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1. High-throughput sensitive screening of small molecule modulators of microexon alternative splicing using dual Nano and Firefly luciferase reporters

Author

Andrew J. Best, Ulrich Braunschweig, Mingkun Wu, Shaghayegh Farhangmehr, Adrian Pasculescu, Justin J. Lim, Lim Caden Comsa, Mark Jen, Jenny Wang, Alessandro Datti, Jeffrey L. Wrana, Sabine P. Cordes, Rima Al-awar, Hong Han, and Benjamin J. Blencowe

Subjects
Science
Abstract

Abstract Disruption of alternative splicing frequently causes or contributes to human diseases and disorders. Consequently, there is a need for efficient and sensitive reporter assays capable of screening chemical libraries for compounds with efficacy in modulating important splicing events. Here, we describe a screening workflow employing dual Nano and Firefly luciferase alternative splicing reporters that affords efficient, sensitive, and linear detection of small molecule responses. Applying this system to a screen of ~95,000 small molecules identified compounds that stimulate or repress the splicing of neuronal microexons, a class of alternative exons often disrupted in autism and activated in neuroendocrine cancers. One of these compounds rescues the splicing of several analyzed microexons in the cerebral cortex of an autism mouse model haploinsufficient for Srrm4, a major activator of brain microexons. We thus describe a broadly applicable high-throughput screening system for identifying candidate splicing therapeutics, and a resource of small molecule modulators of microexons with potential for further development in correcting aberrant splicing patterns linked to human disorders and disease.

Published
2024
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2. The genomic and evolutionary landscapes of anaplastic thyroid carcinoma

Author

Peter Y.F. Zeng, Stephenie D. Prokopec, Stephen Y. Lai, Nicole Pinto, Michelle A. Chan-Seng-Yue, Roderick Clifton-Bligh, Michelle D. Williams, Christopher J. Howlett, Paul Plantinga, Matthew J. Cecchini, Alfred K. Lam, Iram Siddiqui, Jianxin Wang, Ren X. Sun, John D. Watson, Reju Korah, Tobias Carling, Nishant Agrawal, Nicole Cipriani, Douglas Ball, Barry Nelkin, Lisa M. Rooper, Justin A. Bishop, Cathie Garnis, Ken Berean, Norman G. Nicolson, Paul Weinberger, Ying C. Henderson, Christopher M. Lalansingh, Mao Tian, Takafumi N. Yamaguchi, Julie Livingstone, Adriana Salcedo, Krupal Patel, Frederick Vizeacoumar, Alessandro Datti, Liu Xi, Yuri E. Nikiforov, Robert Smallridge, John A. Copland, Laura A. Marlow, Martin D. Hyrcza, Leigh Delbridge, Stan Sidhu, Mark Sywak, Bruce Robinson, Kevin Fung, Farhad Ghasemi, Keith Kwan, S. Danielle MacNeil, Adrian Mendez, David A. Palma, Mohammed I. Khan, Mushfiq Shaikh, Kara M. Ruicci, Bret Wehrli, Eric Winquist, John Yoo, Joe S. Mymryk, James W. Rocco, David Wheeler, Steve Scherer, Thomas J. Giordano, John W. Barrett, William C. Faquin, Anthony J. Gill, Gary Clayman, Paul C. Boutros, and Anthony C. Nichols

Subjects
CP: Cancer, CP: Genomics, Biology (General), QH301-705.5
Abstract

Summary: Anaplastic thyroid carcinoma is arguably the most lethal human malignancy. It often co-occurs with differentiated thyroid cancers, yet the molecular origins of its aggressivity are unknown. We sequenced tumor DNA from 329 regions of thyroid cancer, including 213 from patients with primary anaplastic thyroid carcinomas. We also whole genome sequenced 9 patients using multi-region sequencing of both differentiated and anaplastic thyroid cancer components. Using these data, we demonstrate thatanaplastic thyroid carcinomas have a higher burden of mutations than other thyroid cancers, with distinct mutational signatures and molecular subtypes. Further, different cancer driver genes are mutated in anaplastic and differentiated thyroid carcinomas, even those arising in a single patient. Finally, we unambiguously demonstrate that anaplastic thyroid carcinomas share a genomic origin with co-occurring differentiated carcinomas and emerge from a common malignant field through acquisition of characteristic clonal driver mutations.

Published
2024
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3. Identification of acquired Notch3 dependency in metastatic Head and Neck Cancer

Author

Maria Kondratyev, Aleksandra Pesic, Troy Ketela, Natalie Stickle, Christine Beswick, Zvi Shalev, Stefano Marastoni, Soroush Samadian, Anna Dvorkin-Gheva, Azin Sayad, Mikhail Bashkurov, Pedro Boasquevisque, Alessandro Datti, Trevor J. Pugh, Carl Virtanen, Jason Moffat, Reidar A. Grénman, Marianne Koritzinsky, and Bradly G. Wouters

Subjects
Biology (General), QH301-705.5
Abstract

Abstract During cancer development, tumor cells acquire changes that enable them to invade surrounding tissues and seed metastasis at distant sites. These changes contribute to the aggressiveness of metastatic cancer and interfere with success of therapy. Our comprehensive analysis of “matched” pairs of HNSCC lines derived from primary tumors and corresponding metastatic sites identified several components of Notch3 signaling that are differentially expressed and/or altered in metastatic lines and confer a dependency on this pathway. These components were also shown to be differentially expressed between early and late stages of tumors in a TMA constructed from over 200 HNSCC patients. Finally, we show that suppression of Notch3 improves survival in mice in both subcutaneous and orthotopic models of metastatic HNSCC. Novel treatments targeting components of this pathway may prove effective in targeting metastatic HNSCC cells alone or in combination with conventional therapies.

Published
2023
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5. Biochemical and Anthropometric Parameters for the Early Recognition of the Intrauterine Growth Restriction and Preterm Neonates at Risk of Impaired Neurodevelopment

Author

Maria Cristina Aisa, Benito Cappuccini, Alessandro Favilli, Alessandro Datti, Vincenza Nardicchi, Giuliana Coata, and Sandro Gerli

Subjects
impaired neurodevelopment, IUGR, preterm, S100B, Tau, NGF, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Background: S100B and Tau are implicated with both brain growth and injury. Their urinary levels in 30-to-40-day-old full-term, preterm, IUGR, and preterm-IUGR subjects were measured to investigate their possible relationship with future delayed neurodevelopment. Methods: Values were related to the neuro-behavioral outcome at two years of age, as well as to brain volumes and urinary NGF assessed at the same postnatal time point. Results: Using the Griffiths III test, cognitive and motor performances were determined to establish subgroups characterized by either normal or impaired neuro-behavior. The latter included preterm, IUGR, and preterm-IUGR individuals who exhibited significantly higher and lower S100B and Tau levels, respectively, along with markedly reduced cerebral volumes and urinary NGF, as previously demonstrated. Contrary to NGF, however, Tau and S100B displayed a weak correlation with brain volumes. Conclusions: Delayed cognitive and motor performances observed in two-year-old preterm and IUGR-born individuals were also found to be associated with anomalous urinary levels of S100B and Tau, assessed at 30–40 days of the postnatal period, and their changes did not correlate with brain growth. Thus, our data suggests that, in addition to cerebral volumes and NGF, urinary S100B and Tau can also be considered as valuable parameters for the early detection of future neurodevelopmental abnormalities.

Published
2023
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6. ROCK inhibitors upregulate the neuroprotective Parkin-mediated mitophagy pathway

Author

Natalia Moskal, Victoria Riccio, Mikhail Bashkurov, Rediet Taddese, Alessandro Datti, Peter N. Lewis, and G. Angus McQuibban

Subjects
Science
Abstract

Damaged mitochondria are known to cause neuronal death, suggesting clearance as a potential therapy. Here, Moskal et al. show that ROCK inhibitors promote Parkin recruitment and mitophagy and have neuroprotective effects in fruit flies challenged with a toxin that induces mitochondrial damage.

