Your search keyword '"Paul Timpson"' showing total 259 results

1. Tumor Biomechanics Alters Metastatic Dissemination of Triple Negative Breast Cancer via Rewiring Fatty Acid Metabolism

Author

Elysse C. Filipe, Sipiththa Velayuthar, Ashleigh Philp, Max Nobis, Sharissa L. Latham, Amelia L. Parker, Kendelle J. Murphy, Kaitlin Wyllie, Gretel S. Major, Osvaldo Contreras, Ellie T. Y. Mok, Ronaldo F. Enriquez, Suzanne McGowan, Kristen Feher, Lake‐Ee Quek, Sarah E. Hancock, Michelle Yam, Emmi Tran, Yordanos F. I. Setargew, Joanna N. Skhinas, Jessica L. Chitty, Monica Phimmachanh, Jeremy Z. R. Han, Antonia L. Cadell, Michael Papanicolaou, Hadi Mahmodi, Beata Kiedik, Simon Junankar, Samuel E. Ross, Natasha Lam, Rhiannon Coulson, Jessica Yang, Anaiis Zaratzian, Andrew M. Da Silva, Michael Tayao, Ian L. Chin, Aurélie Cazet, Maya Kansara, Davendra Segara, Andrew Parker, Andrew J. Hoy, Richard P. Harvey, Ozren Bogdanovic, Paul Timpson, David R. Croucher, Elgene Lim, Alexander Swarbrick, Jeff Holst, Nigel Turner, Yu Suk Choi, Irina V. Kabakova, Andrew Philp, and Thomas R. Cox

Subjects

biomechanics, breast cancer, extracellular matrix, metabolism, metastasis, Science

Abstract

Abstract In recent decades, the role of tumor biomechanics on cancer cell behavior at the primary site has been increasingly appreciated. However, the effect of primary tumor biomechanics on the latter stages of the metastatic cascade, such as metastatic seeding of secondary sites and outgrowth remains underappreciated. This work sought to address this in the context of triple negative breast cancer (TNBC), a cancer type known to aggressively disseminate at all stages of disease progression. Using mechanically tuneable model systems, mimicking the range of stiffness's typically found within breast tumors, it is found that, contrary to expectations, cancer cells exposed to softer microenvironments are more able to colonize secondary tissues. It is shown that heightened cell survival is driven by enhanced metabolism of fatty acids within TNBC cells exposed to softer microenvironments. It is demonstrated that uncoupling cellular mechanosensing through integrin β1 blocking antibody effectively causes stiff primed TNBC cells to behave like their soft counterparts, both in vitro and in vivo. This work is the first to show that softer tumor microenvironments may be contributing to changes in disease outcome by imprinting on TNBC cells a greater metabolic flexibility and conferring discrete cell survival advantages.

Published

2024

2. Temporal profiling of the breast tumour microenvironment reveals collagen XII as a driver of metastasis

Author

Michael Papanicolaou, Amelia L. Parker, Michelle Yam, Elysse C. Filipe, Sunny Z. Wu, Jessica L. Chitty, Kaitlin Wyllie, Emmi Tran, Ellie Mok, Audrey Nadalini, Joanna N. Skhinas, Morghan C. Lucas, David Herrmann, Max Nobis, Brooke A. Pereira, Andrew M. K. Law, Lesley Castillo, Kendelle J. Murphy, Anaiis Zaratzian, Jordan F. Hastings, David R. Croucher, Elgene Lim, Brian G. Oliver, Fatima Valdes Mora, Benjamin L. Parker, David Gallego-Ortega, Alexander Swarbrick, Sandra O’Toole, Paul Timpson, and Thomas R. Cox

Subjects

Science

Abstract

The distribution and organisation of matrix molecules in the tumour stroma help shape solid tumour progression. Here they perform temporal proteomic profiling of the matrisome during breast cancer progression and show that collagen XII secreted from CAFs provides a pro-invasive microenvironment.

Published

2022

3. Pathway profiling of a novel SRC inhibitor, AZD0424, in combination with MEK inhibitors for cancer treatment

Author

John C. Dawson, Alison Munro, Kenneth Macleod, Morwenna Muir, Paul Timpson, Robert J. Williams, Margaret Frame, Valerie G. Brunton, and Neil O. Carragher

Subjects

drug combinations, MEK inhibitor, reverse‐phase protein array, SRC inhibitor, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

A more comprehensive understanding of how cells respond to drug intervention, the likely immediate signalling responses and how resistance may develop within different microenvironments will help inform treatment regimes. The nonreceptor tyrosine kinase SRC regulates many cellular signalling processes, and pharmacological inhibition has long been a target of cancer drug discovery projects. Here, we describe the in vitro and in vivo characterisation of the small‐molecule SRC inhibitor AZD0424. We show that AZD0424 potently inhibits the phosphorylation of tyrosine‐419 of SRC (IC50 ~ 100 nm) in many cancer cell lines; however, inhibition of cell viability, via a G1 cell cycle arrest, was observed only in a subset of cancer cell lines in the low (on target) micromolar range. We profiled the changes in intracellular pathway signalling in cancer cells following exposure to AZD0424 and other targeted therapies using reverse‐phase protein array (RPPA) analysis. We demonstrate that SRC is activated in response to treatment of KRAS‐mutant colorectal cell lines with MEK inhibitors (trametinib or AZD6244) and that AZD0424 abrogates this. Cell lines treated with trametinib or AZD6244 in combination with AZD0424 had reduced EGFR, FAK and SRC compensatory activation, and cell viability was synergistically inhibited. In vivo, trametinib treatment of mice‐bearing HCT116 tumours increased phosphorylation of SRC on Tyr419, and, when combined with AZD0424, inhibition of tumour growth was greater than with trametinib alone. We also demonstrate that drug‐induced resistance to trametinib is not re‐sensitised by AZD0424 treatment in vitro, likely as a result of multiple compensatory signalling mechanisms; however, inhibition of SRC remains an effective way to block invasion of trametinib‐resistant tumour cells. These data imply that SRC inhibition may offer a useful addition to MEK inhibitor combination strategies.

Published

2022

4. Annexin A6 and NPC1 regulate LDL-inducible cell migration and distribution of focal adhesions

Author

Jaimy Jose, Monira Hoque, Johanna Engel, Syed S. Beevi, Mohamed Wahba, Mariya Ilieva Georgieva, Kendelle J. Murphy, William E. Hughes, Blake J. Cochran, Albert Lu, Francesc Tebar, Andrew J. Hoy, Paul Timpson, Kerry-Anne Rye, Carlos Enrich, Carles Rentero, and Thomas Grewal

Subjects

Medicine, Science

Abstract

Abstract Cholesterol is considered indispensable for cell motility, but how physiological cholesterol pools enable cells to move forward remains to be clarified. The majority of cells obtain cholesterol from the uptake of Low-Density lipoproteins (LDL) and here we demonstrate that LDL stimulates A431 squamous epithelial carcinoma and Chinese hamster ovary (CHO) cell migration and invasion. LDL also potentiated epidermal growth factor (EGF) -stimulated A431 cell migration as well as A431 invasion in 3-dimensional environments, using organotypic assays. Blocking cholesterol export from late endosomes (LE), using Niemann Pick Type C1 (NPC1) mutant cells, pharmacological NPC1 inhibition or overexpression of the annexin A6 (AnxA6) scaffold protein, compromised LDL-inducible migration and invasion. Nevertheless, NPC1 mutant cells established focal adhesions (FA) that contain activated focal adhesion kinase (pY397FAK, pY861FAK), vinculin and paxillin. Compared to controls, NPC1 mutants display increased FA numbers throughout the cell body, but lack LDL-inducible FA formation at cell edges. Strikingly, AnxA6 depletion in NPC1 mutant cells, which restores late endosomal cholesterol export in these cells, increases their cell motility and association of the cholesterol biosensor D4H with active FAK at cell edges, indicating that AnxA6-regulated transport routes contribute to cholesterol delivery to FA structures, thereby improving NPC1 mutant cell migratory behaviour.

Published

2022

5. Overcoming the senescence‐associated secretory phenotype (SASP): a complex mechanism of resistance in the treatment of cancer

Author

Cecilia R. Chambers, Shona Ritchie, Brooke A. Pereira, and Paul Timpson

Subjects

cancer, cellular senescence, senescence‐associated secretory phenotype, therapy‐induced senescence, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Senescence is a cellular state in which cells undergo persistent cell cycle arrest in response to nonlethal stress. In the treatment of cancer, senescence induction is a potent method of suppressing tumour cell proliferation. In spite of this, senescent cancer cells and adjacent nontransformed cells of the tumour microenvironment can remain metabolically active, resulting in paradoxical secretion of pro‐inflammatory factors, collectively termed the senescence‐associated secretory phenotype (SASP). The SASP plays a critical role in tumorigenesis, affecting numerous processes including invasion, metastasis, epithelial‐to‐mesenchymal transition (EMT) induction, therapy resistance and immunosuppression. With increasing evidence, it is becoming clear that cell type, tissue of origin and the primary cellular stressor are key determinants in how the SASP will influence tumour development and progression, including whether it will be pro‐ or antitumorigenic. In this review, we will focus on recent evidence regarding therapy‐induced senescence (TIS) from anticancer agents, including chemotherapy, radiation, immunotherapy, and targeted therapies, and how each therapy can trigger the SASP, which in turn influences treatment efficacy. We will also discuss novel pharmacological manipulation of senescent cancer cells and the SASP, which offers an exciting and contemporary approach to cancer therapeutics. With future research, these adjuvant options may help to mitigate many of the negative side effects and protumorigenic roles that are currently associated with TIS in cancer.

Published

2021

6. Cell-derived Matrix Assays to Assess Extracellular Matrix Architecture and Track Cell Movement

Author

Kendelle Murphy, Daniel Reed, Cecilia Chambers, Jessie Zhu, Astrid Magenau, Brooke Pereira, Paul Timpson, and David Herrmann

Subjects

Biology (General), QH301-705.5

Abstract

The extracellular matrix (ECM) is a non-cellular network of macromolecules, which provides cells and tissues with structural support and biomechanical feedback to regulate cellular function, tissue tension, and homeostasis. Even subtle changes to ECM abundance, architecture, and organization can affect downstream biological pathways, thereby influencing normal cell and tissue function and also driving disease conditions. For example, in cancer, the ECM is well known to provide both biophysical and biochemical cues that influence cancer initiation, progression, and metastasis, highlighting the need to better understand cell–ECM interactions in cancer and other ECM-enriched diseases. Initial cell-derived matrix (CDM) models were used as an in vitro system to mimic and assess the physiologically relevant three-dimensional (3D) cell–ECM interactions. Here, we describe an expansion to these initial CDM models generated by fibroblasts to assess the effect of genetic or pharmacological intervention on fibroblast-mediated matrix production and organization. Additionally, we highlight current methodologies to quantify changes in the ultrastructure and isotropy of the resulting ECM and also provide protocols for assessing cancer cell interaction with CDMs. Understanding the nature and influence of these complex and heterogeneous processes can offer insights into the biomechanical and biochemical mechanisms, which drive cancer development and metastasis, and how we can target them to improve cancer outcomes.

