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1. Prospective Decentralized Study Evaluating Antibody Responses to COVID-19 Vaccines in Community Dwelling Adults to 48 Weeks Post Primary Vaccine Series

Author

Sharon Walmsley, Leah Szadkowski, Brad Wouters, Rosemarie Clarke, Karen Colwill, Paula Rochon, Michael Brudno, Rizani Ravindran, Janet Raboud, Allison McGeer, Amit Oza, Christopher Graham, Amanda Silva, Dorin Manase, Peter Maksymowsky, Laura Parente, Roya Monica Dayam, Jacqueline Simpson, Adrian Pasculescu, and Anne-Claude Gingras

Published
2023
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2. Mass Spectrometry Imaging Reveals a Gradient of Cancer-like Metabolic States in the Vicinity of Cancer Not Seen in Morphometric Margins from Microscopy

Author

Taira Kiyota, Isabelle Ferry, Mark Zaidi, Howard J. Ginsberg, James T. Rutka, Lauren Katz, Georgia Gopinath, Chris McIntosh, Siham Amara-Belgadi, Craig Daniels, Fred Fu, Claudia M. Kuzan-Fischer, Arash Zarrine-Afsar, Ahmed Aman, Brad Wouters, Kaitlyn Peters, Trevor D. McKee, and Michael Woolman

Subjects
Microscopy, Chemistry, Spatially resolved, 010401 analytical chemistry, Cancer, Laser Capture Microdissection, Lipidome, 010402 general chemistry, Mass spectrometry, medicine.disease, 01 natural sciences, Mass spectrometry imaging, 0104 chemical sciences, Analytical Chemistry, Mice, Tandem Mass Spectrometry, Interstitial fluid, Neoplasms, Biophysics, medicine, Animals, Humans, Chromatography, Liquid, Laser capture microdissection
Abstract

Spatially resolved ambient mass spectrometry imaging methods have gained popularity to characterize cancer sites and their borders using molecular changes in the lipidome. This utility, however, is predicated on metabolic homogeneity at the border, which would create a sharp molecular transition at the morphometric borders. We subjected murine models of human medulloblastoma brain cancer to mass spectrometry imaging, a technique that provides a direct readout of tissue molecular content in a spatially resolved manner. We discovered a distance-dependent gradient of cancer-like lipid molecule profiles in the brain tissue within 1.2 mm of the cancer border, suggesting that a cancer-like state progresses beyond the histologic border, into the healthy tissue. The results were further corroborated using orthogonal liquid chromatography and mass spectrometry (LC-MS) analysis of selected tissue regions subjected to laser capture microdissection. LC-MS/MS analysis for robust identification of the affected molecules implied changes in a number of different lipid classes, some of which are metabolized from the essential docosahexaenoic fatty acid (DHA) present in the interstitial fluid. Metabolic molecular borders are thus not as sharp as morphometric borders, and mass spectrometry imaging can reveal molecular nuances not observed with microscopy. Caution must be exercised in interpreting multimodal imaging results stipulated on a coincidental relationship between metabolic and morphometric borders of cancer, at least within animal models used in preclinical research.

Published
2021
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3. In situ tissue pathology from spatially encoded mass spectrometry classifiers visualized in real time through augmented reality

Author

Claudia M. Kuzan-Fischer, Fowad Daud, Brad Wouters, Howard J. Ginsberg, Manuela Ventura, James T. Rutka, Arash Zarrine-Afsar, Sunit Das, David A. Jaffray, Delaram Dara, Isabelle Ferry, Nicholas Bernards, Harley Chan, Jonathan C. Irish, Megan Wu, Lauren Katz, Inga B. Fricke, Mark Zaidi, Robert A. Weersink, Jimmy Qiu, and Michael Woolman

Subjects
In situ, 0303 health sciences, Pathology, medicine.medical_specialty, Pixel, Chemistry, 010401 analytical chemistry, General Chemistry, Mass spectrometry, 01 natural sciences, 0104 chemical sciences, 03 medical and health sciences, Murine brain, In vivo, medicine, Augmented reality, Head and neck, Spectral data, 030304 developmental biology
Abstract

Integration between a hand-held mass spectrometry desorption probe based on picosecond infrared laser technology (PIRL-MS) and an optical surgical tracking system demonstrates in situ tissue pathology from point-sampled mass spectrometry data. Spatially encoded pathology classifications are displayed at the site of laser sampling as color-coded pixels in an augmented reality video feed of the surgical field of view. This is enabled by two-way communication between surgical navigation and mass spectrometry data analysis platforms through a custom-built interface. Performance of the system was evaluated using murine models of human cancers sampled in situ in the presence of body fluids with a technical pixel error of 1.0 ± 0.2 mm, suggesting a 84% or 92% (excluding one outlier) cancer type classification rate across different molecular models that distinguish cell-lines of each class of breast, brain, head and neck murine models. Further, through end-point immunohistochemical staining for DNA damage, cell death and neuronal viability, spatially encoded PIRL-MS sampling is shown to produce classifiable mass spectral data from living murine brain tissue, with levels of neuronal damage that are comparable to those induced by a surgical scalpel. This highlights the potential of spatially encoded PIRL-MS analysis for in vivo use during neurosurgical applications of cancer type determination or point-sampling in vivo tissue during tumor bed examination to assess cancer removal. The interface developed herein for the analysis and the display of spatially encoded PIRL-MS data can be adapted to other hand-held mass spectrometry analysis probes currently available., Integration between a hand-held mass spectrometry desorption probe based on picosecond infrared laser technology (PIRL-MS) and an optical surgical tracking system demonstrates in situ tissue pathology from point-sampled mass spectrometry data.

Published
2020
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4. Up-regulation of autophagy is a mechanism of resistance to chemotherapy and can be inhibited by pantoprazole to increase drug sensitivity

Author

Qian Tan, Anthony M. Joshua, Robert G. Bristow, Brad Wouters, Marina Wang, Christine Allen, and Ian F. Tannock

Subjects
0301 basic medicine, Cancer Research, Paclitaxel, DNA damage, Antineoplastic Agents, Drug resistance, Biology, Pharmacology, Toxicology, 2-Pyridinylmethylsulfinylbenzimidazoles, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Downregulation and upregulation, Cell Line, Tumor, LNCaP, Autophagy, Tumor Microenvironment, Humans, Pharmacology (medical), Hypoxia, Pantoprazole, Tumor Stem Cell Assay, Cell Proliferation, Tumor microenvironment, Dose-Response Relationship, Drug, Proton Pump Inhibitors, Antineoplastic Agents, Phytogenic, Xenograft Model Antitumor Assays, Up-Regulation, 3. Good health, 030104 developmental biology, Oncology, chemistry, Drug Resistance, Neoplasm, 030220 oncology & carcinogenesis, Cancer cell, Blood Vessels
Abstract

Autophagy is a survival mechanism that allows recycling of cellular breakdown products, particularly in stressed cells. Here we evaluate the hypotheses that up-regulation of autophagy is a common mechanism of resistance to chemotherapy, and that drug resistance can be reversed by inhibiting autophagy with a proton pump inhibitor. We exposed human PC3, LNCaP and MCF7 cells to seven clinically-used chemotherapy drugs ± pantoprazole, examined the up-regulation of autophagy and the effect on cellular proliferation by Western Blots, MTS assay and colony-forming assay. The distribution of drug effects and of autophagy was quantified in LNCaP tumor sections in relation to blood vessels and hypoxia by immunohistochemistry using γH2AX, cleaved caspase-3 and p62. All anticancer drugs led to up-regulation of autophagy in cultured tumor cells. Pantoprazole inhibited the induction of autophagy in a time- and dose-dependent manner, and sensitized cancer cells to the seven anti-cancer drugs. Treatment of LNCaP xenografts with paclitaxel induced both DNA damage and autophagy; autophagy was inhibited and markers of toxicity were increased by pantoprazole. Induction of autophagy is a general mechanism associated with resistance to anticancer drugs and that its inhibition is a promising therapeutic strategy to enhance the effects of chemotherapy and improve clinical outcomes.

