrins/integrin-linked kinase signalling are upregulated. Methods We investigated this in two patient-derived xenografts (PDXs) developed from breast-to-bone metastases, and its functional significance in a breast cancer cell line system. ED03 and EDW01 PDXs were grown subcutaneously in immunocompromised SCID mice through 11 passages and 7 passages, respectively. Tumour tissue was assessed using immunohistochemistry (IHC) for oestrogen receptor (ER)-alpha, E-cadherin, vimentin, Twist1, beta-catenin, P120-RasGAP, CD44, CD24 and Ki67, and RT-qPCR of EMT-related factors (CDH1, VIM, CD44, CD24), integrins beta 1 (ITGB1), alpha 2 (ITGA2) and ILK. Integrin and ILK expression in epidermal growth factor (EGF)-induced EMT of the PMC42-ET breast cancer cell line was assessed by RT-qPCR and Western blotting, as were the effects of their transient knockdown via small interfering RNA +/− EGF. Cell migration, changes in cell morphology and adhesion of siRNA-transfected PMC42-ET cells to various extracellular matrix (ECM) substrates was assessed. Results The ED03 (ER+/PR−/HER2−/lobular) and EDW01 (ER+/PR−/HER2−/ductal) PDXs were both classified as molecular subtype luminal A. ED03 xenografts exhibited mutated E-cadherin with minimal expression, but remained vimentin-negative across all passages. In EDW01, the hypoxic indicator gene CAIX and Twist1 were co-ordinately upregulated at passages 4–5, corresponding with a decrease in E-cadherin. At passages 6–7, VIM was upregulated along with ITGB1 and ITGA2, consistent with an increasing EMT. The ED03 PDX displayed minimal change over passages in mice, for all genes examined. ILK, ITGB1 and ITGA2 mRNAs were also increased in the EGF-induced EMT of PMC42-ET cells (in which CDH1 was downregulated) although siRNA against these targets revealed that this induction was not necessary for the observed EMT. However, their knockdown significantly reduced EMT-associated adhesion and Transwell migration. Conclusion Our data suggest that despite an increase in ITGA2 and ITGB1 gene expression in the EMT exhibited by EDW01 PDX over multiple generations, this pathway may not necessarily drive the EMT process.

Published

2020

9. Applications of RNA characterisation in circulating tumour cells

Author

Sara Hassan, Tony Blick, Elizabeth D. Williams, and Erik W. Thompson

Subjects

ctc, metastasis, emt, tumour heterogeneity, rna analysis, ctc score, review, Biochemistry, QD415-436, Biology (General), QH301-705.5

Abstract

Circulating tumour cells (CTCs) are shed into the bloodstream from both primary and secondary tumours and provide a non-invasive means to study tumor progression and response to treatment. Assessment of ribonucleic acid (RNA) and monitoring dynamic changes in gene expression profiles of CTCs extends their clinical and prognostic power and establish their role in guiding treatment. Among these methods, droplet digital (RT-ddPCR) technique provides a high sensitivity and detectibility of CTCs. RNA-sequencing (RNAseq) is the most comprehensive method, that would allow the simultaneous measurement of a large number of genes and theoretically the whole transcriptome. Since CTCs are heterogeneous in nature, single cell RNAseq methods are very valuable in assessing population dynamics and functional states of CTCs. While RNA in situ hybridization (RNA-ISH) is used relatively less frequently, it also allows for the assessment of expression of multiple genes within individual CTCs. Epithelial to Mesenchymal Transition (EMT) or Plasticity (EMP) is a major contributor to metastasis, providing a mechanism to allow cells to become migratory and invasive, and to survive in the bloodstream. Monitoring CTCs undergoing EMT may lead to improvement in their prognostic and predictive power. Here, we review various RNA analysis of CTCs and those that undergo EMT and their application in diagnosis, prognosis and treatment of cancers.

Published

2020

10. The molecular function of kallikrein‐related peptidase 14 demonstrates a key modulatory role in advanced prostate cancer

Author

Thomas Kryza, Nathalie Bock, Scott Lovell, Anja Rockstroh, Melanie L. Lehman, Adam Lesner, Janaththani Panchadsaram, Lakmali Munasinghage Silva, Srilakshmi Srinivasan, Cameron E. Snell, Elizabeth D. Williams, Ladan Fazli, Martin Gleave, Jyotsna Batra, Colleen Nelson, Edward W. Tate, Jonathan Harris, John D. Hooper, and Judith A. Clements

Subjects

castrate‐resistant prostate cancer, kallikrein‐related peptidase, metastasis, prostate cancer, protease, protease‐substrate, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Kallikrein‐related peptidase 14 (KLK14) is one of the several secreted KLK serine proteases involved in prostate cancer (PCa) pathogenesis. While relatively understudied, recent reports have identified KLK14 as overexpressed during PCa development. However, the modulation of KLK14 expression during PCa progression and the molecular and biological functions of this protease in the prostate tumor microenvironment remain unknown. To determine the modulation of KLK14 expression during PCa progression, we analyzed the expression levels of KLK14 in patient samples using publicly available databases and immunohistochemistry. In order to delineate the molecular mechanisms involving KLK14 in PCa progression, we integrated proteomic, transcriptomic, and in vitro assays with the goal to identify substrates, related‐signaling pathways, and functional roles of this protease. We showed that KLK14 expression is elevated in advanced PCa, and particularly in metastasis. Additionally, KLK14 levels were found to be decreased in PCa tissues from patients responsive to neoadjuvant therapy compared to untreated patients. Furthermore, we also identified that KLK14 expression reoccurred in patients who developed castrate‐resistant PCa. The combination of proteomic and transcriptomic analysis as well as functional assays revealed several new KLK14 substrates (agrin, desmoglein 2, vitronectin, laminins) and KLK14‐regulated genes (Interleukin 32, midkine, SRY‐Box 9), particularly an involvement of the mitogen‐activated protein kinase 1 and interleukin 1 receptor pathways, and an involvement of KLK14 in the regulation of cellular migration, supporting its involvement in aggressive features of PCa progression. In conclusion, our work showed that KLK14 expression is associated with the development of aggressive PCa suggesting that targeting this protease could offer a novel route to limit the progression of prostate tumors. Additional work is necessary to determine the benefits and implications of targeting/cotargeting KLK14 in PCa as well as to determine the potential use of KLK14 expression as a predictor of PCa aggressiveness or response to treatment.

Published

2020

11. Patient-Derived Explants as a Precision Medicine Patient-Proximal Testing Platform Informing Cancer Management

Author

Abby R. Templeton, Penny L. Jeffery, Patrick B. Thomas, Mahasha P. J. Perera, Gary Ng, Alivia R. Calabrese, Clarissa Nicholls, Nathan J. Mackenzie, Jack Wood, Laura J. Bray, Ian Vela, Erik W. Thompson, and Elizabeth D. Williams

Subjects

precision medicine, patient-derived explants, whole exome sequencing, ex vivo, cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Precision medicine approaches that inform clinical management of individuals with cancer are progressively advancing. Patient-derived explants (PDEs) provide a patient-proximal ex vivo platform that can be used to assess sensitivity to standard of care (SOC) therapies and novel agents. PDEs have several advantages as a patient-proximal model compared to current preclinical models, as they maintain the phenotype and microenvironment of the individual tumor. However, the longevity of PDEs is not compatible with the timeframe required to incorporate candidate therapeutic options identified by whole exome sequencing (WES) of the patient’s tumor. This review investigates how PDE longevity varies across tumor streams and how this is influenced by tissue preparation. Improving longevity of PDEs will enable individualized therapeutics testing, and thus contribute to improving outcomes for people with cancer.

Published

2021

12. Isomer-Resolved Imaging of Prostate Cancer Tissues Reveals Specific Lipid Unsaturation Profiles Associated With Lymphocytes and Abnormal Prostate Epithelia

Author

Reuben S. E. Young, Britt S. R. Claes, Andrew P. Bowman, Elizabeth D. Williams, Benjamin Shepherd, Aurel Perren, Berwyck L. J. Poad, Shane R. Ellis, Ron M. A. Heeren, Martin C. Sadowski, and Stephen J. Blanksby

Subjects

imaging, mass spectrometry imaging, lipid, pathology, lipid metabolism, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Prostate cancer is the fourth most common cancer worldwide with definitive diagnosis reliant on biopsy and human-graded histopathology. As with other pathologies, grading based on classical haematoxylin and eosin (H&E) staining of formalin fixed paraffin-embedded material can be prone to variation between pathologists, prompting investigation of biomolecular markers. Comprising around 50% of cellular mass, and with known metabolic variations in cancer, lipids provide a promising target for molecular pathology. Here we apply isomer-resolved lipidomics in combination with imaging mass spectrometry to interrogate tissue sections from radical prostatectomy specimens. Guided by the histopathological assessment of adjacent tissue sections, regions of interest are investigated for molecular signatures associated with lipid metabolism, especially desaturation and elongation pathways. Monitoring one of the most abundant cellular membrane lipids within these tissues, phosphatidylcholine (PC) 34:1, high positive correlation was observed between the n-9 isomer (site of unsaturation 9-carbons from the methyl terminus) and epithelial cells from potential pre-malignant lesions, while the n-7 isomer abundance was observed to correlate with immune cell infiltration and inflammation. The correlation of lipid isomer signatures with human disease states in tissue suggests a future role for isomer-resolved mass spectrometry imaging in assisting pathologists with prostate cancer diagnoses and patient stratification.