Published

2022

7. Single cell transcriptome atlas of mouse mammary epithelial cells across development

Author

Bhupinder Pal, Yunshun Chen, Michael J. G. Milevskiy, François Vaillant, Lexie Prokopuk, Caleb A. Dawson, Bianca D. Capaldo, Xiaoyu Song, Felicity Jackling, Paul Timpson, Geoffrey J. Lindeman, Gordon K. Smyth, and Jane E. Visvader

Subjects

Single cell transcriptome, Molecular heterogeneity, Mammary gland development, Progenitors, Terminal end bud, Chromatin accessibility, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Heterogeneity within the mouse mammary epithelium and potential lineage relationships have been recently explored by single-cell RNA profiling. To further understand how cellular diversity changes during mammary ontogeny, we profiled single cells from nine different developmental stages spanning late embryogenesis, early postnatal, prepuberty, adult, mid-pregnancy, late-pregnancy, and post-involution, as well as the transcriptomes of micro-dissected terminal end buds (TEBs) and subtending ducts during puberty. Methods The single cell transcriptomes of 132,599 mammary epithelial cells from 9 different developmental stages were determined on the 10x Genomics Chromium platform, and integrative analyses were performed to compare specific time points. Results The mammary rudiment at E18.5 closely aligned with the basal lineage, while prepubertal epithelial cells exhibited lineage segregation but to a less differentiated state than their adult counterparts. Comparison of micro-dissected TEBs versus ducts showed that luminal cells within TEBs harbored intermediate expression profiles. Ductal basal cells exhibited increased chromatin accessibility of luminal genes compared to their TEB counterparts suggesting that lineage-specific chromatin is established within the subtending ducts during puberty. An integrative analysis of five stages spanning the pregnancy cycle revealed distinct stage-specific profiles and the presence of cycling basal, mixed-lineage, and 'late' alveolar intermediates in pregnancy. Moreover, a number of intermediates were uncovered along the basal-luminal progenitor cell axis, suggesting a continuum of alveolar-restricted progenitor states. Conclusions This extended single cell transcriptome atlas of mouse mammary epithelial cells provides the most complete coverage for mammary epithelial cells during morphogenesis to date. Together with chromatin accessibility analysis of TEB structures, it represents a valuable framework for understanding developmental decisions within the mouse mammary gland.

Published

2021

8. Oral administration of bovine milk-derived extracellular vesicles induces senescence in the primary tumor but accelerates cancer metastasis

Author

Monisha Samuel, Pamali Fonseka, Rahul Sanwlani, Lahiru Gangoda, Sing Ho Chee, Shivakumar Keerthikumar, Alex Spurling, Sai V. Chitti, Damien Zanker, Ching-Seng Ang, Ishara Atukorala, Taeyoung Kang, Sanjay Shahi, Akbar L. Marzan, Christina Nedeva, Claire Vennin, Morghan C. Lucas, Lesley Cheng, David Herrmann, Mohashin Pathan, David Chisanga, Sean C. Warren, Kening Zhao, Nidhi Abraham, Sushma Anand, Stephanie Boukouris, Christopher G. Adda, Lanzhou Jiang, Tanmay M. Shekhar, Nikola Baschuk, Christine J. Hawkins, Amelia J. Johnston, Jacqueline Monique Orian, Nicholas J. Hoogenraad, Ivan K. Poon, Andrew F. Hill, Markandeya Jois, Paul Timpson, Belinda S. Parker, and Suresh Mathivanan

Subjects

Science

Abstract

Dietary extracellular vesicles (EVs) could potentially be absorbed by the intestinal tract of the host and exert multiple phenotypic changes. Here, the authors isolate and characterize EVs from raw and commercial bovine milk and show orally administered EVs to have a context specific role in promoting or suppressing primary tumor growth and metastasis in multiple mouse tumor models.

Published

2021

9. Peripheral-specific Y1 receptor antagonism increases thermogenesis and protects against diet-induced obesity

Author

Chenxu Yan, Tianshu Zeng, Kailun Lee, Max Nobis, Kim Loh, Luoning Gou, Zefeng Xia, Zhongmin Gao, Mohammed Bensellam, Will Hughes, Jackie Lau, Lei Zhang, Chi Kin Ip, Ronaldo Enriquez, Hanyu Gao, Qiao-Ping Wang, Qi Wu, Jody J. Haigh, D. Ross Laybutt, Paul Timpson, Herbert Herzog, and Yan-Chuan Shi

Subjects

Science

Abstract

Neuropeptide Y signalling in the periphery contributes to the regulation of metabolic and energy homeostasis. Here the authors show that blocking Y1R signalling in peripheral tissues using the selective antagonist BIBO3304 ameliorates diet-induced obesity and improves whole-body glucose metabolism.

Published

2021

10. Ex vivo culture of intact human patient derived pancreatic tumour tissue

Author

John Kokkinos, George Sharbeen, Koroush S. Haghighi, Rosa Mistica C. Ignacio, Chantal Kopecky, Estrella Gonzales-Aloy, Janet Youkhana, Paul Timpson, Brooke A. Pereira, Shona Ritchie, Elvis Pandzic, Cyrille Boyer, Thomas P. Davis, Lisa M. Butler, David Goldstein, Joshua A. McCarroll, and Phoebe A. Phillips

Subjects

Medicine, Science

Abstract

Abstract The poor prognosis of pancreatic ductal adenocarcinoma (PDAC) is attributed to the highly fibrotic stroma and complex multi-cellular microenvironment that is difficult to fully recapitulate in pre-clinical models. To fast-track translation of therapies and to inform personalised medicine, we aimed to develop a whole-tissue ex vivo explant model that maintains viability, 3D multicellular architecture, and microenvironmental cues of human pancreatic tumours. Patient-derived surgically-resected PDAC tissue was cut into 1–2 mm explants and cultured on gelatin sponges for 12 days. Immunohistochemistry revealed that human PDAC explants were viable for 12 days and maintained their original tumour, stromal and extracellular matrix architecture. As proof-of-principle, human PDAC explants were treated with Abraxane and we observed different levels of response between patients. PDAC explants were also transfected with polymeric nanoparticles + Cy5-siRNA and we observed abundant cytoplasmic distribution of Cy5-siRNA throughout the PDAC explants. Overall, our novel model retains the 3D architecture of human PDAC and has advantages over standard organoids: presence of functional multi-cellular stroma and fibrosis, and no tissue manipulation, digestion, or artificial propagation of organoids. This provides unprecedented opportunity to study PDAC biology including tumour-stromal interactions and rapidly assess therapeutic response to drive personalised treatment.

Published

2021

11. Optimizing metastatic-cascade-dependent Rac1 targeting in breast cancer: Guidance using optical window intravital FRET imaging

Author

Alessia Floerchinger, Kendelle J. Murphy, Sharissa L. Latham, Sean C. Warren, Andrew T. McCulloch, Young-Kyung Lee, Janett Stoehr, Pauline Mélénec, Cris S. Guaman, Xanthe L. Metcalf, Victoria Lee, Anaiis Zaratzian, Andrew Da Silva, Michael Tayao, Sonia Rolo, Monica Phimmachanh, Ghazal Sultani, Laura McDonald, Susan M. Mason, Nicola Ferrari, Lisa M. Ooms, Anna-Karin E. Johnsson, Heather J. Spence, Michael F. Olson, Laura M. Machesky, Owen J. Sansom, Jennifer P. Morton, Christina A. Mitchell, Michael S. Samuel, David R. Croucher, Heidi C.E. Welch, Karen Blyth, C. Elizabeth Caldon, David Herrmann, Kurt I. Anderson, Paul Timpson, and Max Nobis

Subjects

intravital imaging, small GTPases, Rac1, FLIM, FRET biosensors, metastasis, Biology (General), QH301-705.5

Abstract

Summary: Assessing drug response within live native tissue provides increased fidelity with regards to optimizing efficacy while minimizing off-target effects. Here, using longitudinal intravital imaging of a Rac1-Förster resonance energy transfer (FRET) biosensor mouse coupled with in vivo photoswitching to track intratumoral movement, we help guide treatment scheduling in a live breast cancer setting to impair metastatic progression. We uncover altered Rac1 activity at the center versus invasive border of tumors and demonstrate enhanced Rac1 activity of cells in close proximity to live tumor vasculature using optical window imaging. We further reveal that Rac1 inhibition can enhance tumor cell vulnerability to fluid-flow-induced shear stress and therefore improves overall anti-metastatic response to therapy during transit to secondary sites such as the lung. Collectively, this study demonstrates the utility of single-cell intravital imaging in vivo to demonstrate that Rac1 inhibition can reduce tumor progression and metastases in an autochthonous setting to improve overall survival.

Published

2021

12. Morphogenesis of extra-embryonic tissues directs the remodelling of the mouse embryo at implantation

Author

Neophytos Christodoulou, Antonia Weberling, Douglas Strathdee, Kurt I. Anderson, Paul Timpson, and Magdalena Zernicka-Goetz

Subjects

Science

Abstract

How the shape of the pre-implantation murine embryo changes dramatically upon implantation is unclear. Here, the authors use live imaging with a cdx2-GFP reporter line in combination with loss of function experiments to demonstrate that FGF signalling mediated trophectoderm morphogenesis orchestrates this process.

Published

2019

13. CAF hierarchy driven by pancreatic cancer cell p53-status creates a pro-metastatic and chemoresistant environment via perlecan

Author

Claire Vennin, Pauline Mélénec, Romain Rouet, Max Nobis, Aurélie S. Cazet, Kendelle J. Murphy, David Herrmann, Daniel A. Reed, Morghan C. Lucas, Sean C. Warren, Zehra Elgundi, Mark Pinese, Gabriella Kalna, Daniel Roden, Monisha Samuel, Anaiis Zaratzian, Shane T. Grey, Andrew Da Silva, Wilfred Leung, Australian Pancreatic Genome Initiative (APGI), Suresh Mathivanan, Yingxiao Wang, Anthony W. Braithwaite, Daniel Christ, Ales Benda, Ashleigh Parkin, Phoebe A. Phillips, John M. Whitelock, Anthony J. Gill, Owen J. Sansom, David R. Croucher, Benjamin L. Parker, Marina Pajic, Jennifer P. Morton, Thomas R. Cox, and Paul Timpson

Subjects

Science

Abstract

Subtypes of cancer associated fibroblasts can both promote and suppress tumorigenesis. Here, the authors investigate how p53 status in pancreatic cancer cells affects their interaction with cancer associated fibroblasts, and report perlecan as a mediator of the pro-metastatic environment.