Published
2017
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5. Abstract 2311: Identification of therapeutic targets in HNSCC

Author

Anna Dvorkin-Sheva, Aleksandra Pesic, Reidar Grénman, Maria Kondratyev, Troy Ketela, Laurie Aiiles, Brad Wouters, Marianne Koritzinsky, and Natalie Stickle

Subjects
JAG2, Cancer Research, Cancer, Disease, Biology, Proteomics, medicine.disease, Malignancy, Metastasis, Small hairpin RNA, Gene expression profiling, Oncology, Cancer research, medicine
Abstract

HNSCC is 6th most common malignancy in the world. Despite advances in diagnosis and treatment, the survival rates remain low due in large part to metastatic disease. The underlying biology associated with metastatic disease and poor outcome in HNSCC remains unclear. Importantly, metastatic cells acquire new properties that permit them to invade surrounding tissues and seed metastasis at distant sites. While these acquired properties contribute to aggressiveness of metastatic cancer, they can be exploited to target metastatic cells selectively, sparing toxicity in normal tissues. We used functional genomic technologies to identify new therapeutic targets for advanced disease in HNSCC. These targets were identified by conducting whole genome shRNA screens in matched sets of cell lines derived from primary HNSCC tumors and their respective metastatic sites/recurrences. Since hypoxia is an important attribute of aggressive and therapy resistant subpopulations of HNSCC tumor cells, we also aimed to identify genes that became essential when cells are exposed to hypoxia. To complement the data from the functional screens and to further characterize our cell line collection, we utilized several high through put approaches including mutational analysis, proteomics and gene expression profiling. Moreover, we performed chemical screens using libraries of over 4000 FDA approved drugs with the aim to combine our functional genomic data with the results from the drug screens to discover drug/gene “hit” combinations that would provide a basis for development of novel anti-cancer therapies.While HNSCC derived cell lines represent a valuable tool to study this disease, their biology might not always accurately represent the biology of the tumors they were derived from. Therefore, we looked at the expression of the components of several key pathways that we discovered using the in vitro characterization in a patient material from over HNSCC surgical samples constructed into a TMA. Five of the hits belonged to the Notch signalling pathway and 4 others came from the proteomic analysis as they showed higher levels of surface expression in metastatic cells and/or under hypoxic conditions. Interestingly, higher proportion of patients with late stages of HNSCC belonged to the high Jag2 and Hey1 populations as compared to patients with low stages of HNSCC that mostly expressed low or intermediate levels of these proteins. This data is in line with our observations that Jag2 and Hey1 expression is elevated in cells derived from metastatic sites and is low in cells derived from primary tumors. Proportion of cells with high CD66 and TRAIL proteins was also higher among the late stage tumors suggesting that these biomarkers are of interest for further investigation. We discovered several molecular pathways that are important in metastatic/hypoxic HNSCC. We are investigating our ability to target these pathways using FDA approved drugs in order to achieve durable cures. Citation Format: Maria Kondratyev, Aleksandra Pesic, Anna Dvorkin-Sheva, Troy Ketela, Natalie Stickle, Laurie Aiiles, Reidar Grenman, Marianne Koritzinsky, Brad Wouters. Identification of therapeutic targets in HNSCC [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 2311.

Published
2021
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6. A phase I/II study of hydroxychloroquine and suba-itraconazole in men with biochemical relapse of prostate cancer (HITMAN-PC): Dose escalation results

Author

Andrew O. Yam, Aaron O'Grady, Brandon Lau, Mathew Luckhurst, Anthony M. Joshua, Megan Crumbaker, Stefano Marastoni, and Brad Wouters

Subjects
Oncology, Cancer Research, medicine.medical_specialty, business.industry, Prostate cancer cell, Hydroxychloroquine, SUBA-Itraconazole, medicine.disease, Prostate cancer, medicine.anatomical_structure, Phase i ii, Lysosome, Internal medicine, Dose escalation, Medicine, Biochemical relapse, business, medicine.drug
Abstract

114 Background: Preclinical data show hydroxychloroquine (HCQ) and suba-itraconazole (SI) together enhance prostate cancer cell death. The proposed mechanism is lysosome dysfunction including sequestration of cholesterol in endosomes and inhibition of gogi-lyosome trafficking. HCQ/SI could delay androgen deprivation therapy (ADT) and its associated morbidity in men with biochemical relapse of prostate cancer. In this phase I/II study, maximum tolerated dose (MTD), recommended phase II dose (RP2D), safety, pharmacokinetics (PK), and preliminary activity of HCQ/SI was investigated in such patients. Methods: Patients received escalating doses of HCQ with fixed SI 150mg BD in rolling 6 design. This will be followed by a planned phase II Simon 2-stage cohort expansion. Results: Eleven men were treated with HCQ/SI. Median age 73 (range 69-77), baseline PSA 4.4 µg/L (1.6-22.4) and doubling time 5.3 months (3.3-15.3). Two experienced dose-limiting toxicity: grade 3 diarrhoea and grade 3 alanine transferase elevation, both at HCQ 600mg BD. Most common treatment-related adverse events (AEs) were hypertension (91% all grade/18% grade 3), QTc prolongation (55%/0%), diarrhoea (36%/9%), and nausea (36%/0%). There were no grade 4 AEs or deaths. While there were no PSA responses (≥50% fall from baseline), PSA PFS by PCWG3 criteria was 5.5 months (2.0-9.0), and PSA doubling time was prolonged at 4 and 12 weeks in 82% and 45% respectively. ADT-free and metastasis-free survival are 14.3 months (95% CI 4.9-23.8) and 15.9 months (95% CI unevaluable) respectively. PK data will be presented. Conclusions: HCQ/SI demonstrated acceptable safety with MTD 600mg BD and RP2D 400mg BD. There is early signal of activity and phase II enrolment is to begin. Clinical trial information: NCT03513211.

Published
2021
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8. Abstract 507: Repurposing of FDA approved drugs for treatment of metastatic HNSCC

Author

Brad Wouters, Marianne Koritzinsky, Aleksandra Pesic, Jason Moffat, Anna Dvorkin-Sheva, Troy Ketela, and Maria Kondratyev

Subjects
Oncology, Cancer Research, medicine.medical_specialty, business.industry, Internal medicine, medicine, business, Repurposing
Abstract

HNSCC is 6th most common malignancy in the world. Despite advances in diagnosis and treatment, the survival rates remain low due in large part to metastatic disease. The underlying biology associated with metastatic disease and poor outcome in HNSCC remains unclear. Importantly, metastatic cells acquire new properties that permit them to invade surrounding tissues and seed metastasis at distant sites. While these acquired properties contribute to aggressiveness of metastatic cancer and interfere with success of therapies, they can also potentially be exploited to target metastatic cells selectively, sparing toxicity in normal tissues. We used functional genomic technologies to identify new potential therapeutic targets for advanced disease in HNSCC. These targets were identified by conducting whole genome shRNA screens in matched sets of cell lines derived from primary HNSCC tumors and their respective metastatic sites or recurrences. While extensive efforts are being made by both industry and academia to develop novel anti-cancer drugs, this process is still very slow and expensive. Drug repurposing is becoming increasingly popular due to a reduced risk to patients and lower costs of drug development compared to “de novo” discovery. We utilized 2 large chemical libraries (Selleck and Prestwick) that together contain about 4000 drugs approved by FDA and similar agencies worldwide. The libraries were screened against the HNSCC lines described above in order to discover new drugs targeting head and neck cancer including drugs that target selectively metastatic cells compared to their primary tumor counterparts. We accomplished screening of 30 HNSCC lines for all of which we have also obtained the functional genomic, mutational and gene expression data. We aim to combine our functional genomic data with the results from the drug screens to discover drug/gene “hit” combinations that would provide a basis for development of novel anti-cancer therapies. For this purpose, we are looking at correlations between the drugs and the shRNAs that have similar pattern of effects across the 30 cell lines. To complement the functional screens data, we performed targeted sequencing of the most commonly altered genes in HNSCC as reported by the TCGA. This data will help understand which pathways are affected by the drugs we select to investigate. Out of the 30 lines, we have 13 sets of “matched” lines that belong to the same patients, coming from primary tumors, metastatic sites or recurrences. As a first step of the analysis, we looked at drugs that affected cells derived from metastases but not those from the respective primary tumors. Interestingly, many of the metastasis-specific drugs were antibiotics. We selected 10 of the drugs for further validation; dose response-based viability assays and growth curves experiments confirmed that 5 of the drugs were selectively affecting survival and proliferation of the metastatic cell lines; the mechanism of this effect are currently being investigated. Citation Format: Maria Kondratyev, Aleksandra Pesic, Anna Dvorkin-Sheva, Troy Ketela, Jason Moffat, Marianne Koritzinsky, Brad Wouters. Repurposing of FDA approved drugs for treatment of metastatic HNSCC [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 507.