Published

2021

13. Apocryphal FADS2 activity promotes fatty acid diversification in cancer

Author

Reuben S.E. Young, Andrew P. Bowman, Elizabeth D. Williams, Kaylyn D. Tousignant, Charles L. Bidgood, Venkateswara R. Narreddula, Rajesh Gupta, David L. Marshall, Berwyck L.J. Poad, Colleen C. Nelson, Shane R. Ellis, Ron M.A. Heeren, Martin C. Sadowski, and Stephen J. Blanksby

Subjects

lipids, fatty acids, unsaturation, isomer, desaturase, elongase, Biology (General), QH301-705.5

Abstract

Summary: Canonical fatty acid metabolism describes specific enzyme-substrate interactions that result in products with well-defined chain lengths, degree(s), and positions of unsaturation. Deep profiling of lipids across a range of prostate cancer cell lines reveals a variety of fatty acids with unusual site(s) of unsaturation that are not described by canonical pathways. The structure and abundance of these unusual lipids correlate with changes in desaturase expression and are strong indicators of cellular phenotype. Gene silencing and stable isotope tracing demonstrate that direct Δ6 and Δ8 desaturation of 14:0 (myristic), 16:0 (palmitic), and 18:0 (stearic) acids by FADS2 generate new families of unsaturated fatty acids (including n-8, n-10, and n-12) that have rarely—if ever—been reported in human-derived cells. Isomer-resolved lipidomics reveals the selective incorporation of these unusual fatty acids into complex structural lipids and identifies their presence in cancer tissues, indicating functional roles in membrane structure and signaling.

Published

2021

14. CD27, CD201, FLT3, CD48, and CD150 cell surface staining identifies long-term mouse hematopoietic stem cells in immunodeficient non-obese diabetic severe combined immune deficient-derived strains

Author

Bianca Nowlan, Elizabeth D. Williams, Michael R. Doran, and Jean-Pierre Levesque

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Staining for CD27 and CD201 (endothelial protein C receptor) has been recently suggested as an alternative to stem cell antigen–1 (Sca1) to identify hematopoietic stem cells in inbred mouse strains with low or nil expression of SCA1. However, whether staining for CD27 and CD201 is compatible with low fms-like tyrosine kinase 3 (FLT3) expression and the “SLAM” code defined by CD48 and CD150 to identify mouse long-term reconstituting hematopoietic stem cells has not been established. We compared the C57BL/6 strain, which expresses a high level of SCA1 on hematopoietic stem cells to non-obese diabetic severe combined immune deficient NOD.CB17-prkdcscid/Sz (NOD-scid) mice and NOD.CB17-prkdcscid il2rgtm1Wj1/Sz (NSG) mice which both express low to negative levels of SCA1 on hematopoietic stem cells. We demonstrate that hematopoietic stem cells are enriched within the linage-negative C-KIT+ CD27+ CD201+ FLT3− CD48-CD150+ population in serial dilution long-term competitive transplantation assays. We also make the novel observation that CD48 expression is up-regulated in Lin− KIT+ progenitors from NOD-scid and NSG strains, which otherwise have very few cells expressing the CD48 ligand CD244. Finally, we report that unlike hematopoietic stem cells, SCA1 expression is similar on bone marrow endothelial and mesenchymal progenitor cells in C57BL/6, NOD-scid and NSG mice. In conclusion, we propose that the combination of Lineage, KIT, CD27, CD201, FLT3, CD48, and CD150 antigens can be used to identify long-term reconstituting hematopoietic stem cells from mouse strains expressing low levels of SCA1 on hematopoietic cells.

Published

2020

15. Hysteresis control of epithelial-mesenchymal transition dynamics conveys a distinct program with enhanced metastatic ability

Author

Toni Celià-Terrassa, Caleb Bastian, Daniel D. Liu, Brian Ell, Nicole M. Aiello, Yong Wei, Jose Zamalloa, Andres M. Blanco, Xiang Hang, Dmitriy Kunisky, Wenyang Li, Elizabeth D. Williams, Herschel Rabitz, and Yibin Kang

Subjects

Science

Abstract

The epithelial-mesenchymal transition (EMT) is a dynamic process that plays important roles in cancer progression and metastasis. Here, the authors characterize a non-linear hysteretic response of E-cadherin repression during TGFβ-induced EMT that is controlled by the strength of the miR-200s/ZEBs negative feedback loop and enhances metastasis.

Published

2018

16. High mammographic density in women is associated with protumor inflammation

Author

Cecilia W. Huo, Prue Hill, Grace Chew, Paul J. Neeson, Heloise Halse, Elizabeth D. Williams, Michael A. Henderson, Erik W. Thompson, and Kara L. Britt

Subjects

Mammographic density, Immune infiltration, Macrophages, Dendritic cells, PD-L1, B cells, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Epidemiological studies have consistently shown that increased mammographic density (MD) is a strong risk factor for breast cancer. We previously observed an elevated number of vimentin+/CD45+ leukocytes in high MD (HMD) epithelium. In the present study, we aimed to investigate the subtypes of immune cell infiltrates in HMD and low MD (LMD) breast tissue. Methods Fifty-four women undergoing prophylactic mastectomy at Peter MacCallum Cancer Centre or St. Vincent’s Hospital were enrolled. Upon completion of mastectomy, HMD and LMD areas were resected under radiological guidance in collaboration with BreastScreen Victoria and were subsequently fixed, processed, and sectioned. Fifteen paired HMD and LMD specimens were further selected according to their fibroglandular characteristics (reasonable amount [> 20%] of tissue per block on H&E stains) for subsequent IHC analysis of immune cell infiltration. Results Overall, immune cell infiltrates were predominantly present in breast ducts and lobules rather than in the stroma, with CD68+ macrophages and CD20+ B lymphocytes also surrounding the vasculature. Macrophages, dendritic cells (DCs), B lymphocytes, and programmed cell death protein 1 (PD-1) expression were significantly increased in HMD epithelium compared with LMD. Moreover, significantly higher levels of DCs, CD4+ T cells, and PD-1 were also observed in HMD stroma than in LMD stroma. The increased expression of interleukin (IL)-6 and IL-4, with unaltered interferon-γ, indicate a proinflammatory microenvironment. Conclusions Our work indicates that the immune system may be activated very early in breast cancer development and may in part underpin the breast cancer risk associated with HMD.

Published

2018

17. Insulin Enhances Migration and Invasion in Prostate Cancer Cells by Up-Regulation of FOXC2

Author

Phoebe L. Sarkar, Wendy Lee, Elizabeth D. Williams, Amy A. Lubik, Nataly Stylianou, Ali Shokoohmand, Melanie L. Lehman, Brett G. Hollier, Jennifer H. Gunter, and Colleen C. Nelson

Subjects

hyperinsulinemia, prostate cancer, androgen deprivation, invasion, epithelial to mesenchymal transition (EMT), FOXC2, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Androgen deprivation therapy (ADT) is the standard treatment for advanced prostate cancer (PCa), yet many patients relapse with lethal metastatic disease. With this loss of androgens, increased cell plasticity has been observed as an adaptive response to ADT. This includes gain of invasive and migratory capabilities, which may contribute to PCa metastasis. Hyperinsulinemia, which develops as a side-effect of ADT, has been associated with increased tumor aggressiveness and faster treatment failure. We investigated the direct effects of insulin in PCa cells that may contribute to this progression. We measured cell migration and invasion induced by insulin using wound healing and transwell assays in a range of PCa cell lines of variable androgen dependency (LNCaP, 22RV1, DuCaP, and DU145 cell lines). To determine the molecular events driving insulin-induced invasion we used transcriptomics, quantitative real time-PCR, and immunoblotting in three PCa cell lines. Insulin increased invasiveness of PCa cells, upregulating Forkhead Box Protein C2 (FOXC2), and activating key PCa cell plasticity mechanisms including gene changes consistent with epithelial-to-mesenchymal transition (EMT) and a neuroendocrine phenotype. Additionally, analysis of publicly available clinical PCa tumor data showed metastatic prostate tumors demonstrate a positive correlation between insulin receptor expression and the EMT transcription factor FOXC2. The insulin receptor is not suitable to target clinically however, our data shows that actions of insulin in PCa cells may be suppressed by inhibiting downstream signaling molecules, PI3K and ERK1/2. This study identifies for the first time, a mechanism for insulin-driven cancer cell motility and supports the concept that targeting insulin signaling at the level of the PCa tumor may extend the therapeutic efficacy of ADT.

Published

2019

18. ADAMTS-15 Has a Tumor Suppressor Role in Prostate Cancer

Author

Marley J. Binder, Scott McCoombe, Elizabeth D. Williams, Daniel R. McCulloch, and Alister C. Ward

Subjects

ADAMTS, ECM, prostate cancer, tumor suppressor, VCAN, versikine, Microbiology, QR1-502

Abstract

Extracellular matrix remodeling has emerged as an important factor in many cancers. Proteoglycans, including versican (VCAN), are regulated via cleavage by the proteolytic actions of A Disintegrin-like And Metalloproteinase domain with Thrombospondin-1 motif (ADAMTS) family members. Alterations in the balance between Proteoglycans and ADAMTS enzymes have been proposed to contribute to cancer progression. Here, we analyzed the expression of ADAMTS-15 in human prostate cancer, and investigated the effects of enforced expression in prostate cancer cell lines. ADAMTS-15 was found to be expressed in human prostate cancer biopsies with evidence of co-localization with VCAN and its bioactive cleavage fragment versikine. Enforced expression of ADAMTS-15, but not a catalytically-inactive version, decreased cell proliferation and migration of the ‘castrate-resistant’ PC3 prostate cancer cell line in vitro, with survival increased. Analysis of ‘androgen-responsive’ LNCaP prostate cancer cells in vivo in NOD/SCID mice revealed that ADAMTS-15 expression caused slower growing tumors, which resulted in increased survival. This was not observed in castrated mice or with cells expressing catalytically-inactive ADAMTS-15. Collectively, this research identifies the enzymatic function of ADAMTS-15 as having a tumor suppressor role in prostate cancer, possibly in concert with androgens, and that VCAN represents a likely key substrate, highlighting potential new options for the clinic.