Published

2019

14. Targeting promiscuous heterodimerization overcomes innate resistance to ERBB2 dimerization inhibitors in breast cancer

Author

Sean P. Kennedy, Jeremy Z. R. Han, Neil Portman, Max Nobis, Jordan F. Hastings, Kendelle J. Murphy, Sharissa L. Latham, Antonia L. Cadell, Dushan Miladinovic, Gabriella R. Marriott, Yolande E. I. O’Donnell, Robert F. Shearer, James T. Williams, Amaya Garcia Munoz, Thomas R. Cox, D. Neil Watkins, Darren N. Saunders, Paul Timpson, Elgene Lim, Walter Kolch, and David R. Croucher

Subjects

ERBB2, Pertuzumab, Receptor tyrosine kinases, Breast cancer, Heterodimers, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background The oncogenic receptor tyrosine kinase (RTK) ERBB2 is known to dimerize with other EGFR family members, particularly ERBB3, through which it potently activates PI3K signalling. Antibody-mediated inhibition of this ERBB2/ERBB3/PI3K axis has been a cornerstone of treatment for ERBB2-amplified breast cancer patients for two decades. However, the lack of response and the rapid onset of relapse in many patients now question the assumption that the ERBB2/ERBB3 heterodimer is the sole relevant effector target of these therapies. Methods Through a systematic protein-protein interaction screen, we have identified and validated alternative RTKs that interact with ERBB2. Using quantitative readouts of signalling pathway activation and cell proliferation, we have examined their influence upon the mechanism of trastuzumab- and pertuzumab-mediated inhibition of cell growth in ERBB2-amplified breast cancer cell lines and a patient-derived xenograft model. Results We now demonstrate that inactivation of ERBB3/PI3K by these therapeutic antibodies is insufficient to inhibit the growth of ERBB2-amplified breast cancer cells. Instead, we show extensive promiscuity between ERBB2 and an array of RTKs from outside of the EGFR family. Paradoxically, pertuzumab also acts as an artificial ligand to promote ERBB2 activation and ERK signalling, through allosteric activation by a subset of these non-canonical RTKs. However, this unexpected activation mechanism also increases the sensitivity of the receptor network to the ERBB2 kinase inhibitor lapatinib, which in combination with pertuzumab, displays a synergistic effect in single-agent resistant cell lines and PDX models. Conclusions The interaction of ERBB2 with a number of non-canonical RTKs activates a compensatory signalling response following treatment with pertuzumab, although a counter-intuitive combination of ERBB2 antibody therapy and a kinase inhibitor can overcome this innate therapeutic resistance.

Published

2019

15. A non-genetic, cell cycle-dependent mechanism of platinum resistance in lung adenocarcinoma

Author

Alvaro Gonzalez Rajal, Kamila A Marzec, Rachael A McCloy, Max Nobis, Venessa Chin, Jordan F Hastings, Kaitao Lai, Marina Kennerson, William E Hughes, Vijesh Vaghjiani, Paul Timpson, Jason E Cain, D Neil Watkins, David R Croucher, and Andrew Burgess

Subjects

53BP1, PARP1, DNA repair, BRCA1, mitosis, cell cycle, Medicine, Science, Biology (General), QH301-705.5

Abstract

We previously used a pulse-based in vitro assay to unveil targetable signalling pathways associated with innate cisplatin resistance in lung adenocarcinoma (Hastings et al., 2020). Here, we advanced this model system and identified a non-genetic mechanism of resistance that drives recovery and regrowth in a subset of cells. Using RNAseq and a suite of biosensors to track single-cell fates both in vitro and in vivo, we identified that early S phase cells have a greater ability to maintain proliferative capacity, which correlated with reduced DNA damage over multiple generations. In contrast, cells in G1, late S or those treated with PARP/RAD51 inhibitors, maintained higher levels of DNA damage and underwent prolonged S/G2 phase arrest and senescence. Combined with our previous work, these data indicate that there is a non-genetic mechanism of resistance in human lung adenocarcinoma that is dependent on the cell cycle stage at the time of cisplatin exposure.

Published

2021

16. Single-cell transcriptomics reveals involution mimicry during the specification of the basal breast cancer subtype

Author

Fátima Valdés-Mora, Robert Salomon, Brian Stewart Gloss, Andrew Man Kit Law, Jeron Venhuizen, Lesley Castillo, Kendelle Joan Murphy, Astrid Magenau, Michael Papanicolaou, Laura Rodriguez de la Fuente, Daniel Lee Roden, Yolanda Colino-Sanguino, Zoya Kikhtyak, Nona Farbehi, James Ronald William Conway, Neblina Sikta, Samantha Richelle Oakes, Thomas Robert Cox, Seán Ignatius O’Donoghue, Paul Timpson, Christopher John Ormandy, and David Gallego-Ortega

Subjects

scRNA-seq, basal breast cancer, alveolar lineage, cancer-associated fibroblast, involution, pregnancy-associated breast cancer, Biology (General), QH301-705.5

Abstract

Summary: Basal breast cancer is associated with younger age, early relapse, and a high mortality rate. Here, we use unbiased droplet-based single-cell RNA sequencing (RNA-seq) to elucidate the cellular basis of tumor progression during the specification of the basal breast cancer subtype from the luminal progenitor population in the MMTV-PyMT (mouse mammary tumor virus-polyoma middle tumor-antigen) mammary tumor model. We find that basal-like cancer cells resemble the alveolar lineage that is specified upon pregnancy and encompass the acquisition of an aberrant post-lactation developmental program of involution that triggers remodeling of the tumor microenvironment and metastatic dissemination. This involution mimicry is characterized by a highly interactive multicellular network, with involution cancer-associated fibroblasts playing a pivotal role in extracellular matrix remodeling and immunosuppression. Our results may partially explain the increased risk and poor prognosis of breast cancer associated with childbirth.

Published

2021

17. Ral GTPases promote breast cancer metastasis by controlling biogenesis and organ targeting of exosomes

Author

Shima Ghoroghi, Benjamin Mary, Annabel Larnicol, Nandini Asokan, Annick Klein, Naël Osmani, Ignacio Busnelli, François Delalande, Nicodème Paul, Sébastien Halary, Frédéric Gros, Laetitia Fouillen, Anne-Marie Haeberle, Cathy Royer, Coralie Spiegelhalter, Gwennan André-Grégoire, Vincent Mittelheisser, Alexandre Detappe, Kendelle Murphy, Paul Timpson, Raphaël Carapito, Marcel Blot-Chabaud, Julie Gavard, Christine Carapito, Nicolas Vitale, Olivier Lefebvre, Jacky G Goetz, and Vincent Hyenne

Subjects

exosome, Ral GTPase, pre-metastatic niche, Medicine, Science, Biology (General), QH301-705.5

Abstract

Cancer extracellular vesicles (EVs) shuttle at distance and fertilize pre-metastatic niches facilitating subsequent seeding by tumor cells. However, the link between EV secretion mechanisms and their capacity to form pre-metastatic niches remains obscure. Using mouse models, we show that GTPases of the Ral family control, through the phospholipase D1, multi-vesicular bodies homeostasis and tune the biogenesis and secretion of pro-metastatic EVs. Importantly, EVs from RalA or RalB depleted cells have limited organotropic capacities in vivoand are less efficient in promoting metastasis. RalA and RalB reduce the EV levels of the adhesion molecule MCAM/CD146, which favors EV-mediated metastasis by allowing EVs targeting to the lungs. Finally, RalA, RalB, and MCAM/CD146, are factors of poor prognosis in breast cancer patients. Altogether, our study identifies RalGTPases as central molecules linking the mechanisms of EVs secretion and cargo loading to their capacity to disseminate and induce pre-metastatic niches in a CD146-dependent manner.

Published

2021

18. ROBO2 is a stroma suppressor gene in the pancreas and acts via TGF-β signalling

Author

Andreia V. Pinho, Mathias Van Bulck, Lorraine Chantrill, Mehreen Arshi, Tatyana Sklyarova, David Herrmann, Claire Vennin, David Gallego-Ortega, Amanda Mawson, Marc Giry-Laterriere, Astrid Magenau, Gunther Leuckx, Luc Baeyens, Anthony J. Gill, Phoebe Phillips, Paul Timpson, Andrew V. Biankin, Jianmin Wu, and Ilse Rooman

Subjects

Science

Abstract

SLIT-ROBO alterations arise in pancreatic ductal adenocarcinoma (PDAC), but their role in the pancreas is unclear. Here, the authors use mouse models to show that loss of epithelial Robo2 activates the neighbouring stroma via TGF-β signalling; findings are relevant to PDAC patients, where ROBO expression correlates with survival outcomes.

Published

2018

19. CEP55 is a determinant of cell fate during perturbed mitosis in breast cancer

Author

Murugan Kalimutho, Debottam Sinha, Jessie Jeffery, Katia Nones, Sriganesh Srihari, Winnie C Fernando, Pascal HG Duijf, Claire Vennin, Prahlad Raninga, Devathri Nanayakkara, Deepak Mittal, Jodi M Saunus, Sunil R Lakhani, J Alejandro López, Kevin J Spring, Paul Timpson, Brian Gabrielli, Nicola Waddell, and Kum Kum Khanna

Subjects

aneuploidy, breast cancer, centrosomal protein, CEP55, genomic instability, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract The centrosomal protein, CEP55, is a key regulator of cytokinesis, and its overexpression is linked to genomic instability, a hallmark of cancer. However, the mechanism by which it mediates genomic instability remains elusive. Here, we showed that CEP55 overexpression/knockdown impacts survival of aneuploid cells. Loss of CEP55 sensitizes breast cancer cells to anti‐mitotic agents through premature CDK1/cyclin B activation and CDK1 caspase‐dependent mitotic cell death. Further, we showed that CEP55 is a downstream effector of the MEK1/2‐MYC axis. Blocking MEK1/2‐PLK1 signaling therefore reduced outgrowth of basal‐like syngeneic and human breast tumors in in vivo models. In conclusion, high CEP55 levels dictate cell fate during perturbed mitosis. Forced mitotic cell death by blocking MEK1/2‐PLK1 represents a potential therapeutic strategy for MYC‐CEP55‐dependent basal‐like, triple‐negative breast cancers.

Published

2018

20. Targeting stromal remodeling and cancer stem cell plasticity overcomes chemoresistance in triple negative breast cancer

Author

Aurélie S. Cazet, Mun N. Hui, Benjamin L. Elsworth, Sunny Z. Wu, Daniel Roden, Chia-Ling Chan, Joanna N. Skhinas, Raphaël Collot, Jessica Yang, Kate Harvey, M. Zahied Johan, Caroline Cooper, Radhika Nair, David Herrmann, Andrea McFarland, Niantao Deng, Manuel Ruiz-Borrego, Federico Rojo, José M. Trigo, Susana Bezares, Rosalía Caballero, Elgene Lim, Paul Timpson, Sandra O’Toole, D. Neil Watkins, Thomas R. Cox, Michael S. Samuel, Miguel Martín, and Alexander Swarbrick

Subjects

Science

Abstract

Stromal cell recruitment, activation and crosstalk with cancer cells is poorly understood. Here, the authors demonstrate that cancer cell-derived Hedgehog ligand triggers stromal remodeling that in turn induces a cancer-stem-cell like, drug-resistant phenotype of nearby cancer cells while treatment with smoothened inhibitors reverses these phenotypes.