Published
2020
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7. Amplification of a calcium channel subunit CACNG4 increases breast cancer metastasis

Author

Nisha Kanwar, Katia Carmine-Simmen, Ranju Nair, Chunjie Wang, Soode Moghadas-Jafari, Heiko Blaser, Danh Tran-Thanh, Dongyu Wang, Peiqi Wang, Jenny Wang, Adrian Pasculescu, Alessandro Datti, Tak Mak, John D. Lewis, and Susan J. Done

Subjects
Medicine, Medicine (General), R5-920
Abstract

Background: Previously, we found that amplification of chromosome 17q24.1-24.2 is associated with lymph node metastasis, tumour size, and lymphovascular invasion in invasive ductal carcinoma. A gene within this amplicon, CACNG4, an L-type voltage-gated calcium channel gamma subunit, is elevated in breast cancers with poor prognosis. Calcium homeostasis is achieved by maintaining low intracellular calcium levels. Altering calcium influx/efflux mechanisms allows tumour cells to maintain homeostasis despite high serum calcium levels often associated with advanced cancer (hypercalcemia) and aberrant calcium signaling. Methods: In vitro 2-D and 3-D assays, and intracellular calcium influx assays were utilized to measure tumourigenic activity in response to altered CANCG4 levels and calcium channel blockers. A chick-CAM model and mouse model for metastasis confirmed these results in vivo. Findings: CACNG4 alters cell motility in vitro, induces malignant transformation in 3-dimensional culture, and increases lung-specific metastasis in vivo. CACNG4 functions by closing the channel pore, inhibiting calcium influx, and altering calcium signaling events involving key survival and metastatic pathway genes (AKT2, HDAC3, RASA1 and PKCζ). Interpretation: CACNG4 may promote homeostasis, thus increasing the survival and metastatic ability of tumour cells in breast cancer. Our findings suggest an underlying pathway for tumour growth and dissemination regulated by CACNG4 that is significant with respect to developing treatments that target these channels in tumours with aberrant calcium signaling. Funding: Canadian Breast Cancer Foundation, Ontario; Canadian Institutes of Health Research. Keywords: Breast cancer metastasis, Gamma subunits, L-type channels, Voltage-gated calcium channels (VGCCs)

Published
2020
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8. Flavopiridol causes cell cycle inhibition and demonstrates anti-cancer activity in anaplastic thyroid cancer models.

Author

Nicole Pinto, Stephenie D Prokopec, Farhad Ghasemi, Jalna Meens, Kara M Ruicci, Imran M Khan, Neil Mundi, Krupal Patel, Myung W Han, John Yoo, Kevin Fung, Danielle MacNeil, Joe S Mymryk, Alessandro Datti, John W Barrett, Paul C Boutros, Laurie Ailles, and Anthony C Nichols

Subjects
Medicine, Science
Abstract

Anaplastic thyroid cancer (ATC) is a rare, but nearly uniformly fatal disease that is typically resistant to chemotherapy and radiation. Alternative strategies to target this cancer at a molecular level are necessary in order to improve dismal outcomes for ATC patients. We examined the effects of flavopiridol, a CDK inhibitor, in a panel of ATC cell lines. When cell lines were treated over a ten-point concentration range, CAL62, KMH2 and BHT-101 cell lines had a sub micromolar half-maximal inhibitory concentration, while no effect was seen in the non-cancerous cell line IMR-90. Flavopiridol treatment resulted in decreased levels of the cell cycle proteins CDK9 and MCL1, and induced cell cycle arrest. Flavopiridol also decreased the in vitro ability of ATC cells to form colonies and impeded migration using a transwell migration assay. In vivo, flavopiridol decreased tumor weight and tumor volume over time in a patient-derived xenograft model of ATC. Given the observed in vitro and in vivo activity, flavopiridol warrants further investigation for treatment of ATC.

Published
2020
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9. Identification of CDC25 as a Common Therapeutic Target for Triple-Negative Breast Cancer

Author

Jeff C. Liu, Letizia Granieri, Mariusz Shrestha, Dong-Yu Wang, Ioulia Vorobieva, Elizabeth A. Rubie, Rob Jones, YoungJun Ju, Giovanna Pellecchia, Zhe Jiang, Carlo A. Palmerini, Yaacov Ben-David, Sean E. Egan, James R. Woodgett, Gary D. Bader, Alessandro Datti, and Eldad Zacksenhaus

Subjects
Biology (General), QH301-705.5
Abstract

Summary: CDK4/6 inhibitors are effective against cancer cells expressing the tumor suppressor RB1, but not RB1-deficient cells, posing the challenge of how to target RB1 loss. In triple-negative breast cancer (TNBC), RB1 and PTEN are frequently inactivated together with TP53. We performed kinome/phosphatase inhibitor screens on primary mouse Rb/p53-, Pten/p53-, and human RB1/PTEN/TP53-deficient TNBC cell lines and identified CDC25 phosphatase as a common target. Pharmacological or genetic inhibition of CDC25 suppressed growth of RB1-deficient TNBC cells that are resistant to combined CDK4/6 plus CDK2 inhibition. Minimal cooperation was observed in vitro between CDC25 antagonists and CDK1, CDK2, or CDK4/6 inhibitors, but strong synergy with WEE1 inhibition was apparent. In accordance with increased PI3K signaling following long-term CDC25 inhibition, CDC25 and PI3K inhibitors effectively synergized to suppress TNBC growth both in vitro and in xenotransplantation models. These results provide a rationale for the development of CDC25-based therapies for diverse RB1/PTEN/TP53-deficient and -proficient TNBCs. : Liu et al. report that inhibition of the protein phosphatase CDC25 kills diverse triple-negative breast cancer (TNBC) cells. Moreover, CDC25 antagonists cooperate with other drugs, such as PI3K inhibitors, to efficiently suppress growth of human TNBC engrafted into mice. Keywords: triple negative breast cancer, basal-like breast cancer, therapy, RB1, PTEN, TP53, CDC25, WEE1, CHK1, checkpoint control

Published
2018
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10. Identification of Drugs that Regulate Dermal Stem Cells and Enhance Skin Repair

Author

Sibel Naska, Scott A. Yuzwa, Adam P.W. Johnston, Smitha Paul, Kristen M. Smith, Maryline Paris, Michael V. Sefton, Alessandro Datti, Freda D. Miller, and David R. Kaplan

Subjects
Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

Here, we asked whether we could identify pharmacological agents that enhance endogenous stem cell function to promote skin repair, focusing on skin-derived precursors (SKPs), a dermal precursor cell population. Libraries of compounds already used in humans were screened for their ability to enhance the self-renewal of human and rodent SKPs. We identified and validated five such compounds, and showed that two of them, alprostadil and trimebutine maleate, enhanced the repair of full thickness skin wounds in middle-aged mice. Moreover, SKPs isolated from drug-treated skin displayed long-term increases in self-renewal when cultured in basal growth medium without drugs. Both alprostadil and trimebutine maleate likely mediated increases in SKP self-renewal by moderate hyperactivation of the MEK-ERK pathway. These findings identify candidates for potential clinical use in human skin repair, and provide support for the idea that pharmacological activation of endogenous tissue precursors represents a viable therapeutic strategy.