Published

2020

19. Author Correction: Hysteresis control of epithelial-mesenchymal transition dynamics conveys a distinct program with enhanced metastatic ability

Author

Toni Celià-Terrassa, Caleb Bastian, Daniel D. Liu, Brian Ell, Nicole M. Aiello, Yong Wei, Jose Zamalloa, Andres M. Blanco, Xiang Hang, Dmitriy Kunisky, Wenyang Li, Elizabeth D. Williams, Herschel Rabitz, and Yibin Kang

Subjects

Science

Abstract

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

Published

2019

20. Transplantation of Human Amnion Epithelial Cells Reduces Hepatic Fibrosis in Immunocompetent CCl-Treated Mice

Author

Ursula Manuelpillai, Jorge Tchongue, Dinushka Lourensz, Vijesh Vaghjiani, Chrishan S. Samuel, Alison Liu, Elizabeth D. Williams, and William Sievert

Subjects

Medicine

Abstract

Chronic liver injury and inflammation lead to hepatic fibrosis, cirrhosis, and liver failure. Embryonic and mesenchymal stem cells have been shown to reduce experimental liver fibrosis but have potential limitations, including the formation of dysplastic precursors, tumors, and profibrogenic cells. Other stem-like cells may reduce hepatic inflammation and fibrosis without tumor and profibrogenic cell formation. To test this hypothesis we transplanted human amnion epithelial cells (hAEC), isolated from term delivered placenta, into immunocompetent C57/BL6 mice at week 2 of a 4-week regimen of carbon tetrachloride (CCl 4 ) exposure to induce liver fibrosis. Two weeks following hAEC infusion, intact cells expressing the human-specific markers inner mitochondrial membrane protein and human leukocyte antigen-G were found in mouse liver without evidence of host rejection of the transplanted cells. Human albumin, known to be produced by hAEC, was detected in sera of hAEC-treated mice. Human DNA was detected in mouse liver and also spleen, lungs, and heart of some animals. Following hAEC transplantation, CCl 4 -treated animals showed decreased serum ALT levels and reduced hepatocyte apoptosis, compared to controls. hAEC-treated mouse liver had lower TNF-α and IL-6 protein levels and higher IL-10 compared to animals given CCl 4 alone. Compared to CCl 4 controls, hAEC-treated mice showed fewer activated collagen-producing hepatic stellate cells and less fibrosis area and collagen content. Reduced hepatic TGF-β levels in conjunction with a twofold increase in the active form of the collagen-degrading enzyme matrix metalloproteinase-2 in hAEC-treated mice compared to CCl 4 controls may account for the reduction in fibrosis. hAEC transplantation into immunocompetent mice leads to cell engraftment, reduced hepatocyte apoptosis, and decreased hepatic inflammation and fibrosis.

Published

2010

21. Urothelial Carcinoma and Prostate-specific Membrane Antigen: Cellular, Imaging, and Prognostic Implications

Author

Arsalan Tariq, Ian Vela, Sima P. Porten, Elizabeth D. Williams, John Yaxley, Peter C. Black, Amy E. McCart Reed, Andrew Morton, and Matthew J. Roberts

Subjects

Male, Oncology, medicine.medical_specialty, Urology, Context (language use), urologic and male genital diseases, Metastasis, Positron Emission Tomography Computed Tomography, Internal medicine, medicine, Glutamate carboxypeptidase II, Humans, Stage (cooking), Prospective cohort study, Retrospective Studies, Carcinoma, Transitional Cell, medicine.diagnostic_test, business.industry, Prostate, Prostatic Neoplasms, Prognosis, medicine.disease, Urinary Bladder Neoplasms, Positron emission tomography, T-stage, Immunohistochemistry, business

Abstract

Context Staging, restaging, and surveillance of urothelial carcinoma (UC) is challenging due to suboptimal accuracy of standard of care imaging modalities. Prostate-specific membrane antigen (PSMA) imaging may serve to improve characterisation of UC. Objective To appraise available literature regarding cellular, imaging, and prognostic implications of PSMA for UC. Evidence acquisition A systematic review was performed considering all available literature (including conference abstracts) published from 1990 to 2020 and reported according to Preferred Reporting Items for Systematic Reviews and Meta-analyses (PRISMA) guidelines following registration in PROSPERO (CRD42020186744). All relevant texts relating to immunohistochemical analysis and PSMA-based imaging in UC were included and collated. Additionally, FOLH1 (gene encoding PSMA) expression according to The Cancer Genome Atlas (TCGA) database was analysed as well as according to consensus and TCGA molecular classification subtypes and subsequently compared with clinical outcomes. Evidence synthesis PSMA expression across UC tumour tissue was heterogeneous (0–100%) but appeared to decrease with increased grade and stage. The TCGA analysis demonstrated loss of FOLH1 expression with increasing T stage (p = 0.0180) and N stage (p = 0.0269), and reduced FOLH1 expression was associated with worse disease-free survival. PSMA expression in UC neovasculature was variable but mostly increased (44–100%). Eleven reports of PSMA-based imaging for UC were identified, reporting on 18 patients. PSMA positron emission tomography (PET) imaging was positive in 17 out of 18 patients. The included literature review data were limited by mostly low-quality, retrospective studies. Conclusions Tissue PSMA, or FOLH1 expression, may inversely be associated with pathological and survival outcomes in localised UC. PSMA PET imaging may improve detection of metastatic disease and response to systemic therapy due to PSMA expression in neovasculature. Available evidence is limited; thus, larger, prospective studies are required to confirm early results and define populations that benefit most. Patient summary In this systematic review, we assess the potential role of prostate-specific membrane antigen in urothelial cancer. We found that its utility is in expression of blood vessels surrounding metastasis. We conclude that it may be beneficial in detecting metastasis and response to systemic therapies.

Published

2022

22. Data from ELOVL5 Is a Critical and Targetable Fatty Acid Elongase in Prostate Cancer

Author

Lisa M. Butler, Johannes V. Swinnen, Luke A. Selth, Massimo Loda, Andrew M. Scott, Wayne D. Tilley, Ian G. Mills, Nicolas H. Voelcker, Anna Cifuentes-Rius, Andreas Evdokiou, Elizabeth D. Williams, Rita Derua, Etienne Waelkens, Vasilios Panagopoulos, Katarzyna Bloch, Ryan Carelli, Adrienne R. Hanson, Terence Tieu, Chui Yan Mah, Joanna L. Gillis, Natalie K. Ryan, Emma Evergren, Clyde Bango, Paolo M. Chetta, Giorgia Zadra, Ingrid J.G. Burvenich, Jonas Dehairs, Irene Zinonos, Deanna C. Miller, Zeyad D. Nassar, Jelle Machiels, Julia S. Scott, and Margaret M. Centenera

Abstract

The androgen receptor (AR) is the key oncogenic driver of prostate cancer, and despite implementation of novel AR targeting therapies, outcomes for metastatic disease remain dismal. There is an urgent need to better understand androgen-regulated cellular processes to more effectively target the AR dependence of prostate cancer cells through new therapeutic vulnerabilities. Transcriptomic studies have consistently identified lipid metabolism as a hallmark of enhanced AR signaling in prostate cancer, yet the relationship between AR and the lipidome remains undefined. Using mass spectrometry–based lipidomics, this study reveals increased fatty acyl chain length in phospholipids from prostate cancer cells and patient-derived explants as one of the most striking androgen-regulated changes to lipid metabolism. Potent and direct AR-mediated induction of ELOVL fatty acid elongase 5 (ELOVL5), an enzyme that catalyzes fatty acid elongation, was demonstrated in prostate cancer cells, xenografts, and clinical tumors. Assessment of mRNA and protein in large-scale data sets revealed ELOVL5 as the predominant ELOVL expressed and upregulated in prostate cancer compared with nonmalignant prostate. ELOVL5 depletion markedly altered mitochondrial morphology and function, leading to excess generation of reactive oxygen species and resulting in suppression of prostate cancer cell proliferation, 3D growth, and in vivo tumor growth and metastasis. Supplementation with the monounsaturated fatty acid cis-vaccenic acid, a direct product of ELOVL5 elongation, reversed the oxidative stress and associated cell proliferation and migration effects of ELOVL5 knockdown. Collectively, these results identify lipid elongation as a protumorigenic metabolic pathway in prostate cancer that is androgen-regulated, critical for metastasis, and targetable via ELOVL5.Significance:This study identifies phospholipid elongation as a new metabolic target of androgen action that is critical for prostate tumor metastasis.

Published

2023

23. Data from FGFR2c Mesenchymal Isoform Expression Is Associated with Poor Prognosis and Further Refines Risk Stratification within Endometrial Cancer Molecular Subtypes

Author

Pamela M. Pollock, Jessica N. McAlpine, Elizabeth D. Williams, Aline Talhouk, Samuel C.Y. Leung, Deborah S. Smith, Cameron E. Snell, Ann-Marie Patch, and Asmerom T. Sengal

Abstract

Purpose:The two most common molecular subtypes of endometrial cancers, mismatch repair deficient (MMRd) and p53 wild-type (p53wt) comprise the majority of endometrial cancers and have intermediate prognoses where additional risk stratification biomarkers are needed. Isoform switching of FGFR2 from FGFR2b to FGFR2c (normally expressed in mesenchymal cells), has been reported in other solid carcinomas. The objective of this study was to investigate the role of FGFR2c in risk stratification of endometrial cancer.Experimental Design:We have developed and optimized a BaseScope RNA ISH assay to detect FGFR2c. FGFR2c expression was determined in a preliminary screening cohort of 78 endometrial cancers and a clinically and molecularly annotated Vancouver cohort (n = 465). Cox regression model analyses were performed to assess the prognostic value of FGFR2c.Results:Univariate and multivariate analyses revealed FGFR2c expression was significantly associated with shorter disease-specific survival (DSS) and progression-free survival (PFS) in endometrioid endometrial cancer (EEC, n = 302). Notably, FGFR2c expression was significantly associated with shorter PFS and DSS in patients with grade 3 EECs (P < 0.003 and P < 0.002) and the European Society Medical Oncology (ESMO) high-risk group (P < 0.0001 and P < 0.002), respectively. Moreover, within the MMRd subtype, FGFR2c expression was significantly associated with shorter PFS (P < 0.048) and DSS (P < 0.001).Conclusions:FGFR2c expression appears an independent prognostic biomarker in patients with EEC and further discerns the outcomes within grade 3 tumors, ESMO high-risk groups, as well as within the MMRd and p53wt subtypes. FGFR2c inclusion into future molecular subtyping can further refine risk stratification of EEC.