Published

2018

21. Intravital Imaging to Monitor Therapeutic Response in Moving Hypoxic Regions Resistant to PI3K Pathway Targeting in Pancreatic Cancer

Author

James R.W. Conway, Sean C. Warren, David Herrmann, Kendelle J. Murphy, Aurélie S. Cazet, Claire Vennin, Robert F. Shearer, Monica J. Killen, Astrid Magenau, Pauline Mélénec, Mark Pinese, Max Nobis, Anaiis Zaratzian, Alice Boulghourjian, Andrew M. Da Silva, Gonzalo del Monte-Nieto, Arne S.A. Adam, Richard P. Harvey, Jody J. Haigh, Yingxiao Wang, David R. Croucher, Owen J. Sansom, Marina Pajic, C. Elizabeth Caldon, Jennifer P. Morton, and Paul Timpson

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Application of advanced intravital imaging facilitates dynamic monitoring of pathway activity upon therapeutic inhibition. Here, we assess resistance to therapeutic inhibition of the PI3K pathway within the hypoxic microenvironment of pancreatic ductal adenocarcinoma (PDAC) and identify a phenomenon whereby pronounced hypoxia-induced resistance is observed for three clinically relevant inhibitors. To address this clinical problem, we have mapped tumor hypoxia by both immunofluorescence and phosphorescence lifetime imaging of oxygen-sensitive nanoparticles and demonstrate that these hypoxic regions move transiently around the tumor. To overlay this microenvironmental information with drug response, we applied a FRET biosensor for Akt activity, which is a key effector of the PI3K pathway. Performing dual intravital imaging of drug response in different tumor compartments, we demonstrate an improved drug response to a combination therapy using the dual mTORC1/2 inhibitor AZD2014 with the hypoxia-activated pro-drug TH-302. : Intravital imaging facilitates the real-time tracking and targeting of moving hypoxic regions within pancreatic ductal adenocarcinoma. Using this approach, Conway et al. alleviate hypoxia-induced resistance to a dual mTORC1/2 inhibitor AZD2014, improving PI3K pathway inhibition and demonstrating a powerful dual imaging modality applicable to targeting other pathways and cancers. Keywords: pancreatic cancer, intravital imaging, hypoxia, FRET, pro-drug, PI3K pathway, nanoparticles, PLIM, Akt, AZD2014

Published

2018

22. ∆133p53 isoform promotes tumour invasion and metastasis via interleukin-6 activation of JAK-STAT and RhoA-ROCK signalling

Author

Hamish Campbell, Nicholas Fleming, Imogen Roth, Sunali Mehta, Anna Wiles, Gail Williams, Claire Vennin, Nikola Arsic, Ashleigh Parkin, Marina Pajic, Fran Munro, Les McNoe, Michael Black, John McCall, Tania L. Slatter, Paul Timpson, Roger Reddel, Pierre Roux, Cristin Print, Margaret A. Baird, and Antony W. Braithwaite

Subjects

Science

Abstract

Aberrant expression of the Δ133p53 isoform is linked to many cancers. Here, the authors utilise a model of the Δ133p53 isoform that is prone to tumours and inflammation, showing that Δ133p53 promotes tumour cell invasion by activation of the JAK-STAT and RhoA-ROCK pathways in an IL-6 dependent manner.

Published

2018

23. A RhoA-FRET Biosensor Mouse for Intravital Imaging in Normal Tissue Homeostasis and Disease Contexts

Author

Max Nobis, David Herrmann, Sean C. Warren, Shereen Kadir, Wilfred Leung, Monica Killen, Astrid Magenau, David Stevenson, Morghan C. Lucas, Nadine Reischmann, Claire Vennin, James R.W. Conway, Alice Boulghourjian, Anaiis Zaratzian, Andrew M. Law, David Gallego-Ortega, Christopher J. Ormandy, Stacey N. Walters, Shane T. Grey, Jacqueline Bailey, Tatyana Chtanova, Julian M.W. Quinn, Paul A. Baldock, Peter I. Croucher, Juliane P. Schwarz, Agata Mrowinska, Lei Zhang, Herbert Herzog, Andrius Masedunskas, Edna C. Hardeman, Peter W. Gunning, Gonzalo del Monte-Nieto, Richard P. Harvey, Michael S. Samuel, Marina Pajic, Ewan J. McGhee, Anna-Karin E. Johnsson, Owen J. Sansom, Heidi C.E. Welch, Jennifer P. Morton, Douglas Strathdee, Kurt I. Anderson, and Paul Timpson

Subjects

intravital imaging, pancreatic cancer, breast cancer, actin, small GTPase RhoA, FLIM-FRET, biosensors, immunology, development, cell biology, Biology (General), QH301-705.5

Abstract

The small GTPase RhoA is involved in a variety of fundamental processes in normal tissue. Spatiotemporal control of RhoA is thought to govern mechanosensing, growth, and motility of cells, while its deregulation is associated with disease development. Here, we describe the generation of a RhoA-fluorescence resonance energy transfer (FRET) biosensor mouse and its utility for monitoring real-time activity of RhoA in a variety of native tissues in vivo. We assess changes in RhoA activity during mechanosensing of osteocytes within the bone and during neutrophil migration. We also demonstrate spatiotemporal order of RhoA activity within crypt cells of the small intestine and during different stages of mammary gestation. Subsequently, we reveal co-option of RhoA activity in both invasive breast and pancreatic cancers, and we assess drug targeting in these disease settings, illustrating the potential for utilizing this mouse to study RhoA activity in vivo in real time.

Published

2017

24. Differential Rac1 signalling by guanine nucleotide exchange factors implicates FLII in regulating Rac1-driven cell migration

Author

Hadir Marei, Alejandro Carpy, Anna Woroniuk, Claire Vennin, Gavin White, Paul Timpson, Boris Macek, and Angeliki Malliri

Subjects

Science

Abstract

The small GTPase Rac1 regulates various cellular processes, including cell migration. However, Rac1 can have opposing migratory effects. Here the authors show that two guanine nucleotide exchange factors, Tiam1 and P-Rex1, differentially regulate the Rac1 interactome to determine the downstream phenotype.

Published

2016

25. Intravital FRAP Imaging using an E-cadherin-GFP Mouse Reveals Disease- and Drug-Dependent Dynamic Regulation of Cell-Cell Junctions in Live Tissue

Author

Zahra Erami, David Herrmann, Sean C. Warren, Max Nobis, Ewan J. McGhee, Morghan C. Lucas, Wilfred Leung, Nadine Reischmann, Agata Mrowinska, Juliane P. Schwarz, Shereen Kadir, James R.W. Conway, Claire Vennin, Saadia A. Karim, Andrew D. Campbell, David Gallego-Ortega, Astrid Magenau, Kendelle J. Murphy, Rachel A. Ridgway, Andrew M. Law, Stacey N. Walters, Shane T. Grey, David R. Croucher, Lei Zhang, Herbert Herzog, Edna C. Hardeman, Peter W. Gunning, Christopher J. Ormandy, T.R. Jeffry Evans, Douglas Strathdee, Owen J. Sansom, Jennifer P. Morton, Kurt I. Anderson, and Paul Timpson

Subjects

intravital imaging, FRAP, E-cadherin, Src-kinase, pancreatic cancer, invasion and metastasis, cell adhesion and migration, Kras, p53, Biology (General), QH301-705.5

Abstract

E-cadherin-mediated cell-cell junctions play a prominent role in maintaining the epithelial architecture. The disruption or deregulation of these adhesions in cancer can lead to the collapse of tumor epithelia that precedes invasion and subsequent metastasis. Here we generated an E-cadherin-GFP mouse that enables intravital photobleaching and quantification of E-cadherin mobility in live tissue without affecting normal biology. We demonstrate the broad applications of this mouse by examining E-cadherin regulation in multiple tissues, including mammary, brain, liver, and kidney tissue, while specifically monitoring E-cadherin mobility during disease progression in the pancreas. We assess E-cadherin stability in native pancreatic tissue upon genetic manipulation involving Kras and p53 or in response to anti-invasive drug treatment and gain insights into the dynamic remodeling of E-cadherin during in situ cancer progression. FRAP in the E-cadherin-GFP mouse, therefore, promises to be a valuable tool to fundamentally expand our understanding of E-cadherin-mediated events in native microenvironments.

Published

2016

26. Recent advances in understanding the complexities of metastasis [version 2; referees: 3 approved]

Author

Jessica L. Chitty, Elysse C. Filipe, Morghan C. Lucas, David Herrmann, Thomas R. Cox, and Paul Timpson

Subjects

Medicine, Science

Abstract

Tumour metastasis is a dynamic and systemic process. It is no longer seen as a tumour cell-autonomous program but as a multifaceted and complex series of events, which is influenced by the intrinsic cellular mutational burden of cancer cells and the numerous bidirectional interactions between malignant and non-malignant cells and fine-tuned by the various extrinsic cues of the extracellular matrix. In cancer biology, metastasis as a process is one of the most technically challenging aspects of cancer biology to study. As a result, new platforms and technologies are continually being developed to better understand this process. In this review, we discuss some of the recent advances in metastasis and how the information gleaned is re-shaping our understanding of metastatic dissemination.

Published

2018

27. Recent advances in understanding the complexities of metastasis [version 1; referees: 3 approved]

Author

Jessica L. Chitty, Elysse C. Filipe, Morghan C. Lucas, David Herrmann, Thomas R. Cox, and Paul Timpson

Subjects

Medicine, Science

Abstract

Tumour metastasis is a dynamic and systemic process. It is no longer seen as a tumour cell-autonomous program but as a multifaceted and complex series of events, which is influenced by the intrinsic cellular mutational burden of cancer cells and the numerous bidirectional interactions between malignant and non-malignant cells and fine-tuned by the various extrinsic cues of the extracellular matrix. In cancer biology, metastasis as a process is one of the most technically challenging aspects of cancer biology to study. As a result, new platforms and technologies are continually being developed to better understand this process. In this review, we discuss some of the recent advances in metastasis and how the information gleaned is re-shaping our understanding of metastatic dissemination.

Published

2018

28. Removing physiological motion from intravital and clinical functional imaging data

Author

Sean C Warren, Max Nobis, Astrid Magenau, Yousuf H Mohammed, David Herrmann, Imogen Moran, Claire Vennin, James RW Conway, Pauline Mélénec, Thomas R Cox, Yingxiao Wang, Jennifer P Morton, Heidi CE Welch, Douglas Strathdee, Kurt I Anderson, Tri Giang Phan, Michael S Roberts, and Paul Timpson

Subjects

FLIM, FRET, motion correction, intravital microscopy, multiphoton, Medicine, Science, Biology (General), QH301-705.5

Abstract

Intravital microscopy can provide unique insights into the function of biological processes in a native context. However, physiological motion caused by peristalsis, respiration and the heartbeat can present a significant challenge, particularly for functional readouts such as fluorescence lifetime imaging (FLIM), which require longer acquisition times to obtain a quantitative readout. Here, we present and benchmark Galene, a versatile multi-platform software tool for image-based correction of sample motion blurring in both time resolved and conventional laser scanning fluorescence microscopy data in two and three dimensions. We show that Galene is able to resolve intravital FLIM-FRET images of intra-abdominal organs in murine models and NADH autofluorescence of human dermal tissue imaging subject to a wide range of physiological motions. Thus, Galene can enable FLIM imaging in situations where a stable imaging platform is not always possible and rescue previously discarded quantitative imaging data.

Published

2018

29. There are four dynamically and functionally distinct populations of E-cadherin in cell junctions

Author

Zahra Erami, Paul Timpson, Wu Yao, Ronen Zaidel-Bar, and Kurt I. Anderson

Subjects

E-cadherin, FRAP, Cell adhesion, Super-resolution microscopy, Science, Biology (General), QH301-705.5

Abstract

E-cadherin is a trans-membrane tumor suppressor responsible for epithelial cell adhesion. E-cadherin forms adhesive clusters through combined extra-cellular cis- and trans-interactions and intracellular interaction with the actin cytoskeleton. Here we identify four populations of E-cadherin within cell junctions based on the molecular interactions which determine their mobility and adhesive properties. Adhesive and non-adhesive populations of E-cadherin each consist of mobile and immobile fractions. Up to half of the E-cadherin immobilized in cell junctions is non-adhesive. Incorporation of E-cadherin into functional adhesions require all three adhesive interactions, with deletion of any one resulting in loss of effective cell-cell adhesion. Interestingly, the only interaction which could independently slow the diffusion of E-cadherin was the tail-mediated intra-cellular interaction. The adhesive and non-adhesive mobile fractions of E-cadherin can be distinguished by their sensitivity to chemical cross-linking with adhesive clusters. Our data define the size, mobility, and adhesive properties of four distinct populations of E-cadherin within cell junctions, and support association with the actin cytoskeleton as the first step in adhesion formation.