Published
2020
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9. Abstract B10: Antibacterial defense and metastatic progression—lessons from head and neck cancer

Author

Brad Wouters, Aleksandra Pesic, Marianne Koritzinsky, Maria Kondratyev, and Carl Virtanen

Subjects
Cancer Research, business.industry, medicine.medical_treatment, Head and neck cancer, Disease, medicine.disease, Malignancy, Primary tumor, Metastasis, Radiation therapy, Gene expression profiling, Beta defensin, Oncology, medicine, Cancer research, business
Abstract

HNSCC is the 6th most common malignancy in the world. The prognosis is favorable during early stages; however, the disease is rarely diagnosed early due to the lack of symptoms. Most HNSCC patients present with metastatic disease for which the survival rates remain low. Hypoxia serves as a bad prognostic factor in HNSCC correlating with worse survival and resistance to radiotherapy. We aimed to discover novel targets in metastatic HNSCC utilizing a unique collection of matched sets of cell lines derived from primary tumors and their respective metastatic sites. We carried out expression profiling across the lines to reveal potential common changes in gene expression between the cells derived from primary and metastatic sites in each patient as well as between normoxia and hypoxia. This analysis revealed significant changes in gene expression between the described conditions. Interestingly, beta defensin 2 was one of the genes that came up as overexpressed in metastasis as well as in cells cultured in hypoxia. Beta defensins are small cationic peptides that belong to the innate immune system and exhibit antimicrobial and antiviral activities. Few studies reported their abnormal expression patterns in various cancers including HNSCC. While various novel anticancer therapies are currently being developed, early diagnosis remains one of the biggest challenges in cancer research. A discovery of soluble serum factors that can reliably detect the presence of primary or metastatic disease would serve as an extremely valuable tool in defining diagnosis and prognosis, predicting the response to treatment, and monitoring disease progression. We hypothesized the beta defensin 2 can serve as a serum biomarker of hypoxia and metastasis in HNSCC patients. Utilizing a commercial ELISA kit developed to detect and quantify levels of beta-defensin in human sera, we demonstrated that media collected from cell lines derived from metastases contained higher levels of beta-defensin compared to the cell lines derived from the primary tumors. Moreover, sera from HNSCC patients showed higher levels of beta defensin compared to the normal controls. As a next step, we tested sera samples from 40 HNSCC patients, of whom 20 had lymph node metastasis and 20 did not. While these data are still under analysis, preliminary results suggest that higher concentrations of beta-defensin correlate with the presence of lymph node metastasis in HNSCC patients. Utilizing two large chemical libraries that together contain about 4,000 FDA-approved drugs, we performed high-throughput screening of the HNSCC lines described above in order to discover new drugs targeting head and neck cancer, including drugs that target selectively metastatic cells compared to their primary tumor counterparts. Interestingly, many of the metastasis-specific drugs were antibiotics. Together with the findings described above, these data clearly suggest a connection between patient microbiome and the metastatic process in HNSCC. Citation Format: Maria Kondratyev, Aleksandra Pesic, Carl Virtanen, Marianne Koritzinsky, Brad Wouters. Antibacterial defense and metastatic progression—lessons from head and neck cancer [abstract]. In: Proceedings of the AACR Special Conference on the Microbiome, Viruses, and Cancer; 2020 Feb 21-24; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2020;80(8 Suppl):Abstract nr B10.

Published
2020
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11. Abstract 3054: Cell surface targets in head and neck cancer

Author

Maria Kondratyev, Aleksandra Pesic, Azin Sayad, Troy Ketela, Natalie Stickle, Carl Virtanen, Jason Moffat, Laurie Ailles, Marianne Koritzinsky, and Brad Wouters

Subjects
Cancer Research, Oncology
Abstract

HNSCC is 6th most common malignancy in the world. Despite advances in diagnosis and treatment, the survival rates remain low due in large part to metastatic disease. The underlying biology associated with metastatic disease and poor outcome in HNSCC remains unclear. Importantly, metastatic cells acquire new properties that permit them to invade surrounding tissues and seed metastasis at distant sites. While these acquired properties contribute to aggressiveness of metastatic cancer and interfere with success of therapies, they can also potentially be exploited to target metastatic cells selectively, sparing toxicity in normal tissues. We used functional genomic technologies to identify new potential therapeutic targets for advanced disease in HNSCC. These targets were identified by conducting whole genome shRNA screens in matched sets of cell lines derived from primary tumors and their respective metastatic sites, with the goal of identifying genes that become essential for cell survival only following metastasis. Since hypoxia is an important attribute of aggressive and therapy resistant subpopulations of HNSCC tumor cells, we also aimed to identify genes that became essential when cells are exposed to hypoxia. We are particularly interested in the identification of contextual synthetic lethal oncogenes expressed on the cell surface, as those are easily targetable by therapeutic antibodies. To identify these targets, we performed high-throughput flow cytometry screening that enables evaluation of 370 validated cell surface antibodies. Cell surface targets differentially expressed in metastatic lines included CECAM and CCR6 that were previously reported to be implicated in metastasis and tumor progression as well as Thy1, a known marker of stem cells involved in regulation of cell adhesion. Cell surface targets induced under hypoxic conditions across the cell lines included CA9, an enzyme that is known to regulate pH in hypoxic cells and be associated with tumor progression, as well as CD338, CD264 and CD312, that were previously associated with stemness in a few models of cancer. Interestingly, the described proteins were also found to be differentially essential in the shRNA screens, highlighting their functional importance in tumor progression and hypoxia survival. We are currently investigating the role of these proteins in HNSCC metastasis utilizing our unique collection of matched pairs of HNSCC lines from multiple patients. Moreover, we are utilizing our pipeline of patient derived HNSCC xenografts to test the effect of knocking down the described genes in patient tumors. We are also testing the expression of selected hits in histological sections of patient tumorsthe 400-patient TMA by immunohistochemistry looking for correlation with tumor grade, aggressiveness, levels of hypoxia as well as presence/absence of metastasis in the patient. Citation Format: Maria Kondratyev, Aleksandra Pesic, Azin Sayad, Troy Ketela, Natalie Stickle, Carl Virtanen, Jason Moffat, Laurie Ailles, Marianne Koritzinsky, Brad Wouters. Cell surface targets in head and neck cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 3054.