Published
2016
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11. Sprouts and Microgreens: Trends, Opportunities, and Horizons for Novel Research

Author

Angelica Galieni, Beatrice Falcinelli, Fabio Stagnari, Alessandro Datti, and Paolo Benincasa

Subjects
plant, elicitation, post-harvest, food safety, human nutrition, functional foods, Agriculture
Abstract

Sprouts and microgreens have attracted tremendous interest across multiple disciplines in recent years. Here, we critically review the most recent advances to underscore research prospects and niches, and related challenges, not yet addressed or fully pursued. In particular, we report a number of themes that merit special attention as a result of their relevance to plant science, nutrition, health, and zootechnics: (1) species not yet or inadequately investigated, such as wild plants, and fruit tree strains; (2) abiotic and biotic factors, and biostimulants, for elicitation strategies and metabolic engineering; (3) sanitization and processing technologies to obtain high-quality products; (4) digestive fate and impact of bioactive elements, antinutrients, and allergens on human nutrition; (5) experimental challenges to researching health benefits; (6) the opportunity to generate natural product libraries for drug discovery; and (7) sprouts in animal feeding to improve both animal health and the nutritional value of animal products for the human diet. The convergence of different themes involving interdisciplinary competencies advocate fascinating research pursuits, for example, the elicitation of metabolic variants to generate natural product collections for identification and selection of bioactive chemicals with a role as nutraceuticals, key constituents of functional foods, or interactive partners of specific drugs.

Published
2020
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12. Sorafenib as an Inhibitor of RUVBL2

Author

Nardin Nano, Francisca Ugwu, Thiago V. Seraphim, Tangzhi Li, Gina Azer, Methvin Isaac, Michael Prakesch, Leandro R. S. Barbosa, Carlos H. I. Ramos, Alessandro Datti, and Walid A. Houry

Subjects
RUVBL2, RUVBL1, Sorafenib, AAA+ proteins, Inhibition, Microbiology, QR1-502
Abstract

RUVBL1 and RUVBL2 are highly conserved ATPases that belong to the AAA+ (ATPases Associated with various cellular Activities) superfamily and are involved in various complexes and cellular processes, several of which are closely linked to oncogenesis. The proteins were implicated in DNA damage signaling and repair, chromatin remodeling, telomerase activity, and in modulating the transcriptional activities of proto-oncogenes such as c-Myc and β-catenin. Moreover, both proteins were found to be overexpressed in several different types of cancers such as breast, lung, kidney, bladder, and leukemia. Given their various roles and strong involvement in carcinogenesis, the RUVBL proteins are considered to be novel targets for the discovery and development of therapeutic cancer drugs. Here, we describe the identification of sorafenib as a novel inhibitor of the ATPase activity of human RUVBL2. Enzyme kinetics and surface plasmon resonance experiments revealed that sorafenib is a weak, mixed non-competitive inhibitor of the protein’s ATPase activity. Size exclusion chromatography and small angle X-ray scattering data indicated that the interaction of sorafenib with RUVBL2 does not cause a significant effect on the solution conformation of the protein; however, the data suggested that the effect of sorafenib on RUVBL2 activity is mediated by the insertion domain in the protein. Sorafenib also inhibited the ATPase activity of the RUVBL1/2 complex. Hence, we propose that sorafenib could be further optimized to be a potent inhibitor of the RUVBL proteins.

Published
2020
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13. Lestaurtinib is a potent inhibitor of anaplastic thyroid cancer cell line models.

Author

Nicole Pinto, Stephenie D Prokopec, Frederick Vizeacoumar, Karlee Searle, Matthew Lowerison, Kara M Ruicci, John Yoo, Kevin Fung, Danielle MacNeil, Jim C Lacefield, Hon S Leong, Joe S Mymryk, John W Barrett, Alessandro Datti, Paul C Boutros, and Anthony C Nichols

Subjects
Medicine, Science
Abstract

Anaplastic thyroid cancer (ATC) is a rare and lethal human malignancy with no known effective therapies in the majority of cases. Despite the use of conventional treatments such as chemotherapy, radiation and surgical resection, this disease remains almost universally fatal. In the present study, we identified the JAK2 inhibitor Lestaurtinib as a potent compound when testing against 13 ATC cell lines. Lestaurtinib demonstrated a potent antiproliferative effect in vitro at nanomolar concentrations. Furthermore, Lestaurtinib impeded cell migration and the ability to form colonies from single cells using scratch-wound and colony formation assays, respectively. Flow cytometry was used for cell cycle analysis following drug treatment and demonstrated arrest at the G2/M phase of the cell cycle, indicative of a cytostatic effect. In vivo studies using the chick chorioallantoic membrane xenograft models demonstrated that treatment with Lestaurtinib resulted in a significant decrease in endpoint tumor volume and vascularity using power Doppler ultrasound imaging. Overall, this study provides evidence that Lestaurtinib is a potent antiproliferative agent with potential antiangiogenic activity that warrants further investigation as a targeted therapy for ATC.

Published
2018
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14. Combined deletion of Pten and p53 in mammary epithelium accelerates triple‐negative breast cancer with dependency on eEF2K

Author

Jeff C Liu, Veronique Voisin, Sharon Wang, Dong‐Yu Wang, Robert A Jones, Alessandro Datti, David Uehling, Rima Al‐awar, Sean E Egan, Gary D Bader, Ming Tsao, Tak W Mak, and Eldad Zacksenhaus

Subjects
eEF2K, p53, prognosis, Pten, triple‐negative breast cancer, Medicine (General), R5-920, Genetics, QH426-470
Abstract

Abstract The tumor suppressors Pten and p53 are frequently lost in breast cancer, yet the consequences of their combined inactivation are poorly understood. Here, we show that mammary‐specific deletion of Pten via WAP‐Cre, which targets alveolar progenitors, induced tumors with shortened latency compared to those induced by MMTV‐Cre, which targets basal/luminal progenitors. Combined Pten‐p53 mutations accelerated formation of claudin‐low, triple‐negative‐like breast cancer (TNBC) that exhibited hyper‐activated AKT signaling and more mesenchymal features relative to Pten or p53 single‐mutant tumors. Twenty‐four genes that were significantly and differentially expressed between WAP‐Cre:Pten/p53 and MMTV‐Cre:Pten/p53 tumors predicted poor survival for claudin‐low patients. Kinome screens identified eukaryotic elongation factor‐2 kinase (eEF2K) inhibitors as more potent than PI3K/AKT/mTOR inhibitors on both mouse and human Pten/p53‐deficient TNBC cells. Sensitivity to eEF2K inhibition correlated with AKT pathway activity. eEF2K monotherapy suppressed growth of Pten/p53‐deficient TNBC xenografts in vivo and cooperated with doxorubicin to efficiently kill tumor cells in vitro. Our results identify a prognostic signature for claudin‐low patients and provide a rationale for using eEF2K inhibitors for treatment of TNBC with elevated AKT signaling.