Published

2015

30. Targeting the LOX/hypoxia axis reverses many of the features that make pancreatic cancer deadly: inhibition of LOX abrogates metastasis and enhances drug efficacy

Author

Bryan W Miller, Jennifer P Morton, Mark Pinese, Grazia Saturno, Nigel B Jamieson, Ewan McGhee, Paul Timpson, Joshua Leach, Lynn McGarry, Emma Shanks, Peter Bailey, David Chang, Karin Oien, Saadia Karim, Amy Au, Colin Steele, Christopher Ross Carter, Colin McKay, Kurt Anderson, Thomas R Jeffry Evans, Richard Marais, Caroline Springer, Andrew Biankin, Janine T Erler, and Owen J Sansom

Subjects

animal models of cancer, collagen cross‐linking, lysyl oxidase, pancreatic cancer, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Pancreatic ductal adenocarcinoma (PDAC) is one of the leading causes of cancer‐related mortality. Despite significant advances made in the treatment of other cancers, current chemotherapies offer little survival benefit in this disease. Pancreaticoduodenectomy offers patients the possibility of a cure, but most will die of recurrent or metastatic disease. Hence, preventing metastatic disease in these patients would be of significant benefit. Using principal component analysis (PCA), we identified a LOX/hypoxia signature associated with poor patient survival in resectable patients. We found that LOX expression is upregulated in metastatic tumors from Pdx1‐Cre KrasG12D/+Trp53R172H/+ (KPC) mice and that inhibition of LOX in these mice suppressed metastasis. Mechanistically, LOX inhibition suppressed both migration and invasion of KPC cells. LOX inhibition also synergized with gemcitabine to kill tumors and significantly prolonged tumor‐free survival in KPC mice with early‐stage tumors. This was associated with stromal alterations, including increased vasculature and decreased fibrillar collagen, and increased infiltration of macrophages and neutrophils into tumors. Therefore, LOX inhibition is able to reverse many of the features that make PDAC inherently refractory to conventional therapies and targeting LOX could improve outcome in surgically resectable disease.

Published

2015

31. Effective modulation of stromal signaling through ROCK inhibition: Is it all in the timing?

Author

Venessa T. Chin, Claire Vennin, Paul Timpson, and Marina Pajic

Subjects

extracellular matrix, pancreatic cancer, rho gtpase, rock inhibitors, tailored therapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Our recent publication demonstrates that transient inhibition of Rho-associated kinase signaling within stroma, significantly decreased in vivo primary tumor growth, metastasis and improved response to standard-of-care therapy in pancreatic cancer. Automated analysis of collagen organization in patient tumors may present a promising tool to predict response to our proposed treatment.

Published

2017

32. Cholesterol Regulates Syntaxin 6 Trafficking at trans-Golgi Network Endosomal Boundaries

Author

Meritxell Reverter, Carles Rentero, Ana Garcia-Melero, Monira Hoque, Sandra Vilà de Muga, Anna Álvarez-Guaita, James R.W. Conway, Peta Wood, Rose Cairns, Lilia Lykopoulou, Daniel Grinberg, Lluïsa Vilageliu, Marta Bosch, Joerg Heeren, Juan Blasi, Paul Timpson, Albert Pol, Francesc Tebar, Rachael Z. Murray, Thomas Grewal, and Carlos Enrich

Subjects

Biology (General), QH301-705.5

Abstract

Inhibition of cholesterol export from late endosomes causes cellular cholesterol imbalance, including cholesterol depletion in the trans-Golgi network (TGN). Here, using Chinese hamster ovary (CHO) Niemann-Pick type C1 (NPC1) mutant cell lines and human NPC1 mutant fibroblasts, we show that altered cholesterol levels at the TGN/endosome boundaries trigger Syntaxin 6 (Stx6) accumulation into VAMP3, transferrin, and Rab11-positive recycling endosomes (REs). This increases Stx6/VAMP3 interaction and interferes with the recycling of αVβ3 and α5β1 integrins and cell migration, possibly in a Stx6-dependent manner. In NPC1 mutant cells, restoration of cholesterol levels in the TGN, but not inhibition of VAMP3, restores the steady-state localization of Stx6 in the TGN. Furthermore, elevation of RE cholesterol is associated with increased amounts of Stx6 in RE. Hence, the fine-tuning of cholesterol levels at the TGN-RE boundaries together with a subset of cholesterol-sensitive SNARE proteins may play a regulatory role in cell migration and invasion.

Published

2014

33. The Rac-FRET Mouse Reveals Tight Spatiotemporal Control of Rac Activity in Primary Cells and Tissues

Author

Anna-Karin E. Johnsson, Yanfeng Dai, Max Nobis, Martin J. Baker, Ewan J. McGhee, Simon Walker, Juliane P. Schwarz, Shereen Kadir, Jennifer P. Morton, Kevin B. Myant, David J. Huels, Anne Segonds-Pichon, Owen J. Sansom, Kurt I. Anderson, Paul Timpson, and Heidi C.E. Welch

Subjects

Biology (General), QH301-705.5

Abstract

The small G protein family Rac has numerous regulators that integrate extracellular signals into tight spatiotemporal maps of its activity to promote specific cell morphologies and responses. Here, we have generated a mouse strain, Rac-FRET, which ubiquitously expresses the Raichu-Rac biosensor. It enables FRET imaging and quantification of Rac activity in live tissues and primary cells without affecting cell properties and responses. We assessed Rac activity in chemotaxing Rac-FRET neutrophils and found enrichment in leading-edge protrusions and unexpected longitudinal shifts and oscillations during protruding and stalling phases of migration. We monitored Rac activity in normal or disease states of intestinal, liver, mammary, pancreatic, and skin tissue, in response to stimulation or inhibition and upon genetic manipulation of upstream regulators, revealing unexpected insights into Rac signaling during disease development. The Rac-FRET strain is a resource that promises to fundamentally advance our understanding of Rac-dependent responses in primary cells and native environments.

Published

2014

34. Intravital imaging reveals new ancillary mechanisms co-opted by cancer cells to drive tumor progression [version 1; referees: 2 approved]

Author

Claire Vennin, David Herrmann, Morghan C. Lucas, and Paul Timpson

Subjects

Animal Genetics, Antigen Processing & Recognition, Cancer Therapeutics, Cell Adhesion, Cell Growth & Division, Cellular Death & Stress Responses, Immune Response, Immunity to Infections, Innate Immunity, Leukocyte Development, Leukocyte Signaling & Gene Expression, Membranes & Sorting, Medicine, Science

Abstract

Intravital imaging is providing new insights into the dynamics of tumor progression in native tissues and has started to reveal the layers of complexity found in cancer. Recent advances in intravital imaging have allowed us to look deeper into cancer behavior and to dissect the interactions between tumor cells and the ancillary host niche that promote cancer development. In this review, we provide an insight into the latest advances in cancer biology achieved by intravital imaging, focusing on recently discovered mechanisms by which tumor cells manipulate normal tissue to facilitate disease progression.

Published

2016

35. Recruitment Kinetics of Tropomyosin Tpm3.1 to Actin Filament Bundles in the Cytoskeleton Is Independent of Actin Filament Kinetics.

Author

Mark A Appaduray, Andrius Masedunskas, Nicole S Bryce, Christine A Lucas, Sean C Warren, Paul Timpson, Jeffrey H Stear, Peter W Gunning, and Edna C Hardeman

Subjects

Medicine, Science

Abstract

The actin cytoskeleton is a dynamic network of filaments that is involved in virtually every cellular process. Most actin filaments in metazoa exist as a co-polymer of actin and tropomyosin (Tpm) and the function of an actin filament is primarily defined by the specific Tpm isoform associated with it. However, there is little information on the interdependence of these co-polymers during filament assembly and disassembly. We addressed this by investigating the recovery kinetics of fluorescently tagged isoform Tpm3.1 into actin filament bundles using FRAP analysis in cell culture and in vivo in rats using intracellular intravital microscopy, in the presence or absence of the actin-targeting drug jasplakinolide. The mobile fraction of Tpm3.1 is between 50% and 70% depending on whether the tag is at the C- or N-terminus and whether the analysis is in vivo or in cultured cells. We find that the continuous dynamic exchange of Tpm3.1 is not significantly impacted by jasplakinolide, unlike tagged actin. We conclude that tagged Tpm3.1 may be able to undergo exchange in actin filament bundles largely independent of the assembly and turnover of actin.

Published

2016

36. ELF5 Drives Lung Metastasis in Luminal Breast Cancer through Recruitment of Gr1+ CD11b+ Myeloid-Derived Suppressor Cells.

Author

David Gallego-Ortega, Anita Ledger, Daniel L Roden, Andrew M K Law, Astrid Magenau, Zoya Kikhtyak, Christina Cho, Stephanie L Allerdice, Heather J Lee, Fatima Valdes-Mora, David Herrmann, Robert Salomon, Adelaide I J Young, Brian Y Lee, C Marcelo Sergio, Warren Kaplan, Catherine Piggin, James R W Conway, Brian Rabinovich, Ewan K A Millar, Samantha R Oakes, Tatyana Chtanova, Alexander Swarbrick, Matthew J Naylor, Sandra O'Toole, Andrew R Green, Paul Timpson, Julia M W Gee, Ian O Ellis, Susan J Clark, and Christopher J Ormandy

Subjects

Biology (General), QH301-705.5

Abstract

During pregnancy, the ETS transcription factor ELF5 establishes the milk-secreting alveolar cell lineage by driving a cell fate decision of the mammary luminal progenitor cell. In breast cancer, ELF5 is a key transcriptional determinant of tumor subtype and has been implicated in the development of insensitivity to anti-estrogen therapy. In the mouse mammary tumor virus-Polyoma Middle T (MMTV-PyMT) model of luminal breast cancer, induction of ELF5 levels increased leukocyte infiltration, angiogenesis, and blood vessel permeability in primary tumors and greatly increased the size and number of lung metastasis. Myeloid-derived suppressor cells, a group of immature neutrophils recently identified as mediators of vasculogenesis and metastasis, were recruited to the tumor in response to ELF5. Depletion of these cells using specific Ly6G antibodies prevented ELF5 from driving vasculogenesis and metastasis. Expression signatures in luminal A breast cancers indicated that increased myeloid cell invasion and inflammation were correlated with ELF5 expression, and increased ELF5 immunohistochemical staining predicted much shorter metastasis-free and overall survival of luminal A patients, defining a group who experienced unexpectedly early disease progression. Thus, in the MMTV-PyMT mouse mammary model, increased ELF5 levels drive metastasis by co-opting the innate immune system. As ELF5 has been previously implicated in the development of antiestrogen resistance, this finding implicates ELF5 as a defining factor in the acquisition of the key aspects of the lethal phenotype in luminal A breast cancer.