Published
2019
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12. Abstract 407: Novel targets in metastatic HNSCC

Author

Natalie Stickle, Aleksandra Pesic, Troy Ketela, Azin Sayad, Jason Mofat, Reider Grenman, Maria Kondratyev, Carl Virtanen, Stephano Marastoni, and Brad Wouters

Subjects
Cancer Research, Oncology
Abstract

Head and neck carcinoma (HNSCC) is 6th most common malignancy in the world. Despite advances in diagnosis and treatment, the survival rates remain low due in large part to metastatic disease. The underlying biology associated with metastatic disease and poor outcome in HNSCC remains unclear. Importantly, metastatic cells acquire new properties that permit them to invade surrounding tissues and seed metastasis at distant sites. While these acquired properties contribute to aggressiveness of metastatic cancer and interfere with success of therapies, they can also potentially be exploited to target metastatic cells selectively, sparing toxicity in normal tissues. The idea behind this selective targeting is based on discovering molecular pathways that became essential in metastatic cells, and then exploiting this vulnerability through targeted agents. We used functional genomic technologies to identify new potential therapeutic targets for advanced disease in HNSCC. These targets were identified by conducting whole genome shRNA screens in matched sets of cell lines derived from primary tumors and their respective metastatic sites, with the goal of identifying genes that become essential for cell survival only following metastasis. Since hypoxia is an important attribute of aggressive and therapy resistant subpopulations of HNSCC tumor cells, we also aimed to identify genes that became essential when cells are exposed to hypoxia. To complement the functional screens data, we performed targeted sequencing of the most commonly altered genes in HNSCC as reported by the TCGA profiled gene expression in the HNSCC cell lines cultured under normoxia and hypoxia using Illumina microarrays. These analyses led to the discovery of genes that are differentially essential in metastatic cells as well as in cells exposed to hypoxic conditions. Utilizing CRISPR technology, we assembled a library of guide RNAs targeting the discovered hits and are currently validating the top identified genes using both in vitro and in vivo systems. To validate hits that are essential in metastatic cells in vivo, we engineered selected “matched” pairs of HNSCC cell lines to express CAS9 protein upon induction with doxycycline. The cells are then transduced with the library of guides and injected subcutaneously into mice; tumors from control and doxycycline treated animals are compared. The difference in genes that are essential for growth of tumors seeded by primary tumor derived and metastasis derived HNSCC cell lines is then assessed in a quantitative manner. Citation Format: Maria Kondratyev, Aleksandra Pesic, Troy Ketela, Azin Sayad, Stephano Marastoni, Jason Mofat, Carl Virtanen, Natalie Stickle, Reider Grenman, Brad Wouters. Novel targets in metastatic HNSCC [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 407.

Published
2018
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13. Small-Molecule Activation of p53 Blocks Hypoxia-Inducible Factor 1α and Vascular Endothelial Growth Factor Expression In Vivo and Leads to Tumor Cell Apoptosis in Normoxia and Hypoxia

Author

Gary Box, Brad Wouters, Alexis De Haven Brandon, Kasper M.A. Rouschop, Melanie Valenti, Jun Yang, Nina Perusinghe, Afshan Ahmed, Suzanne A. Eccles, Evon Poon, and Margaret Ashcroft

Subjects
Vascular Endothelial Growth Factor A, DNA Repair, DNA repair, DNA damage, Eukaryotic Initiation Factor-2, Apoptosis, Biology, Histones, Downregulation and upregulation, Cell Line, Tumor, Humans, Phosphorylation, Kinase activity, Furans, Molecular Biology, G alpha subunit, Articles, Cell Biology, Hypoxia-Inducible Factor 1, alpha Subunit, Cell Hypoxia, Cell biology, Vascular endothelial growth factor A, Hypoxia-inducible factors, Tumor Suppressor Protein p53, DNA Damage
Abstract

The p53 tumor suppressor protein negatively regulates hypoxia-inducible factor 1 alpha (HIF-1 alpha). Here, we show that induction of p53 by the small-molecule RITA (reactivation of p53 and induction of tumor cell apoptosis) [2,5-bis(5-hydroxymethyl-2-thienyl) furan] (NSC-652287) inhibits HIF-1 alpha and vascular endothelial growth factor expression in vivo and induces significant tumor cell apoptosis in normoxia and hypoxia in p53-positive cells. RITA has been proposed to stabilize p53 by inhibiting the p53-HDM2 interaction. However, induction of p53 alone was insufficient to block HIF-1 alpha induced in hypoxia and has previously been shown to require additional stimuli, such as DNA damage. Here, we identify a new mechanism of action for RITA: RITA activates a DNA damage response, resulting in phosphorylation of p53 and gamma H2AX in vivo. Unlike other DNA damage response-inducing agents, RITA treatment of cells induced a p53-dependent increase in phosphorylation of the alpha subunit of eukaryotic initiation factor 2, requiring PKR-like endoplasmic reticulum kinase activity, and led to the subsequent downregulation of HIF-1 alpha and p53 target proteins, including HDM2 and p21. Through the identification of a new mechanism of action for RITA, our study uncovers a novel link between the DNA damage response-p53 pathway and the protein translational machinery.

Published
2009
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14. Maximal neutropenia during chemotherapy and radiotherapy is significantly associated with the development of acute radiation-induced dysphagia in lung cancer patients

Author

Søren M. Bentzen, Jean Simons, Cordula Pitz, André Minken, P. Lambin, F. Koppe, R.-H Bremer, Dirk De Ruysscher, E van Haren, C Dehing, Madelon Pijls-Johannesma, Rinus Wanders, Wiel Geraedts, A.M. Dingemans, Liesbeth J. Boersma, Monique Hochstenbag, L Harzee, J.-F Rosier, and Brad Wouters

Subjects
Adult, Male, medicine.medical_specialty, Lung Neoplasms, Neutropenia, medicine.medical_treatment, Gastroenterology, Carcinoma, Non-Small-Cell Lung, Internal medicine, medicine, Humans, Carcinoma, Small Cell, Radiation Injuries, Lung cancer, Aged, Retrospective Studies, Aged, 80 and over, Chemotherapy, Leukopenia, business.industry, Radiotherapy Dosage, Hematology, Odds ratio, Middle Aged, medicine.disease, Combined Modality Therapy, Dysphagia, Chemotherapy regimen, Surgery, Radiation therapy, Oncology, Acute Disease, Female, medicine.symptom, Deglutition Disorders, business
Abstract

Background: Acute dysphagia is a distressing dose-limiting toxicity after concurrent chemoradiation or high-dose radiotherapy for lung cancer. We therefore identified factors associated with the occurrence of acute dysphagia in lung cancer patients receiving radiotherapy alone or combined with chemotherapy. Patients and methods: Radiotherapy, chemotherapy and patient characteristics were analyzed using ordinal regression analysis as possible predictors for acute dysphagia (CTCAE 3.0) in 328 lung cancer patients treated with curative intent. Results: The most significant association was seen between the maximal grade of neutropenia during chemoradiation and dysphagia, with an odds ratio increasing from 1.49 [95% confidence interval (CI) 0.63–3.54, P = 0.362] for grade 1–2 neutropenia to 19.7 (95% CI 4.66–83.52, P < 0.001) for patients with grade 4 neutropenia. Twice-daily schedule, mean esophageal dose and administration of chemotherapy were significant predictive factors. By combining these factors, a high-performance predictive model was made. On an individual patient level, 64% of patients were correctly classified and only 1.2% of patients were misclassified by more than one grade. Conclusions: The maximal neutrophil toxicity during concurrent chemotherapy and radiotherapy is strongly associated with the development of acute dysphagia. A multivariate predictive model was developed.