Published
2014
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15. A negative genetic interaction map in isogenic cancer cell lines reveals cancer cell vulnerabilities

Author

Franco J Vizeacoumar, Roland Arnold, Frederick S Vizeacoumar, Megha Chandrashekhar, Alla Buzina, Jordan T F Young, Julian H M Kwan, Azin Sayad, Patricia Mero, Steffen Lawo, Hiromasa Tanaka, Kevin R Brown, Anastasia Baryshnikova, Anthony B Mak, Yaroslav Fedyshyn, Yadong Wang, Glauber C Brito, Dahlia Kasimer, Taras Makhnevych, Troy Ketela, Alessandro Datti, Mohan Babu, Andrew Emili, Laurence Pelletier, Jeff Wrana, Zev Wainberg, Philip M Kim, Robert Rottapel, Catherine A O'Brien, Brenda Andrews, Charles Boone, and Jason Moffat

Subjects
genetic interaction, genome stability, mitotic stress, pooled shRNA screening, Biology (General), QH301-705.5, Medicine (General), R5-920
Abstract

Abstract Improved efforts are necessary to define the functional product of cancer mutations currently being revealed through large‐scale sequencing efforts. Using genome‐scale pooled shRNA screening technology, we mapped negative genetic interactions across a set of isogenic cancer cell lines and confirmed hundreds of these interactions in orthogonal co‐culture competition assays to generate a high‐confidence genetic interaction network of differentially essential or differential essentiality (DiE) genes. The network uncovered examples of conserved genetic interactions, densely connected functional modules derived from comparative genomics with model systems data, functions for uncharacterized genes in the human genome and targetable vulnerabilities. Finally, we demonstrate a general applicability of DiE gene signatures in determining genetic dependencies of other non‐isogenic cancer cell lines. For example, the PTEN−/− DiE genes reveal a signature that can preferentially classify PTEN‐dependent genotypes across a series of non‐isogenic cell lines derived from the breast, pancreas and ovarian cancers. Our reference network suggests that many cancer vulnerabilities remain to be discovered through systematic derivation of a network of differentially essential genes in an isogenic cancer cell model.

Published
2013
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17. Application of an integrated physical and functional screening approach to identify inhibitors of the Wnt pathway

Author

Bryan W Miller, Garnet Lau, Chris Grouios, Emanuela Mollica, Miriam Barrios‐Rodiles, Yongmei Liu, Alessandro Datti, Quaid Morris, Jeffrey L Wrana, and Liliana Attisano

Subjects
cancer biology, signal transduction, systems biology, Biology (General), QH301-705.5, Medicine (General), R5-920
Abstract

Abstract Large‐scale proteomic approaches have been used to study signaling pathways. However, identification of biologically relevant hits from a single screen remains challenging due to limitations inherent in each individual approach. To overcome these limitations, we implemented an integrated, multi‐dimensional approach and used it to identify Wnt pathway modulators. The LUMIER protein–protein interaction mapping method was used in conjunction with two functional screens that examined the effect of overexpression and siRNA‐mediated gene knockdown on Wnt signaling. Meta‐analysis of the three data sets yielded a combined pathway score (CPS) for each tested component, a value reflecting the likelihood that an individual protein is a Wnt pathway regulator. We characterized the role of two proteins with high CPSs, Ube2m and Nkd1. We show that Ube2m interacts with and modulates β‐catenin stability, and that the antagonistic effect of Nkd1 on Wnt signaling requires interaction with Axin, itself a negative pathway regulator. Thus, integrated physical and functional mapping in mammalian cells can identify signaling components with high confidence and provides unanticipated insights into pathway regulators.

Published
2009
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18. RB1 status in triple negative breast cancer cells dictates response to radiation treatment and selective therapeutic drugs.

Author

Tyler J W Robinson, Jeff C Liu, Frederick Vizeacoumar, Thomas Sun, Neil Maclean, Sean E Egan, Aaron D Schimmer, Alessandro Datti, and Eldad Zacksenhaus

Subjects
Medicine, Science
Abstract

Triple negative breast cancer (TNBC) includes basal-like and claudin-low subtypes for which only chemotherapy and radiation therapy are currently available. The retinoblastoma (RB1) tumor suppressor is frequently lost in human TNBC. Knockdown of RB1 in luminal BC cells was shown to affect response to endocrine, radiation and several antineoplastic drugs. However, the effect of RB1 status on radiation and chemo-sensitivity in TNBC cells and whether RB1 status affects response to divergent or specific treatment are unknown. Using multiple basal-like and claudin-low cell lines, we hereby demonstrate that RB-negative TNBC cell lines are highly sensitive to gamma-irradiation, and moderately more sensitive to doxorubicin and methotrexate compared to RB-positive TNBC cell lines. In contrast, RB1 status did not affect sensitivity of TNBC cells to multiple other drugs including cisplatin (CDDP), 5-fluorouracil, idarubicin, epirubicin, PRIMA-1(met), fludarabine and PD-0332991, some of which are used to treat TNBC patients. Moreover, a non-biased screen of ∼3400 compounds, including FDA-approved drugs, revealed similar sensitivity of RB-proficient and -deficient TNBC cells. Finally, ESA(+)/CD24(-/low)/CD44(+) cancer stem cells from RB-negative TNBC lines were consistently more sensitive to gamma-irradiation than RB-positive lines, whereas the effect of chemotherapy on the cancer stem cell fraction varied irrespective of RB1 expression. Our results suggest that patients carrying RB-deficient TNBCs would benefit from gamma-irradiation as well as doxorubicin and methotrexate therapy, but not necessarily from many other anti-neoplastic drugs.

Published
2013
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19. Supplementary Table 7 from Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Author

Jason Moffat, Benjamin G. Neel, Robert Rottapel, Jeffrey L. Wrana, Troy Ketela, Maliha Haider, Josee Normand, Christine Misquitta, Patricia Mero, Alla Buzina, Dahlia Kasimer, Alessandro Datti, Frederick S. Vizeacoumar, Franco J. Vizeacoumar, Glauber C. Brito, Marianna Luhova, Bohdana Fedyshyn, Dewald van Dyk, Judice L.Y. Koh, Yaroslav Fedyshyn, Mauricio Medrano, Fabrice Sircoulomb, Paul M. Krzyzanowski, Konstantina Karamboulas, Azin Sayad, Fernando Suarez, Kevin R. Brown, and Richard Marcotte

Abstract

XLS file - 41K

Published
2023

20. Supplementary Table 9 from Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Author

Jason Moffat, Benjamin G. Neel, Robert Rottapel, Jeffrey L. Wrana, Troy Ketela, Maliha Haider, Josee Normand, Christine Misquitta, Patricia Mero, Alla Buzina, Dahlia Kasimer, Alessandro Datti, Frederick S. Vizeacoumar, Franco J. Vizeacoumar, Glauber C. Brito, Marianna Luhova, Bohdana Fedyshyn, Dewald van Dyk, Judice L.Y. Koh, Yaroslav Fedyshyn, Mauricio Medrano, Fabrice Sircoulomb, Paul M. Krzyzanowski, Konstantina Karamboulas, Azin Sayad, Fernando Suarez, Kevin R. Brown, and Richard Marcotte

Abstract

XLS file - 22K

Published
2023

22. Supplementary Table 3 from Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Author

Jason Moffat, Benjamin G. Neel, Robert Rottapel, Jeffrey L. Wrana, Troy Ketela, Maliha Haider, Josee Normand, Christine Misquitta, Patricia Mero, Alla Buzina, Dahlia Kasimer, Alessandro Datti, Frederick S. Vizeacoumar, Franco J. Vizeacoumar, Glauber C. Brito, Marianna Luhova, Bohdana Fedyshyn, Dewald van Dyk, Judice L.Y. Koh, Yaroslav Fedyshyn, Mauricio Medrano, Fabrice Sircoulomb, Paul M. Krzyzanowski, Konstantina Karamboulas, Azin Sayad, Fernando Suarez, Kevin R. Brown, and Richard Marcotte

Abstract

XLS file - 51K

Published
2023

23. Data from Digitoxin-Induced Cytotoxicity in Cancer Cells Is Mediated through Distinct Kinase and Interferon Signaling Networks

Author

Eleftherios P. Diamandis, Alessandro Datti, Apostolos Dimitromanolakis, Ihor Batruch, George S. Karagiannis, and Ioannis Prassas

Abstract

Cardiac glycosides (e.g., digoxin, digitoxin) constitute a diverse family of plant-derived sodium pump inhibitors that have been in clinical use for the treatment of heart-related diseases (congestive heart failure, atrial arrhythmia) for many years. Recently though, accumulating in vitro and in vivo evidence highlight potential anticancer properties of these compounds. Despite the fact that members of this family have advanced to clinical trial testing in cancer therapeutics, their cytotoxic mechanism is not yet elucidated. In this study, we investigated the cytotoxic properties of cardiac glycosides against a panel of pancreatic cancer cell lines, explored their apoptotic mechanism, and characterized the kinetics of cell death induced by these drugs. Furthermore, we deployed a high-throughput kinome screening approach and identified several kinases of the Na-K-ATPase-mediated signal transduction circuitry (epidermal growth factor receptor, Src, pkC, and mitogen-activated protein kinases) as important mediators downstream of cardiac glycoside cytotoxic action. To further extend our knowledge on their mode of action, we used mass-spectrometry–based quantitative proteomics (stable isotope labeling of amino acids in cell culture) coupled with bioinformatics to capture large-scale protein perturbations induced by a physiological dose of digitoxin in BxPC-3 pancreatic cancer cells and identified members of the interferon family as key regulators of the main protein/protein interactions downstream of digitoxin action. Hence, our findings provide more in-depth information regarding the molecular mechanisms underlying cardiac glycoside-induced cytotoxicity. Mol Cancer Ther; 10(11); 2083–93. ©2011 AACR.