Published

2015

37. Live Cell in Vitro and in Vivo Imaging Applications: Accelerating Drug Discovery

Author

Neil O Carragher, Valerie G Brunton, Alan Serrels, Kurt I Anderson, Marta Canel, Paul Timpson, Ewan J McGhee, and Beverley Isherwood

Subjects

imaging, intravital, high-content, temporal, fluorescence, drug discovery, biomarkers, translation, efficacy, Pharmacy and materia medica, RS1-441

Abstract

Dynamic regulation of specific molecular processes and cellular phenotypes in live cell systems reveal unique insights into cell fate and drug pharmacology that are not gained from traditional fixed endpoint assays. Recent advances in microscopic imaging platform technology combined with the development of novel optical biosensors and sophisticated image analysis solutions have increased the scope of live cell imaging applications in drug discovery. We highlight recent literature examples where live cell imaging has uncovered novel insight into biological mechanism or drug mode-of-action. We survey distinct types of optical biosensors and associated analytical methods for monitoring molecular dynamics, in vitro and in vivo. We describe the recent expansion of live cell imaging into automated target validation and drug screening activities through the development of dedicated brightfield and fluorescence kinetic imaging platforms. We provide specific examples of how temporal profiling of phenotypic response signatures using such kinetic imaging platforms can increase the value of in vitro high-content screening. Finally, we offer a prospective view of how further application and development of live cell imaging technology and reagents can accelerate preclinical lead optimization cycles and enhance the in vitro to in vivo translation of drug candidates.

Published

2011

38. The Evolving Understanding of the Molecular and Therapeutic Landscape of Pancreatic Ductal Adenocarcinoma

Author

Ashleigh Parkin, Jennifer Man, Angela Chou, Adnan M Nagrial, Jaswinder Samra, Anthony J Gill, Paul Timpson, and Marina Pajic

Subjects

pancreatic cancer, tailored therapy, molecular classification, clinical trials, Medicine

Abstract

Pancreatic cancer is the third leading cause of cancer-related deaths, characterised by poor survival, marked molecular heterogeneity and high intrinsic and acquired chemoresistance. Only 10⁻20% of pancreatic cancer patients present with surgically resectable disease and even then, 80% die within 5 years. Our increasing understanding of the genomic heterogeneity of cancer suggests that the failure of definitive clinical trials to demonstrate efficacy in the majority of cases is likely due to the low proportion of responsive molecular subtypes. As a consequence, novel treatment strategies to approach this disease are urgently needed. Significant developments in the field of precision oncology have led to increasing molecular stratification of cancers into subtypes, where individual cancers are selected for optimal therapy depending on their molecular or genomic fingerprint. This review provides an overview of the current status of clinically used and emerging treatment strategies, and discusses the advances in and the potential for the implementation of precision medicine in this highly lethal malignancy, for which there are currently no curative systemic therapies.

Published

2018

39. Gene-Expression Profiling of Mucinous Ovarian Tumors and Comparison with Upper and Lower Gastrointestinal Tumors Identifies Markers Associated with Adverse Outcomes

Author

Nicola S, Meagher, Kylie L, Gorringe, Matthew, Wakefield, Adelyn, Bolithon, Chi Nam Ignatius, Pang, Derek S, Chiu, Michael S, Anglesio, Kylie-Ann, Mallitt, Jennifer A, Doherty, Holly R, Harris, Joellen M, Schildkraut, Andrew, Berchuck, Kara L, Cushing-Haugen, Ksenia, Chezar, Angela, Chou, Adeline, Tan, Jennifer, Alsop, Ellen, Barlow, Matthias W, Beckmann, Jessica, Boros, David D L, Bowtell, Alison H, Brand, James D, Brenton, Ian, Campbell, Dane, Cheasley, Joshua, Cohen, Cezary, Cybulski, Esther, Elishaev, Ramona, Erber, Rhonda, Farrell, Anna, Fischer, Zhuxuan, Fu, Blake, Gilks, Anthony J, Gill, Charlie, Gourley, Marcel, Grube, Paul R, Harnett, Arndt, Hartmann, Anusha, Hettiaratchi, Claus K, Høgdall, Tomasz, Huzarski, Anna, Jakubowska, Mercedes, Jimenez-Linan, Catherine J, Kennedy, Byoung-Gie, Kim, Jae-Weon, Kim, Jae-Hoon, Kim, Kayla, Klett, Jennifer M, Koziak, Tiffany, Lai, Angela, Laslavic, Jenny, Lester, Yee, Leung, Na, Li, Winston, Liauw, Belle W X, Lim, Anna, Linder, Jan, Lubiński, Sakshi, Mahale, Constantina, Mateoiu, Simone, McInerny, Janusz, Menkiszak, Parham, Minoo, Suzana, Mittelstadt, David, Morris, Sandra, Orsulic, Sang-Yoon, Park, Celeste Leigh, Pearce, John V, Pearson, Malcolm C, Pike, Carmel M, Quinn, Ganendra Raj, Mohan, Jianyu, Rao, Marjorie J, Riggan, Matthias, Ruebner, Stuart, Salfinger, Clare L, Scott, Mitul, Shah, Helen, Steed, Colin J R, Stewart, Deepak, Subramanian, Soseul, Sung, Katrina, Tang, Paul, Timpson, Robyn L, Ward, Rebekka, Wiedenhoefer, Heather, Thorne, Paul A, Cohen, Philip, Crowe, Peter A, Fasching, Jacek, Gronwald, Nicholas J, Hawkins, Estrid, Høgdall, David G, Huntsman, Paul A, James, Beth Y, Karlan, Linda E, Kelemen, Stefan, Kommoss, Gottfried E, Konecny, Francesmary, Modugno, Sue K, Park, Annette, Staebler, Karin, Sundfeldt, Anna H, Wu, Aline, Talhouk, Paul D P, Pharoah, Lyndal, Anderson, Anna, DeFazio, Martin, Köbel, Michael L, Friedlander, and Susan J, Ramus

Subjects

Ovarian Neoplasms, Cancer Research, BORDERLINE TUMORS, CARCINOMA, ADENOCARCINOMA, TRANSGELIN, Carcinoma, Ovarian Epithelial, EXPANSILE, Prognosis, INTESTINAL-TYPE, CANCER, Adenocarcinoma, Mucinous, PATTERN, RARE, Oncology, POOR-PROGNOSIS, Humans, Female, Neoplasm Staging, Gastrointestinal Neoplasms

Abstract

Purpose: Advanced-stage mucinous ovarian carcinoma (MOC) has poor chemotherapy response and prognosis and lacks biomarkers to aid stage I adjuvant treatment. Differentiating primary MOC from gastrointestinal (GI) metastases to the ovary is also challenging due to phenotypic similarities. Clinicopathologic and gene-expression data were analyzed to identify prognostic and diagnostic features. Experimental Design: Discovery analyses selected 19 genes with prognostic/diagnostic potential. Validation was performed through the Ovarian Tumor Tissue Analysis consortium and GI cancer biobanks comprising 604 patients with MOC (n = 333), mucinous borderline ovarian tumors (MBOT, n = 151), and upper GI (n = 65) and lower GI tumors (n = 55). Results: Infiltrative pattern of invasion was associated with decreased overall survival (OS) within 2 years from diagnosis, compared with expansile pattern in stage I MOC [hazard ratio (HR), 2.77; 95% confidence interval (CI), 1.04–7.41, P = 0.042]. Increased expression of THBS2 and TAGLN was associated with shorter OS in MOC patients (HR, 1.25; 95% CI, 1.04–1.51, P = 0.016) and (HR, 1.21; 95% CI, 1.01–1.45, P = 0.043), respectively. ERBB2 (HER2) amplification or high mRNA expression was evident in 64 of 243 (26%) of MOCs, but only 8 of 243 (3%) were also infiltrative (4/39, 10%) or stage III/IV (4/31, 13%). Conclusions: An infiltrative growth pattern infers poor prognosis within 2 years from diagnosis and may help select stage I patients for adjuvant therapy. High expression of THBS2 and TAGLN in MOC confers an adverse prognosis and is upregulated in the infiltrative subtype, which warrants further investigation. Anti-HER2 therapy should be investigated in a subset of patients. MOC samples clustered with upper GI, yet markers to differentiate these entities remain elusive, suggesting similar underlying biology and shared treatment strategies.

Published

2022

40. Focal adhesion kinase priming in pancreatic cancer, altering biomechanics to improve chemotherapy

Author

Kendelle J. Murphy, Jessie Zhu, Michael Trpceski, Brooke A. Pereira, Paul Timpson, and David Herrmann

Subjects

Pancreatic Neoplasms, Cell Line, Tumor, Focal Adhesion Protein-Tyrosine Kinases, Humans, Fibrosis, Biochemistry, Biomechanical Phenomena, Carcinoma, Pancreatic Ductal

Abstract

The dense desmoplastic and fibrotic stroma is a characteristic feature of pancreatic ductal adenocarcinoma (PDAC), regulating disease progression, metastasis and response to treatment. Reciprocal interactions between the tumour and stroma are mediated by bidirectional integrin-mediated signalling, in particular by Focal Adhesion Kinase (FAK). FAK is often hyperactivated and overexpressed in aggressive cancers, promoting stromal remodelling and inducing tissue stiffness which can accelerate cancer cell proliferation, survival and chemoresistance. Therapeutic targeting of the PDAC stroma is an evolving area of interest for pre-clinical and clinical research, where a subtle reshaping of the stromal architecture prior to chemotherapy may prove promising in the clinical management of disease and overall patient survival. Here, we describe how transient stromal manipulation (or ‘priming’) via short-term FAK inhibition, rather than chronic treatment, can render PDAC cells exquisitely vulnerable to subsequent standard-of-care chemotherapy. We assess how our priming publication fits with the recent literature and describe in this perspective how this could impact future cancer treatment. This highlights the significance of treatment timing and warrants further consideration of anti-fibrotic therapies in the clinical management of PDAC and other fibrotic diseases.

Published

2022

41. Monitoring AKT activity and targeting in live tissue and disease contexts using a real-time Akt-FRET biosensor mouse

Author

James R. W. Conway, Sean C. Warren, Young-Kyung Lee, Andrew T. McCulloch, Astrid Magenau, Victoria Lee, Xanthe L. Metcalf, Janett Stoehr, Katharina Haigh, Lea Abdulkhalek, Cristian S. Guaman, Daniel A. Reed, Kendelle J. Murphy, Brooke A. Pereira, Pauline Mélénec, Cecilia Chambers, Sharissa L. Latham, Helen Lenthall, Elissa K. Deenick, Yuanqing Ma, Tri Phan, Elgene Lim, Anthony M. Joshua, Stacey Walters, Shane T. Grey, Yan-Chuan Shi, Lei Zhang, Herbert Herzog, David R. Croucher, Andy Philp, Colinda L.G.J. Scheele, David Herrmann, Owen J. Sansom, Jennifer P. Morton, Antonella Papa, Jody J. Haigh, Max Nobis, and Paul Timpson

Subjects

Mice, Multidisciplinary, Fluorescence Resonance Energy Transfer, Animals, Biosensing Techniques, Proto-Oncogene Proteins c-akt

Abstract

Aberrant AKT activation occurs in a number of cancers, metabolic syndrome, and immune disorders, making it an important target for the treatment of many diseases. To monitor spatial and temporal AKT activity in a live setting, we generated an Akt-FRET biosensor mouse that allows longitudinal assessment of AKT activity using intravital imaging in conjunction with image stabilization and optical window technology. We demonstrate the sensitivity of the Akt-FRET biosensor mouse using various cancer models and verify its suitability to monitor response to drug targeting in spheroid and organotypic models. We also show that the dynamics of AKT activation can be monitored in real time in diverse tissues, including in individual islets of the pancreas, in the brown and white adipose tissue, and in the skeletal muscle. Thus, the Akt-FRET biosensor mouse provides an important tool to study AKT dynamics in live tissue contexts and has broad preclinical applications. ispartof: SCIENCE ADVANCES vol:9 issue:17 ispartof: location:United States status: published