Published
2007
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15. Effects of radiotherapy planning with a dedicated combined PET-CT-simulator of patients with non-small cell lung cancer on dose limiting normal tissues and radiation dose-escalation: A planning study

Author

Liesbeth J. Boersma, Tom Verschueren, Serve Halders, S Wanders, Jacqueline Schiffelers, Brad Wouters, Angela van Baardwijk, Gabriel Snoep, Michel Öllers, Monique Hochstenbag, Søren M. Bentzen, Marinus J.P.G. van Kroonenburgh, Dirk De Ruysscher, Cissie Stultiens, Sebastiaan M. J. J. G. Nijsten, Aniek Lumens, André Minken, and Philippe Lambin

Subjects
medicine.medical_specialty, Lung Neoplasms, medicine.medical_treatment, Carcinoma, Non-Small-Cell Lung, medicine, Esophagitis, Humans, Radiology, Nuclear Medicine and imaging, Esophagus, Radiation Injuries, Lung cancer, Simulation, Neoplasm Staging, Pneumonitis, PET-CT, Lung, business.industry, Dose-Response Relationship, Radiation, Hematology, medicine.disease, Spinal cord, Radiation therapy, medicine.anatomical_structure, Oncology, Positron-Emission Tomography, Radiology, Tomography, Radiotherapy, Conformal, Tomography, X-Ray Computed, business, Nuclear medicine
Abstract

Background and purpose To investigate the effect of radiotherapy planning with a dedicated combined PET-CT simulator of patients with locally advanced non-small cell lung cancer. Patients and methods Twenty-one patients underwent a pre-treatment simulation on a dedicated hybrid PET-CT-simulator. For each patient, two 3D conformal treatment plans were made: one with a CT based PTV and one with a PET-CT based PTV, both to deliver 60 Gy in 30 fractions. The maximum tolerable prescribed radiation dose for CT versus PET-CT PTV was calculated based on constraints for the lung, the oesophagus, and the spinal cord, and the Tumour Control Probability (TCP) was estimated. Results For the same toxicity levels of the lung, oesophagus and spinal cord, the dose could be increased from 55.2±2.0 Gy with CT planning to 68.9±3.3 Gy with the use of PET-CT (P=0.002), with corresponding TCP's of 6.3±1.5% for CT and 24.0±5.6% for PET-CT planning (P=0.01). Conclusions The use of a combined dedicated PET-CT-simulator reduced radiation exposure of the oesophagus and the lung, and thus allowed significant radiation dose escalation whilst respecting all relevant normal tissue constraints.

Published
2005
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16. Increased therapeutic ratio by 18FDG-PET CT planning in patients with clinical CT stage N2-N3M0 non–small-cell lung cancer: A modeling study

Author

Ludy C.H.W. Lutgens, Monique Hochstenbag, Sebastiaan M. J. J. G. Nijsten, Philippe Lambin, Rinus Wanders, Dirk De Ruysscher, R.J.S. Lamers, Søren M. Bentzen, Brad Wouters, Michael Zimny, Antoinet van Der Wel, and Liesbeth J. Boersma

Subjects
Cancer Research, medicine.medical_specialty, Lung Neoplasms, medicine.medical_treatment, Median toxic dose, Esophagus, Fluorodeoxyglucose F18, Carcinoma, Non-Small-Cell Lung, Confidence Intervals, medicine, Humans, Radiology, Nuclear Medicine and imaging, Stage (cooking), Lung cancer, Lung, Neoplasm Staging, Fluorodeoxyglucose, Radiation, medicine.diagnostic_test, business.industry, Radiotherapy Planning, Computer-Assisted, Dose-Response Relationship, Radiation, medicine.disease, Radiation therapy, medicine.anatomical_structure, Oncology, Positron emission tomography, Positron-Emission Tomography, Radiographic Image Interpretation, Computer-Assisted, Radiology, Radiopharmaceuticals, Radiotherapy, Conformal, Tomography, X-Ray Computed, Nuclear medicine, business, medicine.drug
Abstract

Purpose With this modeling study, we wanted to estimate the potential gain from incorporating fluorodeoxyglucose-positron emission tomography (FDG-PET) scanning in the radiotherapy treatment planning of CT Stage N2-N3M0 non–small-cell lung cancer (NSCLC) patients. Methods and materials Twenty-one consecutive patients with clinical CT Stage N2-N3M0 NSCLC were studied. For each patient, two three-dimensional conformal treatment plans were made: one with a CT-based planning target volume (PTV) and one with a PET-CT–based PTV, both to deliver 60 Gy in 30 fractions. From the dose–volume histograms and dose distributions on each plan, the dosimetric factors predicting esophageal and lung toxicity were analyzed and compared. For each patient, the maximal tolerable prescribed radiation dose for the CT PTV vs. PET-CT PTV was calculated according to the constraints for the lung, esophagus, and spinal cord. From these results, the tumor control probability (TCP) was estimated, assuming a clinical dose–response curve with a median toxic dose of 84.5 Gy and a γ 50 of 2.0. Dose–response curves were modeled, taking into account geographic misses according to the accuracy of CT and PET in our institutions. Results The gross tumor volume of the nodes decreased from 13.7 ± 3.8 cm 3 on the CT scan to 9.9 ± 4.0 cm 3 on the PET-CT scan ( p = 0.011). All dose–volume characteristics for the esophagus and lungs decreased in favor of PET-CT. The esophageal V 45 (the volume of the esophagus receiving 45 Gy) decreased from 45.2% ± 4.9% to 34.0% ± 5.8% ( p = 0.003), esophageal V 55 (the volume of the esophagus receiving 55 Gy) from 30.6% ± 3.2% to 21.9% ± 3.8% ( p = 0.004), mean esophageal dose from 29.8 ± 2.5 Gy to 23.7 ± 3.1 Gy ( p = 0.004), lung V 20 (the volume of the lungs minus the PTV receiving 20 Gy) from 24.9% ± 2.3% to 22.3% ± 2.2% ( p = 0.012), and mean lung dose from 14.7 ± 1.3 Gy to 13.6 ± 1.3 Gy ( p = 0.004). For the same toxicity levels of the lung, esophagus, and spinal cord, the dose could be increased from 56.0 ± 5.4 Gy with CT planning to 71.0 ± 13.7 Gy with PET planning ( p = 0.038). The TCP corresponding to these doses was estimated to be 14.2% ± 5.6% for CT and 22.8% ± 7.1% for PET-CT planning ( p = 0.026). Adjusting for geographic misses by PET-CT vs. CT planning yielded TCP estimates of 12.5% and 18.3% ( p = 0.009) for CT and PET-CT planning, respectively. Conclusion In this group of clinical CT Stage N2-N3 NSCLC patients, use of FDG-PET scanning information in radiotherapy planning reduced the radiation exposure of the esophagus and lung, and thus allowed significant radiation dose escalation while respecting all relevant normal tissue constraints. This, together with a reduced risk of geographic misses using PET-CT, led to an estimated increase in TCP from 13% to 18%. The results of this modeling study support clinical trials investigating incorporation of FDG-PET information in CT-based radiotherapy planning.

Published
2005
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17. Abstract 3020: Novel therapeutic targets in head and neck cancer

Author

Brad Wouters, Laurie Ailles, Aleksandra Pesic, Marianne Koritzinsky, Mikhail Bashkurov, Azin Sayad, Soroush Samadian, Carl Virtanen, Troy Ketela, Maria Kondratyev, and Stephano Marastoni

Subjects
JAG2, Cancer Research, Mutation, business.industry, Head and neck cancer, Notch signaling pathway, Cancer, medicine.disease, medicine.disease_cause, Malignancy, Primary tumor, Metastasis, Oncology, Cancer research, Medicine, business
Abstract

HNSCC is 6th most common malignancy in the world. Despite advances in diagnosis and treatment, the survival rates remain low due to frequent recurrences the biology of which remains unclear. Using functional genomic technologies, we identified new therapeutic targets for metastatic disease in HNSCC. Whole genome shRNA screens were conducted in matched sets of cell lines derived from primary tumors and respective metastatic sites, identifying genes essential for cell survival only following metastasis. To test if knockdown of selected targets inhibits metastasis in a therapeutic setting, we established orthotropic model of HNSCC that metastasize to lymph nodes in the mouse. Components of Notch pathway were identified as essential for survival of cells derived from metastatic sites. Whole exome sequencing identified a novel mutation in one of the EGF domains of Notch3 that was acquired only in the metastatic line. Utilizing CRISPR methodology, we established that “fixing” the mutation results in reversal of metastatic phenotype of the cells, making them Notch independent similar to their primary tumor counterparts. Mutations in EGF domains have been reported to influence interaction with specific ligands, dictating which ligand can activate Notch signaling. Our data indicate that a distinct set of target genes is induced upon interaction between Notch3 and Jag2 ligand. Furthermore, our results indicate that suppression of Notch3 improves survival in mice bearing orthotropic tumors derived from the metastatic HNSCC lines. Overall, our data demonstrate that metastatic cells from head and neck tumors acquire dependency on Notch3 signaling. Novel treatments targeting components of this pathway may prove effective in targeting metastatic cells alone or in combination with conventional therapies. Citation Format: Maria Kondratyev, Aleksandra Pesic, Troy Ketela, Azin Sayad, Stephano Marastoni, Carl Virtanen, Laurie Ailles, Soroush Samadian, Mikhail Bashkurov, Marianne Koritzinsky, Brad Wouters. Novel therapeutic targets in head and neck cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 3020. doi:10.1158/1538-7445.AM2017-3020