Published
2023

24. Supplementary Table 5d from Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Author

Jason Moffat, Benjamin G. Neel, Robert Rottapel, Jeffrey L. Wrana, Troy Ketela, Maliha Haider, Josee Normand, Christine Misquitta, Patricia Mero, Alla Buzina, Dahlia Kasimer, Alessandro Datti, Frederick S. Vizeacoumar, Franco J. Vizeacoumar, Glauber C. Brito, Marianna Luhova, Bohdana Fedyshyn, Dewald van Dyk, Judice L.Y. Koh, Yaroslav Fedyshyn, Mauricio Medrano, Fabrice Sircoulomb, Paul M. Krzyzanowski, Konstantina Karamboulas, Azin Sayad, Fernando Suarez, Kevin R. Brown, and Richard Marcotte

Abstract

XLS file - 49K

Published
2023

25. Supplementary Methods from Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Author

Jason Moffat, Benjamin G. Neel, Robert Rottapel, Jeffrey L. Wrana, Troy Ketela, Maliha Haider, Josee Normand, Christine Misquitta, Patricia Mero, Alla Buzina, Dahlia Kasimer, Alessandro Datti, Frederick S. Vizeacoumar, Franco J. Vizeacoumar, Glauber C. Brito, Marianna Luhova, Bohdana Fedyshyn, Dewald van Dyk, Judice L.Y. Koh, Yaroslav Fedyshyn, Mauricio Medrano, Fabrice Sircoulomb, Paul M. Krzyzanowski, Konstantina Karamboulas, Azin Sayad, Fernando Suarez, Kevin R. Brown, and Richard Marcotte

Abstract

PDF file - 217K

Published
2023

26. Supplementary Table 8 from Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Author

Jason Moffat, Benjamin G. Neel, Robert Rottapel, Jeffrey L. Wrana, Troy Ketela, Maliha Haider, Josee Normand, Christine Misquitta, Patricia Mero, Alla Buzina, Dahlia Kasimer, Alessandro Datti, Frederick S. Vizeacoumar, Franco J. Vizeacoumar, Glauber C. Brito, Marianna Luhova, Bohdana Fedyshyn, Dewald van Dyk, Judice L.Y. Koh, Yaroslav Fedyshyn, Mauricio Medrano, Fabrice Sircoulomb, Paul M. Krzyzanowski, Konstantina Karamboulas, Azin Sayad, Fernando Suarez, Kevin R. Brown, and Richard Marcotte

Abstract

XLS file - 303K

Published
2023

27. Supplementary Table 1 from Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Author

Jason Moffat, Benjamin G. Neel, Robert Rottapel, Jeffrey L. Wrana, Troy Ketela, Maliha Haider, Josee Normand, Christine Misquitta, Patricia Mero, Alla Buzina, Dahlia Kasimer, Alessandro Datti, Frederick S. Vizeacoumar, Franco J. Vizeacoumar, Glauber C. Brito, Marianna Luhova, Bohdana Fedyshyn, Dewald van Dyk, Judice L.Y. Koh, Yaroslav Fedyshyn, Mauricio Medrano, Fabrice Sircoulomb, Paul M. Krzyzanowski, Konstantina Karamboulas, Azin Sayad, Fernando Suarez, Kevin R. Brown, and Richard Marcotte

Abstract

XLS file - 15.2MB

Published
2023

28. Supplementary Table 6 from Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Author

Jason Moffat, Benjamin G. Neel, Robert Rottapel, Jeffrey L. Wrana, Troy Ketela, Maliha Haider, Josee Normand, Christine Misquitta, Patricia Mero, Alla Buzina, Dahlia Kasimer, Alessandro Datti, Frederick S. Vizeacoumar, Franco J. Vizeacoumar, Glauber C. Brito, Marianna Luhova, Bohdana Fedyshyn, Dewald van Dyk, Judice L.Y. Koh, Yaroslav Fedyshyn, Mauricio Medrano, Fabrice Sircoulomb, Paul M. Krzyzanowski, Konstantina Karamboulas, Azin Sayad, Fernando Suarez, Kevin R. Brown, and Richard Marcotte

Abstract

XLS file - 75K

Published
2023

29. Supplementary Table 4 from Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Author

Jason Moffat, Benjamin G. Neel, Robert Rottapel, Jeffrey L. Wrana, Troy Ketela, Maliha Haider, Josee Normand, Christine Misquitta, Patricia Mero, Alla Buzina, Dahlia Kasimer, Alessandro Datti, Frederick S. Vizeacoumar, Franco J. Vizeacoumar, Glauber C. Brito, Marianna Luhova, Bohdana Fedyshyn, Dewald van Dyk, Judice L.Y. Koh, Yaroslav Fedyshyn, Mauricio Medrano, Fabrice Sircoulomb, Paul M. Krzyzanowski, Konstantina Karamboulas, Azin Sayad, Fernando Suarez, Kevin R. Brown, and Richard Marcotte

Abstract

XLS file - 32K

Published
2023

30. Supplementary Table 2 from Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Author

Jason Moffat, Benjamin G. Neel, Robert Rottapel, Jeffrey L. Wrana, Troy Ketela, Maliha Haider, Josee Normand, Christine Misquitta, Patricia Mero, Alla Buzina, Dahlia Kasimer, Alessandro Datti, Frederick S. Vizeacoumar, Franco J. Vizeacoumar, Glauber C. Brito, Marianna Luhova, Bohdana Fedyshyn, Dewald van Dyk, Judice L.Y. Koh, Yaroslav Fedyshyn, Mauricio Medrano, Fabrice Sircoulomb, Paul M. Krzyzanowski, Konstantina Karamboulas, Azin Sayad, Fernando Suarez, Kevin R. Brown, and Richard Marcotte

Abstract

XLS file - 55K

Published
2023

31. Supplementary Figures 1-8 from Essential Gene Profiles in Breast, Pancreatic, and Ovarian Cancer Cells

Author

Jason Moffat, Benjamin G. Neel, Robert Rottapel, Jeffrey L. Wrana, Troy Ketela, Maliha Haider, Josee Normand, Christine Misquitta, Patricia Mero, Alla Buzina, Dahlia Kasimer, Alessandro Datti, Frederick S. Vizeacoumar, Franco J. Vizeacoumar, Glauber C. Brito, Marianna Luhova, Bohdana Fedyshyn, Dewald van Dyk, Judice L.Y. Koh, Yaroslav Fedyshyn, Mauricio Medrano, Fabrice Sircoulomb, Paul M. Krzyzanowski, Konstantina Karamboulas, Azin Sayad, Fernando Suarez, Kevin R. Brown, and Richard Marcotte