Published

2023

42. Supplementary Methods 1 from Gene-Expression Profiling of Mucinous Ovarian Tumors and Comparison with Upper and Lower Gastrointestinal Tumors Identifies Markers Associated with Adverse Outcomes

Author

Susan J. Ramus, Michael L. Friedlander, Martin Köbel, Anna DeFazio, Lyndal Anderson, Paul D.P. Pharoah, Aline Talhouk, Anna H. Wu, Karin Sundfeldt, Annette Staebler, Sue K. Park, Francesmary Modugno, Gottfried E. Konecny, Stefan Kommoss, Linda E. Kelemen, Beth Y. Karlan, Paul A. James, David G. Huntsman, Estrid Høgdall, Nicholas J. Hawkins, Jacek Gronwald, Peter A. Fasching, Philip Crowe, Paul A. Cohen, Heather Thorne, Rebekka Wiedenhoefer, Robyn L. Ward, Paul Timpson, Katrina Tang, Soseul Sung, Deepak Subramanian, Colin J.R. Stewart, Helen Steed, Mitul Shah, Clare L. Scott, Stuart Salfinger, Matthias Ruebner, Marjorie J. Riggan, Jianyu Rao, Ganendra Raj Mohan, Carmel M. Quinn, Malcolm C. Pike, John V. Pearson, Celeste Leigh Pearce, Sang-Yoon Park, Sandra Orsulic, David Morris, Suzana Mittelstadt, Parham Minoo, Janusz Menkiszak, Simone McInerny, Constantina Mateoiu, Sakshi Mahale, Jan Lubiński, Anna Linder, Belle W.X. Lim, Winston Liauw, Na Li, Yee Leung, Jenny Lester, Angela Laslavic, Tiffany Lai, Jennifer M. Koziak, Kayla Klett, Jae-Hoon Kim, Jae-Weon Kim, Byoung-Gie Kim, Catherine J. Kennedy, Mercedes Jimenez-Linan, Anna Jakubowska, Tomasz Huzarski, Claus K. Høgdall, Anusha Hettiaratchi, Arndt Hartmann, Paul R. Harnett, Marcel Grube, Charlie Gourley, Anthony J. Gill, Blake Gilks, Zhuxuan Fu, Anna Fischer, Rhonda Farrell, Ramona Erber, Esther Elishaev, Cezary Cybulski, Joshua Cohen, Dane Cheasley, Ian Campbell, James D. Brenton, Alison H. Brand, David D.L. Bowtell, Jessica Boros, Matthias W. Beckmann, Ellen Barlow, Jennifer Alsop, Adeline Tan, Angela Chou, Ksenia Chezar, Kara L. Cushing-Haugen, Andrew Berchuck, Joellen M. Schildkraut, Holly R. Harris, Jennifer A. Doherty, Kylie-Ann Mallitt, Michael S. Anglesio, Derek S. Chiu, Chi Nam Ignatius Pang, Adelyn Bolithon, Matthew Wakefield, Kylie L. Gorringe, and Nicola S. Meagher

Abstract

Supplementary Methods

Published

2023

43. Supplementary Figures S1-S13 from Gene-Expression Profiling of Mucinous Ovarian Tumors and Comparison with Upper and Lower Gastrointestinal Tumors Identifies Markers Associated with Adverse Outcomes

Author

Susan J. Ramus, Michael L. Friedlander, Martin Köbel, Anna DeFazio, Lyndal Anderson, Paul D.P. Pharoah, Aline Talhouk, Anna H. Wu, Karin Sundfeldt, Annette Staebler, Sue K. Park, Francesmary Modugno, Gottfried E. Konecny, Stefan Kommoss, Linda E. Kelemen, Beth Y. Karlan, Paul A. James, David G. Huntsman, Estrid Høgdall, Nicholas J. Hawkins, Jacek Gronwald, Peter A. Fasching, Philip Crowe, Paul A. Cohen, Heather Thorne, Rebekka Wiedenhoefer, Robyn L. Ward, Paul Timpson, Katrina Tang, Soseul Sung, Deepak Subramanian, Colin J.R. Stewart, Helen Steed, Mitul Shah, Clare L. Scott, Stuart Salfinger, Matthias Ruebner, Marjorie J. Riggan, Jianyu Rao, Ganendra Raj Mohan, Carmel M. Quinn, Malcolm C. Pike, John V. Pearson, Celeste Leigh Pearce, Sang-Yoon Park, Sandra Orsulic, David Morris, Suzana Mittelstadt, Parham Minoo, Janusz Menkiszak, Simone McInerny, Constantina Mateoiu, Sakshi Mahale, Jan Lubiński, Anna Linder, Belle W.X. Lim, Winston Liauw, Na Li, Yee Leung, Jenny Lester, Angela Laslavic, Tiffany Lai, Jennifer M. Koziak, Kayla Klett, Jae-Hoon Kim, Jae-Weon Kim, Byoung-Gie Kim, Catherine J. Kennedy, Mercedes Jimenez-Linan, Anna Jakubowska, Tomasz Huzarski, Claus K. Høgdall, Anusha Hettiaratchi, Arndt Hartmann, Paul R. Harnett, Marcel Grube, Charlie Gourley, Anthony J. Gill, Blake Gilks, Zhuxuan Fu, Anna Fischer, Rhonda Farrell, Ramona Erber, Esther Elishaev, Cezary Cybulski, Joshua Cohen, Dane Cheasley, Ian Campbell, James D. Brenton, Alison H. Brand, David D.L. Bowtell, Jessica Boros, Matthias W. Beckmann, Ellen Barlow, Jennifer Alsop, Adeline Tan, Angela Chou, Ksenia Chezar, Kara L. Cushing-Haugen, Andrew Berchuck, Joellen M. Schildkraut, Holly R. Harris, Jennifer A. Doherty, Kylie-Ann Mallitt, Michael S. Anglesio, Derek S. Chiu, Chi Nam Ignatius Pang, Adelyn Bolithon, Matthew Wakefield, Kylie L. Gorringe, and Nicola S. Meagher

Abstract

Supplementary Figures S1-S13

Published

2023

44. Data from Gene-Expression Profiling of Mucinous Ovarian Tumors and Comparison with Upper and Lower Gastrointestinal Tumors Identifies Markers Associated with Adverse Outcomes

Author

Susan J. Ramus, Michael L. Friedlander, Martin Köbel, Anna DeFazio, Lyndal Anderson, Paul D.P. Pharoah, Aline Talhouk, Anna H. Wu, Karin Sundfeldt, Annette Staebler, Sue K. Park, Francesmary Modugno, Gottfried E. Konecny, Stefan Kommoss, Linda E. Kelemen, Beth Y. Karlan, Paul A. James, David G. Huntsman, Estrid Høgdall, Nicholas J. Hawkins, Jacek Gronwald, Peter A. Fasching, Philip Crowe, Paul A. Cohen, Heather Thorne, Rebekka Wiedenhoefer, Robyn L. Ward, Paul Timpson, Katrina Tang, Soseul Sung, Deepak Subramanian, Colin J.R. Stewart, Helen Steed, Mitul Shah, Clare L. Scott, Stuart Salfinger, Matthias Ruebner, Marjorie J. Riggan, Jianyu Rao, Ganendra Raj Mohan, Carmel M. Quinn, Malcolm C. Pike, John V. Pearson, Celeste Leigh Pearce, Sang-Yoon Park, Sandra Orsulic, David Morris, Suzana Mittelstadt, Parham Minoo, Janusz Menkiszak, Simone McInerny, Constantina Mateoiu, Sakshi Mahale, Jan Lubiński, Anna Linder, Belle W.X. Lim, Winston Liauw, Na Li, Yee Leung, Jenny Lester, Angela Laslavic, Tiffany Lai, Jennifer M. Koziak, Kayla Klett, Jae-Hoon Kim, Jae-Weon Kim, Byoung-Gie Kim, Catherine J. Kennedy, Mercedes Jimenez-Linan, Anna Jakubowska, Tomasz Huzarski, Claus K. Høgdall, Anusha Hettiaratchi, Arndt Hartmann, Paul R. Harnett, Marcel Grube, Charlie Gourley, Anthony J. Gill, Blake Gilks, Zhuxuan Fu, Anna Fischer, Rhonda Farrell, Ramona Erber, Esther Elishaev, Cezary Cybulski, Joshua Cohen, Dane Cheasley, Ian Campbell, James D. Brenton, Alison H. Brand, David D.L. Bowtell, Jessica Boros, Matthias W. Beckmann, Ellen Barlow, Jennifer Alsop, Adeline Tan, Angela Chou, Ksenia Chezar, Kara L. Cushing-Haugen, Andrew Berchuck, Joellen M. Schildkraut, Holly R. Harris, Jennifer A. Doherty, Kylie-Ann Mallitt, Michael S. Anglesio, Derek S. Chiu, Chi Nam Ignatius Pang, Adelyn Bolithon, Matthew Wakefield, Kylie L. Gorringe, and Nicola S. Meagher

Abstract

Purpose:Advanced-stage mucinous ovarian carcinoma (MOC) has poor chemotherapy response and prognosis and lacks biomarkers to aid stage I adjuvant treatment. Differentiating primary MOC from gastrointestinal (GI) metastases to the ovary is also challenging due to phenotypic similarities. Clinicopathologic and gene-expression data were analyzed to identify prognostic and diagnostic features.Experimental Design:Discovery analyses selected 19 genes with prognostic/diagnostic potential. Validation was performed through the Ovarian Tumor Tissue Analysis consortium and GI cancer biobanks comprising 604 patients with MOC (n = 333), mucinous borderline ovarian tumors (MBOT, n = 151), and upper GI (n = 65) and lower GI tumors (n = 55).Results:Infiltrative pattern of invasion was associated with decreased overall survival (OS) within 2 years from diagnosis, compared with expansile pattern in stage I MOC [hazard ratio (HR), 2.77; 95% confidence interval (CI), 1.04–7.41, P = 0.042]. Increased expression of THBS2 and TAGLN was associated with shorter OS in MOC patients (HR, 1.25; 95% CI, 1.04–1.51, P = 0.016) and (HR, 1.21; 95% CI, 1.01–1.45, P = 0.043), respectively. ERBB2 (HER2) amplification or high mRNA expression was evident in 64 of 243 (26%) of MOCs, but only 8 of 243 (3%) were also infiltrative (4/39, 10%) or stage III/IV (4/31, 13%).Conclusions:An infiltrative growth pattern infers poor prognosis within 2 years from diagnosis and may help select stage I patients for adjuvant therapy. High expression of THBS2 and TAGLN in MOC confers an adverse prognosis and is upregulated in the infiltrative subtype, which warrants further investigation. Anti-HER2 therapy should be investigated in a subset of patients. MOC samples clustered with upper GI, yet markers to differentiate these entities remain elusive, suggesting similar underlying biology and shared treatment strategies.