Published

2023

24. Data from MicroRNA-194 Promotes Prostate Cancer Metastasis by Inhibiting SOCS2

Author

Luke A. Selth, Wayne D. Tilley, Lisa M. Butler, Felix Y. Feng, Gregory J. Goodall, Amina Zoubeidi, Elizabeth D. Williams, Hayley S. Ramshaw, Kim N. Chi, Eric A. Klein, Robert B. Den, Ashley E. Ross, R. Jeffrey Karnes, Robert B. Jenkins, Elai Davicioni, Esmaeil Ebrahimie, Noor A. Lokman, Heather K. Armstrong, Marie A. Pickering, Adrienne R. Hanson, Shuang G. Zhao, Scott L. Townley, Qingqing Wang, Iza Denis, Rayzel C. Fernandes, Philip A. Gregory, and Rajdeep Das

Abstract

Serum levels of miR-194 have been reported to predict prostate cancer recurrence after surgery, but its functional contributions to this disease have not been studied. Herein, it is demonstrated that miR-194 is a driver of prostate cancer metastasis. Prostate tissue levels of miR-194 were associated with disease aggressiveness and poor outcome. Ectopic delivery of miR-194 stimulated migration, invasion, and epithelial–mesenchymal transition in human prostate cancer cell lines, and stable overexpression of miR-194 enhanced metastasis of intravenous and intraprostatic tumor xenografts. Conversely, inhibition of miR-194 activity suppressed the invasive capacity of prostate cancer cell lines in vitro and in vivo. Mechanistic investigations identified the ubiquitin ligase suppressor of cytokine signaling 2 (SOCS2) as a direct, biologically relevant target of miR-194 in prostate cancer. Low levels of SOCS2 correlated strongly with disease recurrence and metastasis in clinical specimens. SOCS2 downregulation recapitulated miR-194–driven metastatic phenotypes, whereas overexpression of a nontargetable SOCS2 reduced miR-194–stimulated invasion. Targeting of SOCS2 by miR-194 resulted in derepression of the oncogenic kinases FLT3 and JAK2, leading to enhanced ERK and STAT3 signaling. Pharmacologic inhibition of ERK and JAK/STAT pathways reversed miR-194–driven phenotypes. The GATA2 transcription factor was identified as an upstream regulator of miR-194, consistent with a strong concordance between GATA2 and miR-194 levels in clinical specimens. Overall, these results offer new insights into the molecular mechanisms of metastatic progression in prostate cancer. Cancer Res; 77(4); 1021–34. ©2016 AACR.

Published

2023

25. Supplementary Data from ELOVL5 Is a Critical and Targetable Fatty Acid Elongase in Prostate Cancer

Author

Lisa M. Butler, Johannes V. Swinnen, Luke A. Selth, Massimo Loda, Andrew M. Scott, Wayne D. Tilley, Ian G. Mills, Nicolas H. Voelcker, Anna Cifuentes-Rius, Andreas Evdokiou, Elizabeth D. Williams, Rita Derua, Etienne Waelkens, Vasilios Panagopoulos, Katarzyna Bloch, Ryan Carelli, Adrienne R. Hanson, Terence Tieu, Chui Yan Mah, Joanna L. Gillis, Natalie K. Ryan, Emma Evergren, Clyde Bango, Paolo M. Chetta, Giorgia Zadra, Ingrid J.G. Burvenich, Jonas Dehairs, Irene Zinonos, Deanna C. Miller, Zeyad D. Nassar, Jelle Machiels, Julia S. Scott, and Margaret M. Centenera

Abstract

Supplementary figures 1-9 and legends.

Published

2023

26. Supplementary Data from FGFR2c Mesenchymal Isoform Expression Is Associated with Poor Prognosis and Further Refines Risk Stratification within Endometrial Cancer Molecular Subtypes

Author

Pamela M. Pollock, Jessica N. McAlpine, Elizabeth D. Williams, Aline Talhouk, Samuel C.Y. Leung, Deborah S. Smith, Cameron E. Snell, Ann-Marie Patch, and Asmerom T. Sengal

Abstract

Supplementary Figures 1_6

Published

2023

27. Supplementary data from MicroRNA-194 Promotes Prostate Cancer Metastasis by Inhibiting SOCS2

Author

Luke A. Selth, Wayne D. Tilley, Lisa M. Butler, Felix Y. Feng, Gregory J. Goodall, Amina Zoubeidi, Elizabeth D. Williams, Hayley S. Ramshaw, Kim N. Chi, Eric A. Klein, Robert B. Den, Ashley E. Ross, R. Jeffrey Karnes, Robert B. Jenkins, Elai Davicioni, Esmaeil Ebrahimie, Noor A. Lokman, Heather K. Armstrong, Marie A. Pickering, Adrienne R. Hanson, Shuang G. Zhao, Scott L. Townley, Qingqing Wang, Iza Denis, Rayzel C. Fernandes, Philip A. Gregory, and Rajdeep Das

Abstract

This files contains 1 Supplementary Table and 11 Supplementary Figures. The Supplementary Table shows Univariate and multivariate Cox proportional hazard analysis of prostate tumor levels of miR-194 and Gleason score/grade in relation to recurrence-free interval after radical prostatectomy in the TCGA cohort. The Supplementary Figures collectively include data that supports the key finding of this study; namely, that miR-194 is an important driver of prostate cancer metastasis.

Published

2023

28. Data from Mesenchymal-to-Epithelial Transition Facilitates Bladder Cancer Metastasis: Role of Fibroblast Growth Factor Receptor-2

Author

Elizabeth D. Williams, Erik W. Thompson, Tony Blick, John L. Slavin, Janelle P. Brennan, and Christine L. Chaffer

Abstract

Epithelial-to-mesenchymal transition (EMT) increases cell migration and invasion, and facilitates metastasis in multiple carcinoma types, but belies epithelial similarities between primary and secondary tumors. This study addresses the importance of mesenchymal-to-epithelial transition (MET) in the formation of clinically significant metastasis. The previously described bladder carcinoma TSU-Pr1 (T24) progression series of cell lines selected in vivo for increasing metastatic ability following systemic seeding was used in this study. It was found that the more metastatic sublines had acquired epithelial characteristics. Epithelial and mesenchymal phenotypes were confirmed in the TSU-Pr1 series by cytoskeletal and morphologic analysis, and by performance in a panel of in vitro assays. Metastatic ability was examined following inoculation at various sites. Epithelial characteristics associated with dramatically increased bone and soft tissue colonization after intracardiac or intratibial injection. In contrast, the more epithelial sublines showed decreased lung metastases following orthotopic inoculation, supporting the concept that EMT is important for the escape of tumor cells from the primary tumor. We confirmed the overexpression of the IIIc subtype of multiple fibroblast growth factor receptors (FGFR) through the TSU-Pr1 series, and targeted abrogation of FGFR2IIIc reversed the MET and associated functionality in this system and increased survival following in vivo inoculation in severe combined immunodeficient mice. This model is the first to specifically model steps of the latter part of the metastatic cascade in isogenic cell lines, and confirms the suspected role of MET in secondary tumor growth. (Cancer Res 2006; 66(23): 11271-8)

Published

2023

29. Supplementary Table 1 from Mesenchymal-to-Epithelial Transition Facilitates Bladder Cancer Metastasis: Role of Fibroblast Growth Factor Receptor-2

Author

Elizabeth D. Williams, Erik W. Thompson, Tony Blick, John L. Slavin, Janelle P. Brennan, and Christine L. Chaffer

Abstract

Supplementary Table 1 from Mesenchymal-to-Epithelial Transition Facilitates Bladder Cancer Metastasis: Role of Fibroblast Growth Factor Receptor-2

Published

2023

30. Data from ATF3 Suppresses Metastasis of Bladder Cancer by Regulating Gelsolin-Mediated Remodeling of the Actin Cytoskeleton

Author

Dakang Xu, Lisong Shen, Bryan R.G. Williams, Anthony J. Sadler, Jun-Ping Liu, Elizabeth D. Williams, Die Wang, Aaron T. Irving, Qiaohong Meng, Jianhua Chen, Liang Zhang, Tingting Rong, Guohua Xie, Junhua Li, Liang Yu, and Xiangliang Yuan

Abstract

Bladder cancer is associated with high recurrence and mortality rates due to metastasis. The elucidation of metastasis suppressors may offer therapeutic opportunities if their mechanisms of action can be elucidated and tractably exploited. In this study, we investigated the clinical and functional significance of the transcription factor activating transcription factor 3 (ATF3) in bladder cancer metastasis. Gene expression analysis revealed that decreased ATF3 was associated with bladder cancer progression and reduced survival of patients with bladder cancer. Correspondingly, ATF3 overexpression in highly metastatic bladder cancer cells decreased migration in vitro and experimental metastasis in vivo. Conversely, ATF3 silencing increased the migration of bladder cancer cells with limited metastatic capability in the absence of any effect on proliferation. In keeping with their increased motility, metastatic bladder cancer cells had increased numbers of actin filaments. Moreover, ATF3 expression correlated with expression of the actin filament severing protein gelsolin (GSN). Mechanistic studies revealed that ATF3 upregulated GSN, whereas ATF3 silencing reduced GSN levels, concomitant with alterations in the actin cytoskeleton. We identified six ATF3 regulatory elements in the first intron of the GSN gene confirmed by chromatin immunoprecipitation analysis. Critically, GSN expression reversed the metastatic capacity of bladder cancer cells with diminished levels of ATF3. Taken together, our results indicate that ATF3 suppresses metastasis of bladder cancer cells, at least in part through the upregulation of GSN-mediated actin remodeling. These findings suggest ATF3 coupled with GSN as prognostic markers for bladder cancer metastasis. Cancer Res; 73(12); 3625–37. ©2013 AACR.

Published

2023

31. Supplementary Methods, Tables 1 - 3, Figures 1 - 4 from ATF3 Suppresses Metastasis of Bladder Cancer by Regulating Gelsolin-Mediated Remodeling of the Actin Cytoskeleton

Author

Dakang Xu, Lisong Shen, Bryan R.G. Williams, Anthony J. Sadler, Jun-Ping Liu, Elizabeth D. Williams, Die Wang, Aaron T. Irving, Qiaohong Meng, Jianhua Chen, Liang Zhang, Tingting Rong, Guohua Xie, Junhua Li, Liang Yu, and Xiangliang Yuan

Abstract

PDF file - 752K, Table S1. ATF3 expression and clinicopathological findings in bladder cancer. Table S2. Relationship between ATF3 and GSN expression in bladder cancer. Table S3. Multivariate Cox proportional hazards regression for metastasis-free survival of patients with bladder cancer. Figure S1. Establishment and characterization of the highly metastatic cell subline T24-L. Figure S2. Agreement between pathologists and automated staining categories. Figure S3. ATF3 is downregulated in bladder cancer tissue. Figure S4. ATF3 regulates GSN expression in bladder cancer cells.