Abstract

PDF file - 310K

Published
2023

33. Data from Disulfiram when Combined with Copper Enhances the Therapeutic Effects of Temozolomide for the Treatment of Glioblastoma

Author

Donna L. Senger, Stephen M. Robbins, David R. Kaplan, J. Gregory Cairncross, Samuel Weiss, Artee Luchman, Jacob C. Easaw, Jeffrey L. Wrana, Alessandro Datti, David Uehling, Ahmed Aman, Xiuling Wang, Ngoc-Ha Dang, Xiaoguang Hao, Jennifer C. King, Natalie Grinshtein, J. Connor Wells, and Xueqing Lun

Abstract

Purpose: Glioblastoma is one of the most lethal cancers in humans, and with existing therapy, survival remains at 14.6 months. Current barriers to successful treatment include their infiltrative behavior, extensive tumor heterogeneity, and the presence of a stem-like population of cells, termed brain tumor–initiating cells (BTIC) that confer resistance to conventional therapies.Experimental Design: To develop therapeutic strategies that target BTICs, we focused on a repurposing approach that explored already-marketed (clinically approved) drugs for therapeutic potential against patient-derived BTICs that encompass the genetic and phenotypic heterogeneity of glioblastoma observed clinically.Results: Using a high-throughput in vitro drug screen, we found that montelukast, clioquinol, and disulfiram (DSF) were cytotoxic against a large panel of patient-derived BTICs. Of these compounds, disulfiram, an off-patent drug previously used to treat alcoholism, in the presence of a copper supplement, showed low nanomolar efficacy in BTICs including those resistant to temozolomide and the highly infiltrative quiescent stem-like population. Low dose DSF-Cu significantly augmented temozolomide activity in vitro, and importantly, prolonged in vivo survival in patient-derived BTIC models established from both newly diagnosed and recurrent tumors. Moreover, we found that in addition to acting as a potent proteasome inhibitor, DSF-Cu functionally impairs DNA repair pathways and enhances the effects of DNA alkylating agents and radiation. These observations suggest that DSF-Cu inhibits proteasome activity and augments the therapeutic effects of DNA-damaging agents (temozolomide and radiation).Conclusions: DSF-Cu should be considered as an adjuvant therapy for the treatment of patients with glioblastoma in both newly diagnosed and recurrent settings. Clin Cancer Res; 22(15); 3860–75. ©2016 AACR.

Published
2023

34. Supplementary Figures S1-S10 Tables S1-S3 from Disulfiram when Combined with Copper Enhances the Therapeutic Effects of Temozolomide for the Treatment of Glioblastoma

Author

Donna L. Senger, Stephen M. Robbins, David R. Kaplan, J. Gregory Cairncross, Samuel Weiss, Artee Luchman, Jacob C. Easaw, Jeffrey L. Wrana, Alessandro Datti, David Uehling, Ahmed Aman, Xiuling Wang, Ngoc-Ha Dang, Xiaoguang Hao, Jennifer C. King, Natalie Grinshtein, J. Connor Wells, and Xueqing Lun

Abstract

Figure S1: Preclinical assessment of clioquinol. Figure S2: Preclinical assessment of montelukast. Figure S3: Secondary validation of compounds identified via HTS. Figure S4: Sensitivity of BTICs to TMZ. Figure S5: Copper is required for Disulfiram-mediated cell killing. Figure S6: Cell Viability and Apoptosis in the presence of DSF-Cu. Figure S7: Efficacy to DSF-Cu is independent of MGMT expression. Figure S8: Inhibition of proteasome activity by DSF-Cu. Figure S9: DSF-Cu in combination with TMZ prolongs survival in vivo. Figure S10: DSF-Cu mediated apoptosis in vivo. Table S1: Summary of BTIC Molecular Characterization. Table S2: Summary of Compound Priortization. Table S3: Down regulation of DNA repair genes by DSF-Cu.

Published
2023

35. Data from High-Throughput Screening Identifies Cardiac Glycosides as Potent Inhibitors of Human Tissue Kallikrein Expression: Implications for Cancer Therapies

Author

Eleftherios P. Diamandis, Alessandro Datti, Miltiadis Paliouras, and Ioannis Prassas

Abstract

Purpose: Human tissue kallikreins (KLK) comprise a subgroup of 15 homologous secreted serine proteases. Primarily known for their clinical use as cancer biomarkers (e.g., PSA), KLKs have recently been directly implicated in cancer-related processes, including invasion, angiogenesis, and tumor growth regulation. Therefore, the identification of compounds that would modulate expression of KLKs might be of considerable therapeutic value.Experimental Design: A cell-based high-throughput screening (HTS) of three small molecule libraries (∼4,500 compounds) was undertaken; KLK expression in the breast cancer cell line MDA-MB-468 was assessed with sensitive ELISAs.Results: The initial screening resulted in 66 “putative hits” that decreased KLK5 expression by at least 50% over control. Secondary screening and mini-dose-response assays resulted in 21 “validated hits.” These 21 compounds were clustered in only three distinct functional families and were further analyzed in vitro to determine their effectiveness (IC50s). Hits that failed to show dose-responsiveness or interfered with the viability of the cells were excluded. Multiple members of the cardiac glycoside family were found to be novel inhibitors of KLK expression, acting at low concentrations (10-50 nmol/L). Furthermore, members of the same family induced marked decreases in c-MYC and c-FOS expression, in a dose-dependent manner that correlated the KLK inhibition, suggesting a transcriptional mechanism of regulation of KLK expression.Conclusions: We conclude that cardiac glycosides can dramatically suppress the transcription of KLKs and that these effects may be linked to proto-oncogene (c-myc/fos) expression. These findings may partially explain the recently realized antineoplastic actions of cardiac glycosides.

Published
2023

36. Supplementary Figure 1 and Table 1 from Small Molecule Kinase Inhibitor Screen Identifies Polo-Like Kinase 1 as a Target for Neuroblastoma Tumor-Initiating Cells

Author

David R. Kaplan, Rima Al-awar, Jeffrey L. Wrana, Meredith S. Irwin, Methvin Isaac, Michael Prakesch, David Uehling, Mayumi Fujitani, Alessandro Datti, and Natalie Grinshtein

Abstract

Supplementary Figure 1 and Table 1 from Small Molecule Kinase Inhibitor Screen Identifies Polo-Like Kinase 1 as a Target for Neuroblastoma Tumor-Initiating Cells

Published
2023

37. Supplementary Figures S1-S9 from Targeting Mitochondria with Avocatin B Induces Selective Leukemia Cell Death

Author

Paul A. Spagnuolo, Aaron D. Schimmer, Joe Quadrilatero, Jamie W. Joseph, Janusz Pawliszyn, Andrea Edginton, Jeffery L. Wrana, Alessandro Datti, Shrivani Sriskanthadevan, Mark Minden, Barbara Bojko, Ezel Boyaci, Marcela Gronda, Xiao Ming Wang, Rose Hurren, Andrew Mitchell, Thomas Hanlon, Sarah-Grace Rota, Leonard Angka, and Eric A. Lee

Abstract

Supplementary Figures S1-S9. Avocatin B is the most active avocado lipid analogue (S1); Kinetics of avocatin B-induced death (S2); Cell cycle analysis of avocatin B treated TEX cells (S3); Avocatin B increases DCFH-DA and DHE (S4); Avocatin B's activity is neutralized by co-incubation with PEG-SOD (S5); Jurkat T cells cultured in ethidium bromide medium have reduced mitochondria with decreased function (S6); Avocatin B is absent in mitochondria and cytosolic fractions of vehicle control treated TEX cells (S7); Avocatin B calibration curves and estimated concentraiton in cytosolic and mitochondrial fractions (S8); Avocatin B decreases levels of NADH and NADPH and increases ROS in OCI-AML2 cells (S9).