Published

2023

45. Supplementary Tables S1-S11 from Gene-Expression Profiling of Mucinous Ovarian Tumors and Comparison with Upper and Lower Gastrointestinal Tumors Identifies Markers Associated with Adverse Outcomes

Author

Susan J. Ramus, Michael L. Friedlander, Martin Köbel, Anna DeFazio, Lyndal Anderson, Paul D.P. Pharoah, Aline Talhouk, Anna H. Wu, Karin Sundfeldt, Annette Staebler, Sue K. Park, Francesmary Modugno, Gottfried E. Konecny, Stefan Kommoss, Linda E. Kelemen, Beth Y. Karlan, Paul A. James, David G. Huntsman, Estrid Høgdall, Nicholas J. Hawkins, Jacek Gronwald, Peter A. Fasching, Philip Crowe, Paul A. Cohen, Heather Thorne, Rebekka Wiedenhoefer, Robyn L. Ward, Paul Timpson, Katrina Tang, Soseul Sung, Deepak Subramanian, Colin J.R. Stewart, Helen Steed, Mitul Shah, Clare L. Scott, Stuart Salfinger, Matthias Ruebner, Marjorie J. Riggan, Jianyu Rao, Ganendra Raj Mohan, Carmel M. Quinn, Malcolm C. Pike, John V. Pearson, Celeste Leigh Pearce, Sang-Yoon Park, Sandra Orsulic, David Morris, Suzana Mittelstadt, Parham Minoo, Janusz Menkiszak, Simone McInerny, Constantina Mateoiu, Sakshi Mahale, Jan Lubiński, Anna Linder, Belle W.X. Lim, Winston Liauw, Na Li, Yee Leung, Jenny Lester, Angela Laslavic, Tiffany Lai, Jennifer M. Koziak, Kayla Klett, Jae-Hoon Kim, Jae-Weon Kim, Byoung-Gie Kim, Catherine J. Kennedy, Mercedes Jimenez-Linan, Anna Jakubowska, Tomasz Huzarski, Claus K. Høgdall, Anusha Hettiaratchi, Arndt Hartmann, Paul R. Harnett, Marcel Grube, Charlie Gourley, Anthony J. Gill, Blake Gilks, Zhuxuan Fu, Anna Fischer, Rhonda Farrell, Ramona Erber, Esther Elishaev, Cezary Cybulski, Joshua Cohen, Dane Cheasley, Ian Campbell, James D. Brenton, Alison H. Brand, David D.L. Bowtell, Jessica Boros, Matthias W. Beckmann, Ellen Barlow, Jennifer Alsop, Adeline Tan, Angela Chou, Ksenia Chezar, Kara L. Cushing-Haugen, Andrew Berchuck, Joellen M. Schildkraut, Holly R. Harris, Jennifer A. Doherty, Kylie-Ann Mallitt, Michael S. Anglesio, Derek S. Chiu, Chi Nam Ignatius Pang, Adelyn Bolithon, Matthew Wakefield, Kylie L. Gorringe, and Nicola S. Meagher

Abstract

Supplementary Tables S1-S11

Published

2023

46. Data from Cancer-Associated Fibroblasts in Pancreatic Ductal Adenocarcinoma Determine Response to SLC7A11 Inhibition

Author

Phoebe A. Phillips, Yordanos F. Setargew, Benjamin J. McLean, Jorjina Kasparian, Koroush S. Haghighi, Jennifer P. Morton, Thomas P. Davis, Minoti V. Apte, Nigel Turner, Marina Pajic, Yi Fang Guan, Val Gebski, Estrella Gonzales-Aloy, Anthony J. Gill, Amber Johns, Angela Chou, Julia Lee, Nelson Russia, Jie Liu, Stephanie Naim, Rosa Mistica C. Ignacio, Owen J. Sansom, Andrew D. Campbell, Arafath K. Najumudeen, Sigrid K. Fey, Jessica L. Chitty, Brooke A. Pereira, Thomas R. Cox, Paul Timpson, David Goldstein, Mert Erkan, Cyrille Boyer, Jeff Holst, John Kokkinos, Janet Youkhana, Chantal Kopecky, Anouschka Akerman, Joshua A. McCarroll, and George Sharbeen

Abstract

Cancer-associated fibroblasts (CAF) are major contributors to pancreatic ductal adenocarcinoma (PDAC) progression through protumor signaling and the generation of fibrosis, the latter of which creates a physical barrier to drugs. CAF inhibition is thus an ideal component of any therapeutic approach for PDAC. SLC7A11 is a cystine transporter that has been identified as a potential therapeutic target in PDAC cells. However, no prior study has evaluated the role of SLC7A11 in PDAC tumor stroma and its prognostic significance. Here we show that high expression of SLC7A11 in human PDAC tumor stroma, but not tumor cells, is independently prognostic of poorer overall survival. Orthogonal approaches showed that PDAC-derived CAFs are highly dependent on SLC7A11 for cystine uptake and glutathione synthesis and that SLC7A11 inhibition significantly decreases CAF proliferation, reduces their resistance to oxidative stress, and inhibits their ability to remodel collagen and support PDAC cell growth. Importantly, specific ablation of SLC7A11 from the tumor compartment of transgenic mouse PDAC tumors did not affect tumor growth, suggesting the stroma can substantially influence PDAC tumor response to SLC7A11 inhibition. In a mouse orthotopic PDAC model utilizing human PDAC cells and CAFs, stable knockdown of SLC7A11 was required in both cell types to reduce tumor growth, metastatic spread, and intratumoral fibrosis, demonstrating the importance of targeting SLC7A11 in both compartments. Finally, treatment with a nanoparticle gene-silencing drug against SLC7A11, developed by our laboratory, reduced PDAC tumor growth, incidence of metastases, CAF activation, and fibrosis in orthotopic PDAC tumors. Overall, these findings identify an important role of SLC7A11 in PDAC-derived CAFs in supporting tumor growth.Significance:This study demonstrates that SLC7A11 in PDAC stromal cells is important for the tumor-promoting activity of CAFs and validates a clinically translatable nanomedicine for therapeutic SLC7A11 inhibition in PDAC.

Published

2023

47. Figure S3 from Cancer-Associated Fibroblasts in Pancreatic Ductal Adenocarcinoma Determine Response to SLC7A11 Inhibition

Author

Phoebe A. Phillips, Yordanos F. Setargew, Benjamin J. McLean, Jorjina Kasparian, Koroush S. Haghighi, Jennifer P. Morton, Thomas P. Davis, Minoti V. Apte, Nigel Turner, Marina Pajic, Yi Fang Guan, Val Gebski, Estrella Gonzales-Aloy, Anthony J. Gill, Amber Johns, Angela Chou, Julia Lee, Nelson Russia, Jie Liu, Stephanie Naim, Rosa Mistica C. Ignacio, Owen J. Sansom, Andrew D. Campbell, Arafath K. Najumudeen, Sigrid K. Fey, Jessica L. Chitty, Brooke A. Pereira, Thomas R. Cox, Paul Timpson, David Goldstein, Mert Erkan, Cyrille Boyer, Jeff Holst, John Kokkinos, Janet Youkhana, Chantal Kopecky, Anouschka Akerman, Joshua A. McCarroll, and George Sharbeen

Abstract

SLC7A11 knockdown in PDAC CAFs does not affect glutamate secretion and is maintained in the presence of oxidative stress.

Published

2023

48. Supplementary Table 2 from Cancer-Associated Fibroblasts in Pancreatic Ductal Adenocarcinoma Determine Response to SLC7A11 Inhibition

Author

Phoebe A. Phillips, Yordanos F. Setargew, Benjamin J. McLean, Jorjina Kasparian, Koroush S. Haghighi, Jennifer P. Morton, Thomas P. Davis, Minoti V. Apte, Nigel Turner, Marina Pajic, Yi Fang Guan, Val Gebski, Estrella Gonzales-Aloy, Anthony J. Gill, Amber Johns, Angela Chou, Julia Lee, Nelson Russia, Jie Liu, Stephanie Naim, Rosa Mistica C. Ignacio, Owen J. Sansom, Andrew D. Campbell, Arafath K. Najumudeen, Sigrid K. Fey, Jessica L. Chitty, Brooke A. Pereira, Thomas R. Cox, Paul Timpson, David Goldstein, Mert Erkan, Cyrille Boyer, Jeff Holst, John Kokkinos, Janet Youkhana, Chantal Kopecky, Anouschka Akerman, Joshua A. McCarroll, and George Sharbeen

Abstract

Australian Pancreatic Cancer Genome Initiative International Cancer Genome Cohort patient cohort characteristics.

Published

2023

49. Data from Rho Kinase Inhibition by AT13148 Blocks Pancreatic Ductal Adenocarcinoma Invasion and Tumor Growth

Author

Michael F. Olson, Paul Timpson, Marina Pajic, Claire Vennin, Gillian Mackay, David Sumpton, Jurre J. Kamphorst, Evdokia Michalopoulou, Mathieu Unbekandt, Lynn McGarry, Nikolaj Gadegaard, Alicja Jagiełło, Marie Francene Cutiongco, June Munro, and Nicola Rath

Abstract

The high mortality of pancreatic cancer demands that new therapeutic avenues be developed. The orally available small-molecule inhibitor AT13148 potently inhibits ROCK1 and ROCK2 kinases that regulate the actomyosin cytoskeleton. We previously reported that ROCK kinase expression increases with human and mouse pancreatic cancer progression and that conditional ROCK activation accelerates mortality in a genetically modified LSL-KrasG12D; LSL-p53R172H; Pdx1-Cre; (KPC) mouse pancreatic cancer model. In this study, we show that treatment of KPC mouse and human TKCC5 patient-derived pancreatic tumor cells with AT13148, as well as the ROCK-selective inhibitors Y27632 and H1152, act comparably in blocking ROCK substrate phosphorylation. AT13148, Y27632, and H1152 induced morphologic changes and reduced cellular contractile force generation, motility on pliable discontinuous substrates, and three-dimensional collagen matrix invasion. AT13148 treatment reduced subcutaneous tumor growth and blocked invasion of healthy pancreatic tissue by KPC tumor cells in vivo without affecting proliferation, suggesting a role for local tissue invasion as a contributor to primary tumor growth. These results suggest that AT13148 has antitumor properties that may be beneficial in combination therapies or in the adjuvant setting to reduce pancreatic cancer cell invasion and slow primary tumor growth. AT13148 might also have the additional benefit of enabling tumor resection by maintaining separation between tumor and healthy tissue boundaries.Significance: Preclinical evaluation of a small-molecule ROCK inhibitor reveals significant effects on PDAC invasion and tumor growth, further validating ROCK kinases as viable therapeutic targets in pancreatic cancer. Cancer Res; 78(12); 3321–36. ©2018 AACR.

Published

2023

50. Supplementary Table 4 from Cancer-Associated Fibroblasts in Pancreatic Ductal Adenocarcinoma Determine Response to SLC7A11 Inhibition

Author

Phoebe A. Phillips, Yordanos F. Setargew, Benjamin J. McLean, Jorjina Kasparian, Koroush S. Haghighi, Jennifer P. Morton, Thomas P. Davis, Minoti V. Apte, Nigel Turner, Marina Pajic, Yi Fang Guan, Val Gebski, Estrella Gonzales-Aloy, Anthony J. Gill, Amber Johns, Angela Chou, Julia Lee, Nelson Russia, Jie Liu, Stephanie Naim, Rosa Mistica C. Ignacio, Owen J. Sansom, Andrew D. Campbell, Arafath K. Najumudeen, Sigrid K. Fey, Jessica L. Chitty, Brooke A. Pereira, Thomas R. Cox, Paul Timpson, David Goldstein, Mert Erkan, Cyrille Boyer, Jeff Holst, John Kokkinos, Janet Youkhana, Chantal Kopecky, Anouschka Akerman, Joshua A. McCarroll, and George Sharbeen

Abstract

SLC7A11 multivariate survival analysis parameters.

Published

2023