Published
2017
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18. Cell cycle progression and radiation survival following prolonged hypoxia and re-oxygenation

Author

Erik O. Pettersen, Øystein Åmellem, Marianne Koritzinsky, and Brad Wouters

Subjects
Cell Survival, Cell, Population, Uterine Cervical Neoplasms, Biology, Andrology, Tumor Cells, Cultured, medicine, Humans, Radiology, Nuclear Medicine and imaging, Radiosensitivity, education, Mitosis, Tumor Stem Cell Assay, Survival analysis, education.field_of_study, Radiological and Ultrasound Technology, Carcinoma, Cell Cycle, Hypoxia (medical), Cell cycle, Flow Cytometry, Cell Hypoxia, Oxygen, medicine.anatomical_structure, Bromodeoxyuridine, Cell culture, Immunology, Female, medicine.symptom, Cell Division
Abstract

To investigate cell cycle progression and radiation survival following prolonged hypoxia and re-oxygenation.NHIK 3025 human cervical carcinoma cells were exposed to extremely hypoxic conditions (4ppm O2) for 20 h and then re-oxygenated. The subsequent cell cycle progression was monitored by analysing cell cycle distribution at different time-points after re-oxygenation using two-dimensional flowcytometry. The clonogenic survival after a 3.6 Gy X-ray dose was also measured at each of these time-points. The measured radiation survival was compared with theoretical predictions based on cell cycle distribution and the radiation age response of the cells.Following re-oxygenation the cells resumed cell cycle progression, completed S-phase, and then accumulated in G2. Non-clonogenic cells remained permanently arrested in G2, while the remainder of the cells completed mitosis after a few hours delay. The radiation survival of the hypoxia-pretreated cell population remained lower than for an exponentially growing control population for the investigated 50h of re-oxygenation. However, following 7 h of re-oxygenation, the radiation survival of the hypoxia-treated cell population correlated well with theoretically predicted values based on cell cycle distribution and radiation age response.The work demonstrates that prolonged hypoxia followed by re-oxygenation results in a G2 delay similar to that observed after DNA damage. Furthermore, chronic hypoxia results in decreased radiation survival for at least 50h following the reintroduction of oxygen. The hypoxia-induced radiosensitization following 7 h of re-oxygenation could in large part be explained by the synchronous cell cycle progression that occurred.

Published
2001
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19. Pantoprazole affecting docetaxel resistance pathways via autophagy (PANDORA): A phase II trial in men with metastatic castrate resistant prostate cancer (mCRPC)

Author

M.B. Zavitz, Arnoud J. Templeton, Anthony M. Joshua, Eric Chen, Andrew Evans, Ian F. Tannock, Amy Prawira, Aaron R. Hansen, Lisa Wang, Francisco E. Vera-Badillo, Brad Wouters, Qian Tan, Srikala S. Sridhar, and Jennifer J. Knox

Subjects
Oncology, medicine.medical_specialty, business.industry, Autophagy, Castrate-resistant prostate cancer, Hematology, 03 medical and health sciences, 0302 clinical medicine, 030220 oncology & carcinogenesis, Internal medicine, Medicine, 030212 general & internal medicine, business, Docetaxel resistance, Pantoprazole, medicine.drug
Published
2016
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20. Abstract 3794: Novel therapeutic targets in head and neck cancer

Author

Carl Virtanen, Alessandro Dati, Stephano Marastoni, Troy Ketela, Laurie Ailles, Reidar Grénman, Maria Kondratyev, Marianne Koritzinsky, Aleksandra Pesic, Azin Sayad, Mikhail Bashkurov, Brad Wouters, and Jason Moffat

Subjects
JAG2, Cancer Research, Pathology, medicine.medical_specialty, business.industry, Head and neck cancer, Notch signaling pathway, Cancer, medicine.disease, Malignancy, Primary tumor, Metastasis, Oncology, medicine, Cancer research, business, Exome sequencing
Abstract

HNSCC is 6th most common malignancy in the world. Despite advances in diagnosis and treatment, the survival rates remain low due to frequent recurrences the biology of which remains unclear. Using functional genomic technologies we identified new therapeutic targets for metastatic disease in HNSCC. Whole genome shRNA screens were conducted in matched sets of cell lines derived from primary tumors and respective metastatic sites, identifying genes essential for cell survival only following metastasis. To test if knockdown of selected targets inhibits metastasis in a therapeutic setting, we established orthotropic model of HNSCC that metastasize to lymph nodes in the mouse. Components of Notch pathway were identified as essential for survival of cells derived from metastatic sites. Whole exome sequencing identified a novel mutation in one of the EGF domains of Notch3 that was acquired only in the metastatic line. Mutations in EGF domains have been reported to influence interaction with specific ligands, dictating which ligand can activate Notch signaling. Our data indicate that metastatic, but not primary tumor cells, undergo apoptosis upon knockdown of Notch3 and that a distinct set of target genes is induced upon interaction between Notch3 and Jag2 ligand. Furthermore, our results indicate that suppression of Notch3 improves survival in mice bearing orthotropic tumors derived from the metastatic HNSCC lines. Our data demonstrate that metastatic cells from head and neck tumors acquire dependency on Notch3 signaling. Novel treatments targeting components of this pathway may prove effective in targeting metastatic cells alone or in combination with conventional therapies. Citation Format: Maria Kondratyev, Aleksandra Pesic, Stephano Marastoni, Troy Ketela, Jason Moffat, Carl Virtanen, Azin Sayad, Mikhail Bashkurov, Alessandro Dati, Laurie Ailles, Reidar Grenman, Marianne Koritzinsky, Brad Wouters. Novel therapeutic targets in head and neck cancer. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 3794.

Published
2016
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21. Pantoprazole affecting docetaxel resistance pathways via autophagy (PANDORA): a phase II trial in men with castration resistant prostate cancer (mCRPC)

Author

Eric Chen, Amy Prawira, Arnoud J. Templeton, Anthony M. Joshua, Andrew Evans, Mary-Beth Zavitz, Aaron R. Hansen, Susie Tan, Brad Wouters, Ian F. Tannock, Francisco E. Vera-Badillo, Jennifer J. Knox, Srikala S. Sridhar, and Lisa Wang

Subjects
Oncology, Cancer Research, medicine.medical_specialty, business.industry, fungi, Autophagy, food and beverages, Castration resistant, medicine.disease, Prostate cancer, Docetaxel, Internal medicine, Medicine, Docetaxel resistance, business, Pantoprazole, medicine.drug
Abstract

e16502Background: Enhancing the effectiveness of docetaxel for men with mCRPC is an unmet clinical need. Preclinical studies in our laboratory demonstrated that high dose pantoprazole can prevent o...