Published
2023

38. Supplementary Figure Legends from Targeting Mitochondria with Avocatin B Induces Selective Leukemia Cell Death

Author

Paul A. Spagnuolo, Aaron D. Schimmer, Joe Quadrilatero, Jamie W. Joseph, Janusz Pawliszyn, Andrea Edginton, Jeffery L. Wrana, Alessandro Datti, Shrivani Sriskanthadevan, Mark Minden, Barbara Bojko, Ezel Boyaci, Marcela Gronda, Xiao Ming Wang, Rose Hurren, Andrew Mitchell, Thomas Hanlon, Sarah-Grace Rota, Leonard Angka, and Eric A. Lee

Abstract

Legend for Supplementary Figures S1-S9.

Published
2023

39. Data from Inhibition of the Sodium Potassium Adenosine Triphosphatase Pump Sensitizes Cancer Cells to Anoikis and Prevents Distant Tumor Formation

Author

Aaron D. Schimmer, Shereen Ezzat, Jeffrey L. Wrana, Alessandro Datti, Reza Beheshti Zavareh, Stefano Serra, Sonia Cheng, Rose Hurren, Marcela Gronda, Amudha L. Venugopal, Xiaoming Wang, Moyo A. Williams, Kika Anyiwe, Imtiaz A. Mawji, and Craig D. Simpson

Abstract

Normal epithelial cells undergo apoptosis upon detachment from the extracellular matrix, a process termed “anoikis.” However, malignant epithelial cells with metastatic potential resist anoikis and can survive in an anchorage-independent fashion. Molecules that sensitize resistant cells to anoikis will be useful chemical probes to understand this pathway. To identify novel anoikis sensitizers in anoikis-resistant PPC-1 prostate adenocarcinoma cells, a library of 2,000 off-patent drugs and natural products was screened for their ability to preferentially induce cell death in suspension over adherent culture conditions. This screen identified five members of the family of cardiac glycosides as anoikis sensitizers, including ouabain, peruvoside, digoxin, digitoxin, and strophanthidin. We conducted further studies with ouabain to discern the mechanism of cardiac glycoside-induced anoikis sensitization. Ouabain initiated anoikis through the mitochondrial pathway of caspase activation. In addition, ouabain sensitized cells to anoikis by inhibiting its known target, the Na+/K+ ATPase pump, and inducing hypoosmotic stress. Resistance to anoikis permits cancer cells to survive in the circulation and facilitates their metastasis to distant organs, so we tested the effects of Na+/K+ ATPase inhibition on distant tumor formation in mouse models. In these mouse models, ouabain inhibited tumor metastases but did not alter the growth of subcutaneous tumors. Thus, we have identified a novel mechanism to sensitize resistant cells to anoikis and decrease tumor metastasis. These results suggest a potential mechanism for the observed clinical reduction in metastasis and relapse in breast cancer patients who have undergone treatments with cardiac glycosides. [Cancer Res 2009;69(7):2739–47]

Published
2023

40. Supplementary Figure 3 from Inhibition of the Sodium Potassium Adenosine Triphosphatase Pump Sensitizes Cancer Cells to Anoikis and Prevents Distant Tumor Formation

Author

Aaron D. Schimmer, Shereen Ezzat, Jeffrey L. Wrana, Alessandro Datti, Reza Beheshti Zavareh, Stefano Serra, Sonia Cheng, Rose Hurren, Marcela Gronda, Amudha L. Venugopal, Xiaoming Wang, Moyo A. Williams, Kika Anyiwe, Imtiaz A. Mawji, and Craig D. Simpson

Abstract

Supplementary Figure 3 from Inhibition of the Sodium Potassium Adenosine Triphosphatase Pump Sensitizes Cancer Cells to Anoikis and Prevents Distant Tumor Formation

Published
2023

41. Supplementary Tables S1-S3 from Targeting Mitochondria with Avocatin B Induces Selective Leukemia Cell Death

Author

Paul A. Spagnuolo, Aaron D. Schimmer, Joe Quadrilatero, Jamie W. Joseph, Janusz Pawliszyn, Andrea Edginton, Jeffery L. Wrana, Alessandro Datti, Shrivani Sriskanthadevan, Mark Minden, Barbara Bojko, Ezel Boyaci, Marcela Gronda, Xiao Ming Wang, Rose Hurren, Andrew Mitchell, Thomas Hanlon, Sarah-Grace Rota, Leonard Angka, and Eric A. Lee

Abstract

Supplementary Tables S1-S3. Summary of EC50 values for avocatin B in a panel of AML cell lines (S1); AML patient sample details used for annexin/PI (S2); AML patient sample details used for colony formation assays (S3).

Published
2023

42. Data from Small Molecule Kinase Inhibitor Screen Identifies Polo-Like Kinase 1 as a Target for Neuroblastoma Tumor-Initiating Cells

Author

David R. Kaplan, Rima Al-awar, Jeffrey L. Wrana, Meredith S. Irwin, Methvin Isaac, Michael Prakesch, David Uehling, Mayumi Fujitani, Alessandro Datti, and Natalie Grinshtein

Abstract

Neuroblastoma (NB) is an often fatal pediatric tumor of neural crest origin. We previously isolated NB tumor-initiating cells (NB TIC) from bone marrow metastases that resemble cancer stem cells and form metastatic NB in immunodeficient animals with as few as ten cells. To identify signaling pathways important for the survival and self-renewal of NB TICs and potential therapeutic targets, we screened a small molecule library of 143 protein kinase inhibitors, including 33 in clinical trials. Cytostatic or cytotoxic drugs were identified that targeted PI3K (phosphoinositide 3-kinase)/Akt, PKC (protein kinase C), Aurora, ErbB2, Trk, and Polo-like kinase 1 (PLK1). Treatment with PLK1 siRNA or low nanomolar concentrations of BI 2536 or BI 6727, PLK1 inhibitors in clinical trials for adult malignancies, were cytotoxic to TICs whereas only micromolar concentrations of the inhibitors were cytotoxic for normal pediatric neural stem cells. Furthermore, BI 2536 significantly inhibited TIC tumor growth in a therapeutic xenograft model, both as a single agent and in combination with irinotecan, an active agent for relapsed NB. Our findings identify candidate kinases that regulate TIC growth and survival and suggest that PLK1 inhibitors are an attractive candidate therapy for metastatic NB. Cancer Res; 71(4); 1385–95. ©2011 AACR.

Published
2023

44. Data from Complex N-Glycan and Metabolic Control in Tumor Cells

Author

James W. Dennis, Judy Pawling, Alessandro Datti, Ken Lau, Emily Partridge, Lloyd Berger, Pam Cheung, and Richard Mendelsohn

Abstract

Golgi β1,6N-acetylglucosaminyltransferase V (Mgat5) produces β1,6GlcNAc-branched complex N-glycans on cell surface glycoproteins that bind to galectins and promote surface residency of glycoproteins, including cytokine receptors. Carcinoma cells from polyomavirus middle T (PyMT) transgenic mice on a Mgat5−/− background have reduced surface levels of epidermal growth factor (EGF) and transforming growth factor-β (TGF-β) receptors and are less sensitive to acute stimulation by cytokines in vitro compared with PyMT Mgat5+/+ tumor cells but are nonetheless tumorigenic when injected into mice. Here, we report that PyMT Mgat5−/− cells are reduced in size, checkpoint impaired, and following serum withdrawal, fail to down-regulate glucose transport, protein synthesis, reactive oxygen species (ROS), and activation of Akt and extracellular signal-regulated kinase. To further characterize Mgat5+/+ and Mgat5−/− tumor cells, a screen of pharmacologically active compounds was done. Mgat5−/− tumor cells were comparatively hypersensitive to the ROS inducer 2,3-dimethoxy-1,4-naphthoquinone, hyposensitive to tyrosine kinase inhibitors, to Golgi disruption by brefeldin A, and to mitotic arrest by colcemid, hydroxyurea, and camptothecin. Finally, regulation of ROS, glucose uptake, and sensitivities to EGF and TGF-β were rescued by Mgat5 expression or by hexosamine supplementation to complex N-glycan biosynthesis in Mgat5−/− cells. Our results suggest that complex N-glycans sensitize tumor cells to growth factors, and Mgat5 is required to balance responsiveness to growth and arrest cues downstream of metabolic flux. [Cancer Res 2007;67(20):9771–80]