Published

2023

32. Supplementary Materials, Methods and Figure 1 from Tumor-Induced Activation of Lymphatic Endothelial Cells via Vascular Endothelial Growth Factor Receptor-2 Is Critical for Prostate Cancer Lymphatic Metastasis

Author

Elizabeth D. Williams, Jeremy Goad, Kenneth Opeskin, and Yiping Zeng

Abstract

Supplementary Materials, Methods and Figure 1 from Tumor-Induced Activation of Lymphatic Endothelial Cells via Vascular Endothelial Growth Factor Receptor-2 Is Critical for Prostate Cancer Lymphatic Metastasis

Published

2023

33. Supplementary Table 2 from Mesenchymal-to-Epithelial Transition Facilitates Bladder Cancer Metastasis: Role of Fibroblast Growth Factor Receptor-2

Author

Elizabeth D. Williams, Erik W. Thompson, Tony Blick, John L. Slavin, Janelle P. Brennan, and Christine L. Chaffer

Abstract

Supplementary Table 2 from Mesenchymal-to-Epithelial Transition Facilitates Bladder Cancer Metastasis: Role of Fibroblast Growth Factor Receptor-2

Published

2023

34. Data from Tumor-Induced Activation of Lymphatic Endothelial Cells via Vascular Endothelial Growth Factor Receptor-2 Is Critical for Prostate Cancer Lymphatic Metastasis

Author

Elizabeth D. Williams, Jeremy Goad, Kenneth Opeskin, and Yiping Zeng

Abstract

Prostate cancer disseminates initially and primarily to regional lymph nodes. However, the nature of interactions between tumor cells and lymphatic endothelial cells (LEC) is poorly understood. In the current study, we have isolated prostate LECs and developed a series of two-dimensional and three-dimensional in vitro coculture systems and in vivo orthotopic prostate cancer models to investigate the interactions of prostate cancer cells with prostate LECs. In vitro, highly lymph node metastatic prostate cancer cell lines (PC-3 and LNCaP) and their conditioned medium enhanced prostate LEC tube formation and migration, whereas poorly lymph node metastatic prostate cancer cells (DU145) or normal prostate epithelial cells (RWPE-1) or their conditioned medium had no effect. In vivo, the occurrence of lymphatic invasion and lymph node metastasis was observed in PC-3 and LNCaP xenografts but not in DU145 xenografts. Furthermore, vascular endothelial growth factor (VEGF) receptor (VEGFR)-2 is expressed by prostate LECs, and its ligands VEGF-A, VEGF-C, and VEGF-D are up-regulated in highly lymph node metastatic prostate cancer cells. Recombinant VEGF-A and VEGF-C, but not VEGF-C156S, potently promoted prostate LEC tube formation, migration, and proliferation in vitro, indicating that signaling via VEGFR-2 rather than VEGFR-3 is involved in these responses. Consistent with this, blockade of VEGFR-2 significantly reduced tumor-induced activation of LECs. These results show that the interaction of prostate tumor cells with LECs via VEGFR-2 modulates LEC behavior and is related to the ability of tumor cells to form lymph node metastases. (Cancer Res 2006; 66(19): 9566-75)

Published

2023

35. Supplementary Figure 1 from Tumor-Induced Activation of Lymphatic Endothelial Cells via Vascular Endothelial Growth Factor Receptor-2 Is Critical for Prostate Cancer Lymphatic Metastasis

Author

Elizabeth D. Williams, Jeremy Goad, Kenneth Opeskin, and Yiping Zeng

Abstract

Supplementary Figure 1 from Tumor-Induced Activation of Lymphatic Endothelial Cells via Vascular Endothelial Growth Factor Receptor-2 Is Critical for Prostate Cancer Lymphatic Metastasis

Published

2023

36. Supplementary Table 3 from Mesenchymal-to-Epithelial Transition Facilitates Bladder Cancer Metastasis: Role of Fibroblast Growth Factor Receptor-2

Author

Elizabeth D. Williams, Erik W. Thompson, Tony Blick, John L. Slavin, Janelle P. Brennan, and Christine L. Chaffer

Abstract

Supplementary Table 3 from Mesenchymal-to-Epithelial Transition Facilitates Bladder Cancer Metastasis: Role of Fibroblast Growth Factor Receptor-2

Published

2023

37. hSSB1 (NABP2/OBFC2B) modulates the DNA damage and androgen-induced transcriptional response in prostate cancer

Author

Mark N. Adams, Laura V. Croft, Aaron Urquhart, Mohamed Ashick Mohamed Saleem, Anja Rockstroh, Pascal H. G. Duijf, Patrick B. Thomas, Genevieve P. Ferguson, Idris Mohd Najib, Esha T. Shah, Emma Bolderson, Shivashankar Nagaraj, Elizabeth D. Williams, Colleen C. Nelson, Kenneth J. O'Byrne, Derek J. Richard, Adams, Mark N, Croft, Laura V, Urquhart, Aaron, Saleem, Mohamed Ashick Mohamed, Rockstroh, Anja, Duijf, Pascal HG, Thomas, Patrick B, Ferguson, Genevieve P, Najib, Idris Mohd, Shah, Esha T, Bolderson, Emma, Nagaraj, Shivashankar, Williams, Elizabeth D, Nelson, Colleen C, O'Byrne, Kenneth J, and Richard, Derek J

Subjects

radiation, Oncology, Urology, androgen receptor, DNA damage, hSSB1/NABP2, prostate cancer

Abstract

Background: Activation and regulation of androgen receptor (AR) signaling and the DNA damage response impact the prostate cancer (PCa) treatment modalities of androgen deprivation therapy (ADT) and radiotherapy. Here, we have evaluated a role for human single-strand binding protein 1 (hSSB1/NABP2) in modulation of the cellular response to androgens and ionizing radiation (IR). hSSB1 has defined roles in transcription and maintenance of genome stability, yet little is known about this protein in PCa. Methods: We correlated hSSB1 with measures of genomic instability across available PCa cases from The Cancer Genome Atlas (TCGA). Microarray and subsequent pathway and transcription factor enrichment analysis were performed on LNCaP and DU145 prostate cancer cells. Results: Our data demonstrate that hSSB1 expression in PCa correlates with measures of genomic instability including multigene signatures and genomic scars that are reflective of defects in the repair of DNA double-strand breaks via homologous recombination. In response to IR-induced DNA damage, we demonstrate that hSSB1 regulates cellular pathways that control cell cycle progression and the associated checkpoints. In keeping with a role for hSSB1 in transcription, our analysis revealed that hSSB1 negatively modulates p53 and RNA polymerase II transcription in PCa. Of relevance to PCa pathology, our findings highlight a transcriptional role for hSSB1 in regulating the androgen response. We identified that AR function is predicted to be impacted by hSSB1 depletion, whereby this protein is required to modulate AR gene activity in PCa. Conclusions: Our findings point to a key role for hSSB1 in mediating the cellular response to androgen and DNA damage via modulation of transcription. Exploiting hSSB1 in PCa might yield benefits as a strategy to ensure a durable response to ADT and/or radiotherapy and improved patient outcomes. Refereed/Peer-reviewed

Published

2023

38. Deep learning in cancer diagnosis, prognosis and treatment selection

Author

Andrew P. Bradley, Nicola Waddell, Elizabeth D. Williams, Olga Kondrashova, Khoa D. Tran, and John V. Pearson

Subjects

Artificial intelligence, Molecular subtypes, Systems biology, education, Inference, Review, QH426-470, Medical Oncology, Data type, Field (computer science), Machine Learning, Cancer of unknown primary, Multi-modal learning, Neoplasms, Tumor Microenvironment, Selection (linguistics), medicine, Cancer genomics, Genetics, Humans, Precision Medicine, Molecular Biology, Genetics (clinical), Tumour microenvironment, Artificial neural network, business.industry, Deep learning, Cancer, Precision oncology, Genomics, Prognosis, medicine.disease, Explainability, Data science, Pharmacogenetics, Molecular Medicine, Medicine, Neural Networks, Computer, Pharmacogenomics, business

Abstract

Deep learning is a subdiscipline of artificial intelligence that uses a machine learning technique called artificial neural networks to extract patterns and make predictions from large data sets. The increasing adoption of deep learning across healthcare domains together with the availability of highly characterised cancer datasets has accelerated research into the utility of deep learning in the analysis of the complex biology of cancer. While early results are promising, this is a rapidly evolving field with new knowledge emerging in both cancer biology and deep learning. In this review, we provide an overview of emerging deep learning techniques and how they are being applied to oncology. We focus on the deep learning applications for omics data types, including genomic, methylation and transcriptomic data, as well as histopathology-based genomic inference, and provide perspectives on how the different data types can be integrated to develop decision support tools. We provide specific examples of how deep learning may be applied in cancer diagnosis, prognosis and treatment management. We also assess the current limitations and challenges for the application of deep learning in precision oncology, including the lack of phenotypically rich data and the need for more explainable deep learning models. Finally, we conclude with a discussion of how current obstacles can be overcome to enable future clinical utilisation of deep learning.