Published
2016
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22. Poorer outcome in stromal HIF-2 alpha- and CA9-positive colorectal adenocarcinomas is associated with wild-type TP53 but not with BNIP3 promoter hypermethylation or apoptosis

Author

Brad Wouters, M. van Engeland, Bert Schutte, A.P. de Bruine, Arjen H. G. Cleven, and Angela J. Spiertz

Subjects
Cancer Research, Programmed cell death, Pathology, medicine.medical_specialty, Stromal cell, Tumor suppressor gene, BNIP3, Apoptosis, colorectal cancer, Biology, Adenocarcinoma, Antigens, Neoplasm, Proto-Oncogene Proteins, Clinical Studies, medicine, Basic Helix-Loop-Helix Transcription Factors, Humans, Prospective Studies, TP53, Carbonic Anhydrase IX, Promoter Regions, Genetic, neoplasms, Carbonic Anhydrases, hypoxia, Cancer, Membrane Proteins, DNA Methylation, medicine.disease, Genes, p53, Immunohistochemistry, Survival Analysis, Treatment Outcome, Oncology, Hypoxia-inducible factors, DNA methylation, Mutation, Cancer research, outcome, Stromal Cells, Colorectal Neoplasms
Abstract

Stromal expression of hypoxia inducible factor 2 alpha (HIF-2 alpha) and carbonic anhydrase 9 (CA9) are associated with a poorer prognosis in colorectal cancer (CRC). Tumour cell death, regulated by a hypoxic stromal microenvironment, could be of importance in this respect. Therefore, we correlated apoptosis, TP53 mutational status and BNIP3 promoter hypermethylation of CRC cells with HIF-2 alpha- and CA9-related poor outcome. In a series of 195 CRCs, TP53 mutations in exons 5-8 were analysed by direct sequencing, and promoter hypermethylation of BNIP3 was determined by methylation-specific PCR. Expressions of HIF-2 alpha, CA9, p53, BNIP3 and M30 were analysed immunohistochemically. Poorer survival of HIF-2 alpha and CA9 stromal-positive CRCs was associated with wild-type TP53 (P=0.001 and P=0.0391), but not with BNIP3 methylation. Furthermore, apoptotic levels were independent of the TP53 status, but lower in unmethylated BNIP3 CRCs (P=0.004). It appears that wild-type TP53 in CRC cells favours the progression of tumours expressing markers for hypoxia in their stroma, rather than in the epithelial compartment. Preserved BNIP3 function in CRC cells lowers apoptosis, and may thus be involved in alternative cell death pathways, such as autophagic cell death. However, BNIP3 silencing in tumour cells does not impact on hypoxia-driven poorer prognosis. These results suggest that the biology of CRC cells can be modified by alterations in the tumour microenvironment under conditions of tumour hypoxia.

Published
2008

23. PD3-1-3: Zirconium-89 labeled Cetuximab: A very promising imaging probe to monitor and quantify EGFR expression non-invasively in vivo

Author

Roland K. Chiu, Hugo J.W.L. Aerts, Ludwig Dubois, Philippe Lambin, Brad Wouters, Tilman M. Hackeng, Dirk De Ruysscher, Roel Straathof, Guido Lammering, and Guus A.M.S. van Dongen

Subjects
Pulmonary and Respiratory Medicine, Zirconium-89-Labeled Cetuximab, Oncology, business.industry, In vivo, Cancer research, Medicine, business, Egfr expression
Published
2007
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24. Abstract 732: Using functional and chemical genomics to identify mechanisms of Enzalutamide resistance in prostate cancer

Author

Brad Wouters, Amina Zoubeidi, Sujeeve Jeganathan, Martin E. Gleave, and Anthony M. Joshua

Subjects
Cancer Research, chemistry.chemical_compound, Prostate cancer, Oncology, chemistry, business.industry, Cancer research, Medicine, Enzalutamide, Genomics, business, medicine.disease
Abstract

Introduction: Enzalutamide is a recently approved potent androgen receptor antagonist for prostate cancer both in the pre- and post-docetaxel settings. Its action relies upon 3 defined mechanisms of action: 1) blocking testosterone binding to the androgen receptor (AR), 2) preventing nuclear translocation of AR, and 3) inhibiting AR-DNA binding. However, despite its utility in prolonged overall survival in both these settings, disease relapse is inevitable, suggesting that resistance to the drug is somehow being acquired and is of vital concern. Methods: Using a combination of high-throughput functional genomic (kinome-shRNA) and chemical genomic (pharmacological inhibitor) screens, along with various in vitro / in vivo assays (proliferation, apoptosis, necrosis, soft agar growth, etc.) we have identified the IkB kinase (IKK) / IkB / NFkB signaling axis as important for acquisition of, and continued resistance to, Enzalutamide. Results: Using a panel of Enzalutamide-resistant and -sensitive cell lines, we show that targeting this signaling axis will selectively kill Enzalutamide-resistant cells while not affecting the proliferation of sensitive cells. Moreover, our data shows that the pharmacological inhibitors and shRNAs are effective even without Enzalutamide administration, negating any potential drug-drug interaction issues. Finally, we have found that our cells are resistant to Enzalutamide in an AR-V7-independent manner, suggesting that NFkB signaling is acting in a novel manner to bring about the resistance phenotype. Conclusions: Through in vitro and in vivo experiments, we provide evidence that targeting activators of NFκB signalling can be a strategy to help patients with Enzalutamide-resistant prostate cancer. Note: This abstract was not presented at the meeting. Citation Format: Sujeeve Jeganathan, Amina Zoubeidi, Martin Gleave, Brad G. Wouters, Anthony M. Joshua. Using functional and chemical genomics to identify mechanisms of Enzalutamide resistance in prostate cancer. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 732. doi:10.1158/1538-7445.AM2015-732

Published
2015
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27. 31 Radiation responsive genes in glioma cells

Author

Brad Wouters, S. Bourne, Marianne Koritzinsky, Francesca M. Buffa, and Susan C Short

Subjects
Oncology, Glioma, medicine, Cancer research, Radiology, Nuclear Medicine and imaging, Hematology, Biology, medicine.disease, Gene
Published
2006
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28. 329. Use of Recombinant Non-Pathogenic Bacteria as Vectors for Hypoxia Targeted Gene Expression for Cancer Gene Therapy

Author

P. Lambin, Brad Wouters, Asferd Mengesha, Jan Theys, and Ludwig Dobois

Subjects
Pharmacology, Tumor hypoxia, Genetic enhancement, Gene delivery, Biology, Molecular biology, Viral vector, Drug Discovery, Gene expression, Genetics, Transcriptional regulation, Cancer research, Molecular Medicine, Anaerobic bacteria, Molecular Biology, Gene
Abstract

One of the most fundamental aspects of gene therapy for cancer continues to be targeting of therapeutic gene expression specifically to the tumor. In order to exclusively target malignant cells while at the same time sparing normal tissue, cancer gene therapy needs to combine highly selective gene delivery with highly specific gene expression. Specific bacterial strains have been considered as gene delivery vehicles as an alternative to viral vectors. We and others have been investigating the potential use of non-pathogenic anaerobic bacteria such as Clostridium. Their tumor specificity is based upon the unique physiology of solid tumors which is often characterized by regions of hypoxia and necrosis. We have constructed Clostridium strain that expresses the prodrug converting enzyme, nitroreductase that converts the prodrug CB1954 into a toxic agent that can kill dividing and non-dividing cells. As the enzyme is specifically targeted, high therapeutic doses are achieved only in the tumor. In vivo experiments using combined treatment of prodrug and recombinant bacteria administration resulted in a significant anti-tumoral response. Besides to Clostridium, the ability of the attenuated Salmonella to replicate preferentially in solid tumors demonstrated its potential use as gene delivery vector. However, despite its preferential tumor accumulation, normal tissues are also colonized albeit to a lesser extent. Although bacteria are cleared rapidly from the normal tissues, it negatively affects the specificity of the salmonella mediated gene transfer system. One way to address this problem is to obtain controlled gene expression when using attenuated Salmonella by exploiting tumor hypoxia. In that context, introducing a therapeutic gene under the transcriptional control of a hypoxia regulatory element might be promising.