Published
2023

45. Supplementary Figure 2 from Inhibition of the Sodium Potassium Adenosine Triphosphatase Pump Sensitizes Cancer Cells to Anoikis and Prevents Distant Tumor Formation

Author

Aaron D. Schimmer, Shereen Ezzat, Jeffrey L. Wrana, Alessandro Datti, Reza Beheshti Zavareh, Stefano Serra, Sonia Cheng, Rose Hurren, Marcela Gronda, Amudha L. Venugopal, Xiaoming Wang, Moyo A. Williams, Kika Anyiwe, Imtiaz A. Mawji, and Craig D. Simpson

Abstract

Supplementary Figure 2 from Inhibition of the Sodium Potassium Adenosine Triphosphatase Pump Sensitizes Cancer Cells to Anoikis and Prevents Distant Tumor Formation

Published
2023

46. Supplementary Figure 1 from Inhibition of the Sodium Potassium Adenosine Triphosphatase Pump Sensitizes Cancer Cells to Anoikis and Prevents Distant Tumor Formation

Author

Aaron D. Schimmer, Shereen Ezzat, Jeffrey L. Wrana, Alessandro Datti, Reza Beheshti Zavareh, Stefano Serra, Sonia Cheng, Rose Hurren, Marcela Gronda, Amudha L. Venugopal, Xiaoming Wang, Moyo A. Williams, Kika Anyiwe, Imtiaz A. Mawji, and Craig D. Simpson

Abstract

Supplementary Figure 1 from Inhibition of the Sodium Potassium Adenosine Triphosphatase Pump Sensitizes Cancer Cells to Anoikis and Prevents Distant Tumor Formation

Published
2023

47. Supplementary Methods and References from Targeting Mitochondria with Avocatin B Induces Selective Leukemia Cell Death

Author

Paul A. Spagnuolo, Aaron D. Schimmer, Joe Quadrilatero, Jamie W. Joseph, Janusz Pawliszyn, Andrea Edginton, Jeffery L. Wrana, Alessandro Datti, Shrivani Sriskanthadevan, Mark Minden, Barbara Bojko, Ezel Boyaci, Marcela Gronda, Xiao Ming Wang, Rose Hurren, Andrew Mitchell, Thomas Hanlon, Sarah-Grace Rota, Leonard Angka, and Eric A. Lee

Abstract

Supplementary Methods and References. Description of additional methods and procedures used in the study. Also includes Supplementary References.

Published
2023

49. Hypophosphorylated pRb knock-in mice exhibit hallmarks of aging and vitamin C-preventable diabetes

Author

Zhe Jiang, Huiqin Li, Stephanie A Schroer, Veronique Voisin, YoungJun Ju, Marek Pacal, Natalie Erdmann, Wei Shi, Philip E D Chung, Tao Deng, Nien‐Jung Chen, Giovanni Ciavarra, Alessandro Datti, Tak W Mak, Lea Harrington, Frederick A Dick, Gary D Bader, Rod Bremner, Minna Woo, and Eldad Zacksenhaus

Subjects
senescence, knock-in mice, Embryonic Development, vitamin C, Ascorbic Acid, Retinoblastoma Protein, General Biochemistry, Genetics and Molecular Biology, retinoblastoma, Diabetes Mellitus, Experimental, Mice, pRB, Pregnancy, Insulin-Secreting Cells, Animals, Gene Knock-In Techniques, Phosphorylation, Molecular Biology, Cellular Senescence, General Immunology and Microbiology, diabetes, General Neuroscience, Cyclin-Dependent Kinase 2, aging, Fibroblasts, Telomere, Female, E2F1 Transcription Factor
Abstract

Despite extensive analysis of pRB phosphorylation in vitro, how this modification influences development and homeostasis in vivo is unclear. Here, we show that homozygous Rb∆K4 and Rb∆K7 knock-in mice, in which either four or all seven phosphorylation sites in the C-terminal region of pRb, respectively, have been abolished by Ser/Thr-to-Ala substitutions, undergo normal embryogenesis and early development, notwithstanding suppressed phosphorylation of additional upstream sites. Whereas Rb∆K4 mice exhibit telomere attrition but no other abnormalities, Rb∆K7 mice are smaller and display additional hallmarks of premature aging including infertility, kyphosis, and diabetes, indicating an accumulative effect of blocking pRb phosphorylation. Diabetes in Rb∆K7 mice is insulin-sensitive and associated with failure of quiescent pancreatic β-cells to re-enter the cell cycle in response to mitogens, resulting in induction of DNA damage response (DDR), senescence-associated secretory phenotype (SASP), and reduced pancreatic islet mass and circulating insulin level. Pre-treatment with the epigenetic regulator vitamin C reduces DDR, increases cell cycle re-entry, improves islet morphology, and attenuates diabetes. These results have direct implications for cell cycle regulation, CDK-inhibitor therapeutics, diabetes, and longevity.

Published
2022

50. Systematic exploration of dynamic splicing networks reveals conserved multistage regulators of neurogenesis

Author

Hong Han, Andrew J. Best, Ulrich Braunschweig, Nicholas Mikolajewicz, Jack Daiyang Li, Jonathan Roth, Fuad Chowdhury, Federica Mantica, Syed Nabeel-Shah, Guillermo Parada, Kevin R. Brown, Dave O'Hanlon, Jiarun Wei, Yuxi Yao, Abdelrahman Abou Zid, Lim Caden Comsa, Mark Jen, Jenny Wang, Alessandro Datti, Thomas Gonatopoulos-Pournatzis, Robert J. Weatheritt, Jack F. Greenblatt, Jeffrey L. Wrana, Manuel Irimia, Anne-Claude Gingras, Jason Moffat, and Benjamin J. Blencowe

Subjects
Mammals, Neurons, Neurogenesis, RNA Splicing, RNA-Binding Proteins, Cell Biology, Exons, high-throughput screening, Alternative Splicing, Mice, single-cell profiling, Animals, gene regulation, Molecular Biology
Abstract

Alternative splicing (AS) is a critical regulatory layer; yet, factors controlling functionally coordinated splicing programs during developmental transitions are poorly understood. Here, we employ a screening strategy to identify factors controlling dynamic splicing events important for mammalian neurogenesis. Among previously unknown regulators, Rbm38 acts widely to negatively control neural AS, in part through interactions mediated by the established repressor of splicing, Ptbp1. Puf60, a ubiquitous factor, is surprisingly found to promote neural splicing patterns. This activity requires a conserved, neural-differential exon that remodels Puf60 co-factor interactions. Ablation of this exon rewires distinct AS networks in embryonic stem cells and at different stages of mouse neurogenesis. Single-cell transcriptome analyses further reveal distinct roles for Rbm38 and Puf60 isoforms in establishing neuronal identity. Our results describe important roles for previously unknown regulators of neurogenesis and establish how an alternative exon in a widely expressed splicing factor orchestrates temporal control over cell differentiation.

Published
2022

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