Published

2021

39. Human bone marrow-derived stromal cell behavior when injected directly into the bone marrow of NOD-scid-gamma mice pre-conditioned with sub-lethal irradiation

Author

Elizabeth D. Williams, Michael R. Doran, Bianca Nowlan, and Kathryn Futrega

Subjects

Pathology, medicine.medical_specialty, Sub-lethal irradiation, Human bone marrow-derived stromal cells, Medicine (General), Stromal cell, Population, Medicine (miscellaneous), Bone Marrow Cells, Mice, SCID, QD415-436, Biochemistry, Genetics and Molecular Biology (miscellaneous), Biochemistry, Green fluorescent protein, Mice, R5-920, Mice, Inbred NOD, medicine, Animals, Humans, Bone marrow, education, education.field_of_study, Chemistry, Intrafemoral injection, Research, Xenograft, Mesenchymal stem cell, Interleukin, Histology, Mesenchymal Stem Cells, Cell Biology, medicine.anatomical_structure, Molecular Medicine, Stem cell, Cell competition

Abstract

BackgroundDirect bone marrow injection of cells into murine marrow cavities is used in a range of cell characterization assays and to develop disease models. While human bone marrow-derived stromal cells (hBMSC, also known as mesenchymal stem cells (MSC)) are frequently described in therapeutic applications, or disease modeling, their behavior following direct injection into murine bone marrow is poorly characterized. Herein, we characterized hBMSC engraftment and persistence within the bone marrow of NOD-scidinterleukin (IL)-2γ−/−(NSG) mice with or without prior 2 Gy total-body γ-irradiation of recipient mice.MethodsOne day after conditioning NSG mice with sublethal irradiation, 5 × 105luciferase (Luc) and green fluorescent protein (GFP)-expressing hBMSC (hBMSC-Luc/GFP) were injected into the right femurs of animals. hBMSC-Luc/GFP were tracked in live animals using IVIS imaging, and histology was used to further characterize hBMSC location and behavior in tissues.ResultshBMSC-Luc/GFP number within injected marrow cavities declined rapidly over 4 weeks, but prior irradiation of animals delayed this decline. At 4 weeks, hBMSC-Luc/GFP colonized injected marrow cavities and distal marrow cavities at rates of 2.5 ± 2.2% and 1.7 ± 1.9% of total marrow nucleated cells, respectively in both irradiated and non-irradiated mice. In distal marrow cavities, hBMSC were not uniformly distributed and appeared to be co-localized in clusters, with the majority found in the endosteal region.ConclusionsWhile significant numbers of hBMSC-Luc/GFP could be deposited into the mouse bone marrow via direct bone marrow injection, IVIS imaging indicated that the number of hBMSC-Luc/GFP in that bone marrow cavity declined with time. Irradiation of mice prior to transplant only delayed the rate of hBMSC-Luc/GFP population decline in injected femurs. Clusters of hBMSC-Luc/GFP were observed in the histology of distal marrow cavities, suggesting that some transplanted cells actively homed to distal marrow cavities. Individual cell clusters may have arisen from discrete clones that homed to the marrow, and then underwent modest proliferation. The transient high-density population of hBMSC within the injected femur, or the longer-term low-density population of hBMSC in distal marrow cavities, offers useful models for studying disease or regenerative processes. Experimental designs should consider how relative hBMSC distribution and local hBMSC densities evolve over time.

Published

2021

40. ELOVL5 Is a Critical and Targetable Fatty Acid Elongase in Prostate Cancer

Author

Wayne D. Tilley, Andrew M. Scott, Irene Zinonos, Paolo Chetta, Ryan Carelli, Zeyad D. Nassar, Jonas Dehairs, Joanna L. Gillis, Massimo Loda, Nicolas H. Voelcker, Andreas Evdokiou, Johannes V. Swinnen, Etienne Waelkens, Luke A. Selth, Vasilios Panagopoulos, Natalie K. Ryan, Chui Yan Mah, Ian G. Mills, Elizabeth D. Williams, Deanna C. Miller, Julia S. Scott, Katarzyna Bloch, Margaret M. Centenera, Lisa M. Butler, Emma Evergren, Rita Derua, Giorgia Zadra, Terence Tieu, Ingrid Burvenich, Clyde Bango, Adrienne R. Hanson, Jelle Machiels, and Anna Cifuentes-Rius

Subjects

Male, 0301 basic medicine, Cancer Research, Fatty Acid Elongases, Mice, SCID, Gene Expression Regulation, Enzymologic, Metastasis, Mice, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, SDG 3 - Good Health and Well-being, Cell Movement, Mice, Inbred NOD, Prostate, Tumor Cells, Cultured, medicine, Animals, Humans, Molecular Targeted Therapy, RNA, Small Interfering, Cell Proliferation, chemistry.chemical_classification, Science & Technology, Prostatic Neoplasms, Fatty acid, Lipid metabolism, Lipidome, Lipid Metabolism, medicine.disease, Xenograft Model Antitumor Assays, Gene Expression Regulation, Neoplastic, Androgen receptor, 030104 developmental biology, medicine.anatomical_structure, Oncology, chemistry, Receptors, Androgen, Gene Knockdown Techniques, 030220 oncology & carcinogenesis, Cancer research, Fatty acid elongation, Life Sciences & Biomedicine

Abstract

The androgen receptor (AR) is the key oncogenic driver of prostate cancer, and despite implementation of novel AR targeting therapies, outcomes for metastatic disease remain dismal. There is an urgent need to better understand androgen-regulated cellular processes to more effectively target the AR dependence of prostate cancer cells through new therapeutic vulnerabilities. Transcriptomic studies have consistently identified lipid metabolism as a hallmark of enhanced AR signaling in prostate cancer, yet the relationship between AR and the lipidome remains undefined. Using mass spectrometry–based lipidomics, this study reveals increased fatty acyl chain length in phospholipids from prostate cancer cells and patient-derived explants as one of the most striking androgen-regulated changes to lipid metabolism. Potent and direct AR-mediated induction of ELOVL fatty acid elongase 5 (ELOVL5), an enzyme that catalyzes fatty acid elongation, was demonstrated in prostate cancer cells, xenografts, and clinical tumors. Assessment of mRNA and protein in large-scale data sets revealed ELOVL5 as the predominant ELOVL expressed and upregulated in prostate cancer compared with nonmalignant prostate. ELOVL5 depletion markedly altered mitochondrial morphology and function, leading to excess generation of reactive oxygen species and resulting in suppression of prostate cancer cell proliferation, 3D growth, and in vivo tumor growth and metastasis. Supplementation with the monounsaturated fatty acid cis-vaccenic acid, a direct product of ELOVL5 elongation, reversed the oxidative stress and associated cell proliferation and migration effects of ELOVL5 knockdown. Collectively, these results identify lipid elongation as a protumorigenic metabolic pathway in prostate cancer that is androgen-regulated, critical for metastasis, and targetable via ELOVL5. Significance: This study identifies phospholipid elongation as a new metabolic target of androgen action that is critical for prostate tumor metastasis.

Published

2021

41. Spatial expression of the FGFR2b splice isoform and its prognostic significance in endometrioid endometrial carcinoma

Author

Asmerom T Sengal, Deborah Smith, Cameron E Snell, Samuel Leung, Aline Talhouk, Elizabeth D Williams, Jessica N McAlpine, and Pamela M Pollock

Subjects

Hyperplasia, Humans, Protein Isoforms, RNA, Female, RNA, Messenger, Receptor, Fibroblast Growth Factor, Type 2, Prognosis, Carcinoma, Endometrioid, Pathology and Forensic Medicine, Endometrial Neoplasms

Abstract

Endometrial carcinoma (EC) is the most common gynecological malignancy and fibroblast growth factor receptor 2 (FGFR2) is a frequently dysregulated receptor tyrosine kinase. FGFR2b and FGFR2c are the two main splice isoforms of FGFR2 and are normally localized in epithelial and mesenchymal cells, respectively. Previously, we demonstrated that FGFR2c mRNA expression was associated with aggressive tumor characteristics, shorter progression-free survival (PFS), and disease-specific survival (DSS) in endometrioid ECs (EECs). The objectives of this study were to investigate the spatial expression of FGFR2b in normal and hyperplasia with and without atypia of human endometrium and to assess the prognostic significance of FGFR2b expression in EC. FGFR2b and FGFR2c mRNA expression was evaluated in normal (proliferative [n = 10], secretory [n = 15], and atrophic [n = 10] endometrium), hyperplasia with and without atypia (n = 19) as well as two patient cohorts of EC samples (discovery [n = 78] and Vancouver [n = 460]) using isoform-specific BaseScope RNA in situ hybridization assays. Tumors were categorized based on FGFR2 isoform expression (one, both, or neither) and categories were correlated with clinicopathologic markers, molecular subtypes, and clinical outcomes. The FGFR2b splice isoform was exclusively expressed in the epithelial compartment of normal endometrium and hyperplasia without atypia. We observed FGFR2c expression at the basalis layer of glands in 33% (3/9) of hyperplasia with atypia. In patients with EEC, FGFR2b+/FGFR2c- expression was found in 48% of the discovery cohort and 35% of the validation Vancouver cohort. In univariate analyses, tumors with FGFR2b+/FGFR2c- expression had longer PFS (hazard ratio [HR] 0.265; 95% CI 0.145-0.423; log-rank p 0.019) and DSS (HR 0.31; 95% CI 0.149-0.622; log-rank p 0.001) compared to tumors with FGFR2b-/FGFR2c+ expression in the large EEC Vancouver cohort. In multivariable Cox regression analyses, tumors with FGFR2b+/FGFR2c- expression were significantly associated with longer DSS (HR 0.37; 95% CI 0.153-0.872; log-rank p 0.023) compared to FGFR2b-/FGFR2c+ tumors. In conclusion, FGFR2b+/FGFR2c- expression is associated with favorable clinicopathologic markers and clinical outcomes suggesting that FGFR2b could play a role in tailoring the management of EEC patients in the clinic if these findings are confirmed in an independent cohort.