Published
2005
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29. 347 NOVEL MECHANISMS OF GENE REGULATION BY HYPOXIA

Author

Brad Wouters, T. Beck, Michiel E. Adriaens, Marianne Koritzinsky, M. Chan-Seng-Yue, Peggy Prickaerts, and W. Voncken

Subjects
Regulation of gene expression, Oncology, medicine, Radiology, Nuclear Medicine and imaging, Hematology, Hypoxia (medical), medicine.symptom, Biology, Cell biology
Published
2012
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30. ERN1/IRE1 and XBP1 Are Dispensable for Myeloma Cell Survival but Are Required for the Anti-Myeloma Activity of Bortezomib

Author

Chungyee Leung-Hagesteijn, Brad Wouters, and Rodger E. Tiedemann

Subjects
Small interfering RNA, XBP1, ATF6, Bortezomib, Immunology, Cell Biology, Hematology, Biology, Biochemistry, Molecular biology, Cell biology, RNA interference, Plasma cell differentiation, Unfolded protein response, medicine, Gene silencing, medicine.drug
Abstract

Abstract 986 We have previously conducted kinome- (Tiedemann et al., Blood 2010) and genome- (Zhu et al., Blood 2011) wide small interfering RNA (siRNA) studies in human myeloma cells in the absence and presence of titrated bortezomib (BTZ) in order to identify genes that modulate BTZ sensitivity or resistance. From high throughput RNAi screening, endoplasmic reticulum-to-nucleus-signaling-1 (ERN1), the human homolog of yeast IRE-1, was identified with multiple siRNA as the kinase most potently required for BTZ activity, with genetic silencing associated with BTZ resistance. ERN1/IRE1 is an endoplasmic reticulum (ER)-resident transmembrane protein and a core component of the unfolded protein response (UPR). By gene expression profiling and western blot IRE1 is ubiquitously expressed across primary myeloma tumors and a panel of 14 human myeloma tumor lines (HMCL). Significantly, silencing of IRE1 with lentiviral shRNA induced BTZ resistance in 9/9 HMCL. IRE1 silencing in the absence of BTZ was surprisingly well tolerated in the majority of HMCL tested, with no loss of viability; however in 2/9 HMCL (JJN3, 8226) silencing of IRE1 resulted in reduced proliferation. Multiple RNAi yielded identical results. In response to unfolded protein accumulation within the ER lumen, IRE1 oligomerizes and auto-phosphorylates to reveal an endonuclease activity that splices X-box protein 1 (XBP1) mRNA to activate the potent bZIP transcription factor, XBP1s. XBP1 is essential for physiologic differentiation of B cells to plasma cells and its absence results in profound plasma cell deficiency (Reimold et al., 2001). Despite it's essential role in plasma cell differentiation, we find that XBP1, like IRE1, is redundant for myeloma cell survival under standard growth conditions. Lentiviral knockdown of XBP1 using multiple distinct RNAi failed to induce HMCL cytotoxicity; and resulted in reduced growth in only 2/9 HMCL, closely mirroring results observed with IRE1 inhibition. Significantly, XBP1 silencing also closely reproduced the BTZ resistance observed with IRE1 silencing. As plasmacytoma in patients grow under hypoxic conditions we next evaluated myeloma cell growth in response to hypoxia (0.2% O2) and concurrent UPR signaling disruption. At 48hrs, viability was comparable in IRE1 knockouts and parental cells. In contrast, HMCL with IRE1 silencing showed marked vulnerability to protein synthesis inhibition induced by puromycin, with selection against IRE1 silenced cells in mixed cultures. Notably, ER stress is signaled by 3 different transmembrane transducers (IRE1, PERK and ATF6), each contributing to distinct UPR pathways. As induced BTZ resistance from IRE1 or XBP1 inhibition might conceivably result either from loss of a death signal transmitted via IRE1-XBP1 following PI-induced ER stress, or from a compensatory increase in PERK or ATF6 homeostasis signaling in response to IRE1-XBP1 silencing, we generated single, double and triple knockdown HMCL with suppressed expression of 1, 2 or all 3 ER stress transducers (IRE1, PERK, ATF6). Individual silencing of either IRE1 or PERK in HMCL had no effect on levels of other ER stress transducers by western blot, however silencing of ATF6 caused compensatory increases in PERK while XBP1 silencing resulted in reduced IRE1. Importantly, HMCL lacking IRE1 and PERK or ATF6, showed no loss of BTZ resistance induced by either IRE1 or XBP1 knockdown, demonstrating that secondary increases in signaling via these alternative ER stress pathways do not account for the BTZ resistance induced by IRE1-XBP1 pathway inhibition. Consistent with the hypothesis that increased UPR signaling (via IRE1-XBP1) causes myeloma cell death, knock down of the ER luminal chaperone BiP (HSPA5), which negatively regulates all 3 stress transducers, proved cytotoxic in multiple HMCL. Overall, these data suggest that the anti-myeloma activity of BTZ involves a specific IRE1-XBP1 death signal generated in response to proteasome inhibition and unfolded protein ER stress, rather than ER failure from unfolded protein. As IRE1-XBP1 signaling is dispensable for myeloma cell survival under many growth conditions, targeted small molecule inhibitors of IRE1 currently under development may prove ineffective as single agent therapy for myeloma; moreover such agents may prove antagonist to PI therapy. Finally, disruption of the IRE1-XBP1 axis in primary tumors may mediate bortezomib resistance in patients. Disclosures: No relevant conflicts of interest to declare.

Published
2011
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34. P-127 18-FDG uptake on PET-scan correlates with CA IX expression, asurrogate marker for hypoxia, in patients with NSCLC

Author

Brad Wouters, A. Van Baardwijk, P. Lambin, P. Reinartz, Dirk De Ruysscher, Ulrich Buell, R.J. van Suylen, D. Rupa, Monique Hochstenbag, and Jan Theys

Subjects
Pulmonary and Respiratory Medicine, Cancer Research, Oncology, business.industry, Fdg uptake, Cancer research, Medicine, CA 15-3, In patient, Hypoxia (medical), medicine.symptom, business
Published
2005
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35. P-758 SER, a novel time factor predictive for long-term survival in patients with limited disease small cell lung cancer after combined chest radiotherapy and chemotherapy

Author

Liesbeth J. Boersma, Dirk De Ruysscher, M Pijls, Johan Vansteenkiste, Søren M. Bentzen, Brad Wouters, S Wanders, André Minken, Monique Hochstenbag, and Philippe Lambin

Subjects
Pulmonary and Respiratory Medicine, Oncology, Cancer Research, medicine.medical_specialty, Chemotherapy, business.industry, medicine.medical_treatment, Radiation therapy, Time factor, Internal medicine, Long term survival, Limited disease, Medicine, In patient, Non small cell, business
Published
2005
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37. 784 Increased tumor control probability (TCP) and radiation dose escalation by FDG-PET planning of patients with N2/N3 Mo non-small cell lung cancer (NSCLC): A modeling study

Author

Brad Wouters, Søren M. Bentzen, U. Bull, Sebastiaan M. J. J. G. Nijsten, Rinus Wanders, P. Lambin, A. van der Wel, Ludy C.H.W. Lutgens, Monique Hochstenbag, and Dirk De Ruysscher

Subjects
Oncology, Cancer Research, medicine.medical_specialty, business.industry, Internal medicine, Radiation dose, medicine, non-small cell lung cancer (NSCLC), medicine.disease, Tumor control, business
Published
2003
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38. Biological Effects of Antiprotons; Are Antiprotons a Candidate for Cancer Therapy?

Author

Michael Holzscheiter, Jan Alsner, Angelo Angelopoulos, Niels Bassler, Gerd Beyer, Rebecca Boll, Fred Currell, John DeMacro, Michael Doser, Dragan Hajdukovic, Oliver Hartley, Kei Iwamoto, Oliver Jäkel, Ioannis Kantemiris, Franz-Joachim Kaiser, Joy Kavanagh, Roy Keyes, Helge Knudsen, Sandra Kovacevic, Søren Pape Møller, Jens Overgaard, Petersen, Jørgen B. B., Osman Ratib, Rochus Herrmann, Giuseppe Schettino, Stefan Sellner, Sara Tegami, David Timson, Heikki Tölli, Brita Singers Sørensen, Timothy Solberg, Sanja Vranjes, Carsten Welsch, Patrick Weber, and Brad Wouters

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