Published

2022

42. Xenome - a tool for classifying reads from xenograft samples.

Author

Thomas C. Conway, Jeremy Wazny, Andrew J. Bromage, Martin Tymms, Dhanya Sooraj, Elizabeth D. Williams, and Bryan Beresford-Smith

Published

2012

43. Integrin alpha-2 and beta-1 expression increases through multiple generations of the EDW01 patient-derived xenograft model of breast cancer—insight into their role in epithelial mesenchymal transition in vivo gained from an in vitro model system

Author

Erik W. Thompson, Razan Wafai, Jamie R. Kutasovic, Mark Waltham, Emma de Souza, Cameron Snell, Peter T. Simpson, Amy E. McCart Reed, Tony Blick, Honor J. Hugo, and Elizabeth D. Williams

Subjects

Adult, Epithelial-Mesenchymal Transition, Integrin, Integrin alpha2, Bone Neoplasms, Breast Neoplasms, Vimentin, Protein Serine-Threonine Kinases, lcsh:RC254-282, Extracellular matrix, Mice, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, Cell Movement, Epidermal growth factor, Cell Line, Tumor, Animals, Humans, Breast, Epithelial–mesenchymal transition, Patient-derived xenograft (PDX), Hypoxia, 030304 developmental biology, 0303 health sciences, Gene knockdown, biology, Chemistry, Integrin beta1, Carcinoma, Ductal, Breast, CD44, EMT, Cell migration, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Xenograft Model Antitumor Assays, Up-Regulation, Gene Expression Regulation, Neoplastic, Gene Knockdown Techniques, 030220 oncology & carcinogenesis, embryonic structures, biology.protein, Cancer research, Female, Research Article, Twist1

Abstract

BackgroundBreast cancers acquire aggressive capabilities via epithelial to mesenchymal transition (EMT), in which various integrins/integrin-linked kinase signalling are upregulated.MethodsWe investigated this in two patient-derived xenografts (PDXs) developed from breast-to-bone metastases, and its functional significance in a breast cancer cell line system. ED03 and EDW01 PDXs were grown subcutaneously in immunocompromised SCID mice through 11 passages and 7 passages, respectively. Tumour tissue was assessed using immunohistochemistry (IHC) for oestrogen receptor (ER)-alpha, E-cadherin, vimentin, Twist1, beta-catenin, P120-RasGAP, CD44, CD24 and Ki67, and RT-qPCR of EMT-related factors (CDH1,VIM,CD44,CD24), integrins beta 1 (ITGB1), alpha 2 (ITGA2) andILK. Integrin andILKexpression in epidermal growth factor (EGF)-induced EMT of the PMC42-ET breast cancer cell line was assessed by RT-qPCR and Western blotting, as were the effects of their transient knockdown via small interfering RNA +/− EGF. Cell migration, changes in cell morphology and adhesion of siRNA-transfected PMC42-ET cells to various extracellular matrix (ECM) substrates was assessed.ResultsThe ED03 (ER+/PR−/HER2−/lobular) and EDW01 (ER+/PR−/HER2−/ductal) PDXs were both classified as molecular subtype luminal A. ED03 xenografts exhibited mutated E-cadherin with minimal expression, but remained vimentin-negative across all passages. In EDW01, the hypoxic indicator gene CAIX and Twist1 were co-ordinately upregulated at passages 4–5, corresponding with a decrease in E-cadherin. At passages 6–7,VIMwas upregulated along withITGB1andITGA2, consistent with an increasing EMT. The ED03 PDX displayed minimal change over passages in mice, for all genes examined.ILK,ITGB1andITGA2mRNAs were also increased in the EGF-induced EMT of PMC42-ET cells (in whichCDH1was downregulated) although siRNA against these targets revealed that this induction was not necessary for the observed EMT. However, their knockdown significantly reduced EMT-associated adhesion and Transwell migration.ConclusionOur data suggest that despite an increase inITGA2andITGB1gene expression in the EMT exhibited by EDW01 PDX over multiple generations, this pathway may not necessarily drive the EMT process.

Published

2020

44. FGFR2c Mesenchymal Isoform Expression Is Associated with Poor Prognosis and Further Refines Risk Stratification within Endometrial Cancer Molecular Subtypes

Author

Samuel C.Y. Leung, Aline Talhouk, Pamela M. Pollock, Ann-Marie Patch, Cameron Snell, Asmerom T. Sengal, Elizabeth D. Williams, Deborah Smith, and Jessica N. McAlpine

Subjects

0301 basic medicine, Oncology, Gene isoform, Cancer Research, medicine.medical_specialty, Hysterectomy, DNA Mismatch Repair, Risk Assessment, Endometrium, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Biomarkers, Tumor, Humans, Protein Isoforms, Medicine, Receptor, Fibroblast Growth Factor, Type 2, Aged, Neoplasm Staging, business.industry, Fibroblast growth factor receptor 2, Proportional hazards model, Endometrial cancer, Mesenchymal stem cell, Middle Aged, Prognosis, medicine.disease, Progression-Free Survival, Endometrial Neoplasms, Gene Expression Regulation, Neoplastic, 030104 developmental biology, 030220 oncology & carcinogenesis, Risk stratification, Cohort, Female, DNA mismatch repair, business, Follow-Up Studies

Abstract

Purpose: The two most common molecular subtypes of endometrial cancers, mismatch repair deficient (MMRd) and p53 wild-type (p53wt) comprise the majority of endometrial cancers and have intermediate prognoses where additional risk stratification biomarkers are needed. Isoform switching of FGFR2 from FGFR2b to FGFR2c (normally expressed in mesenchymal cells), has been reported in other solid carcinomas. The objective of this study was to investigate the role of FGFR2c in risk stratification of endometrial cancer. Experimental Design: We have developed and optimized a BaseScope RNA ISH assay to detect FGFR2c. FGFR2c expression was determined in a preliminary screening cohort of 78 endometrial cancers and a clinically and molecularly annotated Vancouver cohort (n = 465). Cox regression model analyses were performed to assess the prognostic value of FGFR2c. Results: Univariate and multivariate analyses revealed FGFR2c expression was significantly associated with shorter disease-specific survival (DSS) and progression-free survival (PFS) in endometrioid endometrial cancer (EEC, n = 302). Notably, FGFR2c expression was significantly associated with shorter PFS and DSS in patients with grade 3 EECs (P < 0.003 and P < 0.002) and the European Society Medical Oncology (ESMO) high-risk group (P < 0.0001 and P < 0.002), respectively. Moreover, within the MMRd subtype, FGFR2c expression was significantly associated with shorter PFS (P < 0.048) and DSS (P < 0.001). Conclusions: FGFR2c expression appears an independent prognostic biomarker in patients with EEC and further discerns the outcomes within grade 3 tumors, ESMO high-risk groups, as well as within the MMRd and p53wt subtypes. FGFR2c inclusion into future molecular subtyping can further refine risk stratification of EEC.

Published

2020

45. The clinical efficacy of PSMA PET/MRI in biochemically recurrent prostate cancer compared with standard of care imaging modalities and confirmatory histopathology: results of a single-centre, prospective clinical trial

Author

Andre Joshi, S. Wood, Marlon Perera, Matthew J. Roberts, Kenneth A. Miles, Peter Heathcote, Margot Lehman, Elizabeth D. Williams, David Pryor, Handoo Rhee, Sonja Gustafson, Ian Vela, and J. Coucher

Subjects

0301 basic medicine, Biochemical recurrence, Cancer Research, medicine.medical_specialty, medicine.diagnostic_test, business.industry, medicine.medical_treatment, Magnetic resonance imaging, General Medicine, urologic and male genital diseases, medicine.disease, Clinical trial, 03 medical and health sciences, Prostate cancer, 030104 developmental biology, 0302 clinical medicine, Oncology, Positron emission tomography, 030220 oncology & carcinogenesis, Biopsy, Medicine, Histopathology, Radiology, External beam radiotherapy, business

Abstract

Prospective evidence for the clinical role and efficacy of prostate specific membrane antigen (PSMA) positron emission tomography (PET)/magnetic resonance imaging (MRI) combining MRI characterization and localization of lesions with PET avidity in comparison to conventional imaging is limited. In a prospective clinical trial, we aimed to evaluate the diagnostic yield and therapeutic impact of PSMA PET/MRI in men with biochemical recurrence (BCR) following curative therapy. A single-centre, prospective clinical trial at the Princess Alexandra Hospital recruited 30 patients with BCR. Patients underwent PSMA PET/MRI and concurrent conventional CT chest, abdomen, pelvis and whole-body bone scan. Biopsy was performed when safety possible for histological correlation of identified lesions. Clinical efficacy and impact of PSMA PET findings were evaluated. 30 patients with BCR were recruited (median PSA 0.69 ng/ml). PSMA avid lesions were present in 21 patients (70%). 23 patients were previously treated with definitive surgery, 6 patients received external beam radiotherapy and 1 patient had low dose rate brachytherapy. A total of 8 of 9 lesions biopsied were positive (88.9% histological correlation). PSMA PET/MRI detected local recurrence (p = 0.005) and pelvic lesions (p = 0.06) more accurately than conventional imaging. PSMA PET/MRI may be useful in staging men with biochemical recurrence, especially when PSA is low. Our data demonstrates a high detection rate, especially for locally recurrent disease, and highlights the role of this modality when PSA is low. This modality has the potential to significantly improve prostate cancer detection and may have implications for earlier salvage treatment, avoidance of futile local therapy and change patient management to lead to improved outcomes.

Published

2020

46. Exploratory cost-effectiveness analysis of 68Gallium-PSMA PET/MRI-based imaging in patients with biochemical recurrence of prostate cancer

Author

Elizabeth D. Williams, Louisa G. Gordon, Andre Joshi, Ian Vela, and Thomas M. Elliott

Subjects

0301 basic medicine, Biochemical recurrence, Cancer Research, medicine.medical_specialty, medicine.diagnostic_test, business.industry, Magnetic resonance imaging, General Medicine, Cost-effectiveness analysis, urologic and male genital diseases, medicine.disease, 03 medical and health sciences, Prostate cancer, 030104 developmental biology, 0302 clinical medicine, Oncology, Positron emission tomography, Surgical oncology, 030220 oncology & carcinogenesis, Medicine, In patient, Radiology, Stage (cooking), business

Abstract

Men treated for prostate cancer with curative intent face a recurrence rate of up to 53% at 10 years. 68Ga-PSMA imaging is a new technique that can more accurately stage cancer recurrences and facilitate personalised treatment. We evaluated the cost-effectiveness of 68Ga-PSMA PET/MRI for staging men with prostate cancer biochemical recurrence. A cost-effectiveness analysis using a decision-analytic model with Markov chains was constructed. 68Ga-PSMA PET/MRI was compared with usual care in staging of men with suspected prostate cancer recurrence. Men with biochemical recurrence from a study in Brisbane, Australia (n = 30) provided key estimates for the model. The primary outcomes were health system costs and years of life (survival) over 10 years. Deterministic and probabilistic sensitivity analyses were undertaken to address uncertainty in model estimates. On average, a strategy of 68Ga-PSMA was expected to cost AU$56 961(US$39 426) and produce 7.48 life years compared with AU$64 499 (US$44 667) and 7.41 life years in usual care. Therefore, 68Ga-PSMA was potentially cost saving (− AU$7 592 95% UI − $24 846, $7 825) (− US$5 258) and slightly more effective 0.07 life years (95% UI − 0.01, 0.16). The likelihood that 68Ga-PSMA strategy was cost-effective at acceptable thresholds was 87%. The findings were sensitive to the lesion detection rate of the 68Ga-PSMA strategy (52–75%) and the cost of follow up in usual care (AU$1 947 to $2 635). In this exploratory economic evaluation, using 68Ga-PSMA PET/MRI to detect prostate cancer recurrence appears to be cost-effective relative to usual care.

Published

2020

47. The molecular function of kallikrein‐related peptidase 14 demonstrates a key modulatory role in advanced prostate cancer

Author

Martin E. Gleave, Colleen C. Nelson, Scott Lovell, Srilakshmi Srinivasan, Anja Rockstroh, Adam Lesner, Janaththani Panchadsaram, Jonathan M. Harris, Cameron Snell, Nathalie Bock, Edward W. Tate, Ladan Fazli, Judith A. Clements, Elizabeth D. Williams, Melanie Lehman, Lakmali Munasinghage Silva, John D. Hooper, Thomas Kryza, and Jyotsna Batra

Subjects

0301 basic medicine, Male, Proteomics, Cancer Research, protease-substrate, INVASION, kallikrein‐related peptidase, Metastasis, Transcriptome, ACTIVATION, PATHWAY, Prostate cancer, MIDKINE, 0302 clinical medicine, Cell Movement, Tandem Mass Spectrometry, castrate-resistant prostate cancer, Databases, Genetic, Tumor Microenvironment, Neoplasm Metastasis, Chromatography, High Pressure Liquid, Research Articles, Midkine, biology, protease‐substrate, General Medicine, prostate cancer, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Immunohistochemistry, Neoadjuvant Therapy, Up-Regulation, Gene Expression Regulation, Neoplastic, Oncology, 030220 oncology & carcinogenesis, Molecular Medicine, GROWTH, Kallikreins, Life Sciences & Biomedicine, Signal Transduction, Research Article, EXPRESSION, Proteases, Down-Regulation, lcsh:RC254-282, 03 medical and health sciences, Cell Line, Tumor, Genetics, medicine, castrate‐resistant prostate cancer, Humans, metastasis, 1112 Oncology and Carcinogenesis, Oncology & Carcinogenesis, Cell Proliferation, Tumor microenvironment, Science & Technology, IDENTIFICATION, Prostatic Neoplasms, protease, Kallikrein, medicine.disease, GENE, Interleukin 32, SERINE-PROTEASE, 030104 developmental biology, kallikrein-related peptidase, KLK14, biology.protein, Cancer research

Abstract

Kallikrein‐related peptidase 14 (KLK14) is one of the several secreted KLK serine proteases involved in prostate cancer (PCa) pathogenesis. While relatively understudied, recent reports have identified KLK14 as overexpressed during PCa development. However, the modulation of KLK14 expression during PCa progression and the molecular and biological functions of this protease in the prostate tumor microenvironment remain unknown. To determine the modulation of KLK14 expression during PCa progression, we analyzed the expression levels of KLK14 in patient samples using publicly available databases and immunohistochemistry. In order to delineate the molecular mechanisms involving KLK14 in PCa progression, we integrated proteomic, transcriptomic, and in vitro assays with the goal to identify substrates, related‐signaling pathways, and functional roles of this protease. We showed that KLK14 expression is elevated in advanced PCa, and particularly in metastasis. Additionally, KLK14 levels were found to be decreased in PCa tissues from patients responsive to neoadjuvant therapy compared to untreated patients. Furthermore, we also identified that KLK14 expression reoccurred in patients who developed castrate‐resistant PCa. The combination of proteomic and transcriptomic analysis as well as functional assays revealed several new KLK14 substrates (agrin, desmoglein 2, vitronectin, laminins) and KLK14‐regulated genes (Interleukin 32, midkine, SRY‐Box 9), particularly an involvement of the mitogen‐activated protein kinase 1 and interleukin 1 receptor pathways, and an involvement of KLK14 in the regulation of cellular migration, supporting its involvement in aggressive features of PCa progression. In conclusion, our work showed that KLK14 expression is associated with the development of aggressive PCa suggesting that targeting this protease could offer a novel route to limit the progression of prostate tumors. Additional work is necessary to determine the benefits and implications of targeting/cotargeting KLK14 in PCa as well as to determine the potential use of KLK14 expression as a predictor of PCa aggressiveness or response to treatment., Kallikrein‐related peptidase 14 (KLK14) is a secreted serine protease belonging to the kallikrein‐related‐peptidase family. We identified that KLK14 is overexpressed in advanced prostate cancer and acts on various substrates involved in adhesion, migration, and invasion of cancer cells, thus modulating genes and signaling pathways essential for prostate cancer progression. These results suggest that KLK14 is a potential target to control aggressiveness of prostate tumors.

Published

2020

48. Modelling the tumor immune microenvironment for precision immunotherapy

Author

Nathan J Mackenzie, Clarissa Nicholls, Abby R Templeton, Mahasha PJ Perera, Penny L Jeffery, Kate Zimmermann, Arutha Kulasinghe, Tony J Kenna, Ian Vela, Elizabeth D Williams, and Patrick B Thomas

Subjects

Immunology, Immunology and Allergy, General Nursing

Abstract

The complexity of the cellular and acellular players within the tumor microenvironment (TME) allows for significant variation in TME constitution and role in anticancer treatment response. Spatial alterations in populations of tumor cells and adjacent non-malignant cells, including endothelial cells, fibroblasts and tissue-infiltrating immune cells, often have a major role in determining disease progression and treatment response in cancer. Many current standard systemic antineoplastic treatments target the cancer cells and could be further refined to directly target commonly dysregulated cell populations of the TME. Recent developments in immuno-oncology and bioengineering have created an attractive potential to model these complexities at the level of the individual patient. These developments, along with the increasing momentum in precision medicine research and application, have catalysed exciting new discoveries in understanding drug-TME interactions, target identification, and improved efficacy of therapies. While rapid progress has been made, there are still many challenges to overcome in the development of accurate

Published

2022

49. Culture of Bladder Cancer Organoids as Precision Medicine Tools

Author

Elizabeth D. Williams, Ian Vela, Penny L. Jeffery, Nathan J. Mackenzie, Jack R. Wood, Abby R. Templeton, Alivia R. Calabrese, Caitlin P. Devonport, Clarissa Nicholls, Paria Saadat, Andre Joshi, Saeid Alinezhad, Mahasha P. J. Perera, and Patrick B. Thomas

Subjects

Organoids, Urologic Neoplasms, Urinary Bladder Neoplasms, General Immunology and Microbiology, General Chemical Engineering, General Neuroscience, Humans, Precision Medicine, General Biochemistry, Genetics and Molecular Biology

Abstract

Current in vitro therapeutic testing platforms lack relevance to tumor pathophysiology, typically employing cancer cell lines established as two-dimensional (2D) cultures on tissue culture plastic. There is a critical need for more representative models of tumor complexity that can accurately predict therapeutic response and sensitivity. The development of three-dimensional (3D) ex vivo culture of patient-derived organoids (PDOs), derived from fresh tumor tissues, aims to address these shortcomings. Organoid cultures can be used as tumor surrogates in parallel to routine clinical management to inform therapeutic decisions by identifying potential effective interventions and indicating therapies that may be futile. Here, this procedure aims to describe strategies and a detailed step-by-step protocol to establish bladder cancer PDOs from fresh, viable clinical tissue. Our well-established, optimized protocols are practical to set up 3D cultures for experiments using limited and diverse starting material directly from patients or patient-derived xenograft (PDX) tumor material. This procedure can also be employed by most laboratories equipped with standard tissue culture equipment. The organoids generated using this protocol can be used as ex vivo surrogates to understand both the molecular mechanisms underpinning urological cancer pathology and to evaluate treatments to inform clinical management.

Published

2021

50. Chimeric Antigen Receptor T-Cell Therapy in Metastatic Castrate-Resistant Prostate Cancer

Author

Mahasha P.J. Perera, Patrick B. Thomas, Gail P. Risbridger, Renea Taylor, Arun Azad, Michael S. Hofman, Elizabeth D. Williams, and Ian Vela

Subjects

Cancer Research, Oncology, metastatic castrate-resistant prostate cancer, chimeric antigen receptor therapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, prostate cancer, adoptive immunotherapy, adoptive cell transfer, RC254-282, CAR-T

Abstract

Prostate cancer is the most commonly diagnosed solid-organ cancer amongst males worldwide. Metastatic castrate-resistant prostate cancer (mCRPC) is a rapidly fatal end-sequelae of prostate cancer. Therapeutic options for men with mCRPC are limited and are not curative in nature. The recent development of chimeric antigen receptor T-cell (CAR-T) therapy has revolutionised the treatment of treatment-resistant haematological malignancies, and several studies are underway investigating the utility of this technology in the treatment of solid tumours. In this review, we evaluate the current treatment options for men with mCRPC as well as the current landscape of preclinical and clinical trials of CAR-T cell therapy against prostate cancer. We also appraise the various prostate cancer-specific tumour-associated antigens that may be targeted by CAR-T cell technology. Finally, we examine the potential translational barriers of CAR-T cell therapy in solid tumours. Despite preclinical success, preliminary clinical trials in men with prostate cancer have had limited efficacy. Therefore, further clinically translatable preclinical models are required to enhance the understanding of the role of this investigational therapeutic in men with mCRPC. In the era of precision medicine, tailored immunotherapy administered to men in a tumour-agnostic approach provides hope to a group of men who otherwise have few treatment options available.

Published

2021