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Oncology

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Restoring expression of wild-type p53 suppresses tumor growth but does not cause tumor regression in mice with a p53 missense mutation
Yongxing Wang, Young-Ah Suh, Maren Y. Fuller, James G. Jackson, Shunbin Xiong, Tamara Terzian, Alfonso Quintás-Cardama, James A. Bankson, Adel K. El-Naggar, Guillermina Lozano
Yongxing Wang, Young-Ah Suh, Maren Y. Fuller, James G. Jackson, Shunbin Xiong, Tamara Terzian, Alfonso Quintás-Cardama, James A. Bankson, Adel K. El-Naggar, Guillermina Lozano
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Restoring expression of wild-type p53 suppresses tumor growth but does not cause tumor regression in mice with a p53 missense mutation

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Abstract

The transcription factor p53 is a tumor suppressor. As such, the P53 gene is frequently altered in human cancers. However, over 80% of the P53 mutations found in human cancers are missense mutations that lead to expression of mutant proteins that not only lack p53 transcriptional activity but exhibit new functions as well. Recent studies show that restoration of p53 expression leads to tumor regression in mice carrying p53 deletions. However, the therapeutic efficacy of restoring p53 expression in tumors containing p53 missense mutations has not been evaluated. Here we demonstrate that restoring wild-type p53 expression halted tumor growth in mice inheriting a p53R172H missense mutation that is equivalent to a P53 missense mutation detected in approximately 6% of human cancers. However, it did not lead to tumor regression, as was observed in mice lacking p53. We further showed that the dominant-negative effect of the mutant p53 encoded by p53R172H dampened the activity of the restored wild-type p53. We therefore conclude that in a mutant p53 background, p53 restoration has the therapeutic potential to suppress tumor progression. Our findings support using p53 restoration as a strategy to treat human cancers with P53 missense mutations and provide direction for optimizing p53 restoration in cancer therapy.

Authors

Yongxing Wang, Young-Ah Suh, Maren Y. Fuller, James G. Jackson, Shunbin Xiong, Tamara Terzian, Alfonso Quintás-Cardama, James A. Bankson, Adel K. El-Naggar, Guillermina Lozano

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Detection of human tumor cells by amplicon fusion site polymerase chain reaction (AFS-PCR)
Axel Weber, Sylvia Taube, Sven Starke, Eckhard Bergmann, Nina Merete Christiansen, Holger Christiansen
Axel Weber, Sylvia Taube, Sven Starke, Eckhard Bergmann, Nina Merete Christiansen, Holger Christiansen
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Detection of human tumor cells by amplicon fusion site polymerase chain reaction (AFS-PCR)

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Abstract

Reliable diagnostic strategies for individuals with cancer demand practical methods for highly sensitive and specific detection of tumor cells. Amplification of genomic regions that include putative oncogenes is common in tumor cells of various types. Genomic array platforms offer the opportunity to identify and precisely map amplified genomic regions (ampGRs). The stable existence of these tumor cell–specific genomic aberrations during and after therapy, in theory, make ampGRs optimal targets for cancer diagnostics. In this study, we mapped ampGRs around the proto-oncogene MYCN of human neuroblastomas using a high-resolution tiling array (HR-TA). Based on the HR-TA data, we were able to precisely describe the telomeric and centromeric borders of the ampGRs and deduce virtual fusion sites of the joined ampGRs (amplicon fusion sites [AFSs]). These AFSs served as blueprints for the subsequent design of AFS bridging PCR assays (AFS-PCRs). Strikingly, these assays were absolutely tumor cell specific and capable of detecting 1 tumor cell in 1 × 106 to 8 × 106 control cells. We successfully proved the in vivo practicability of AFS-PCR by detecting and quantifying the specific AFS DNA of human MYCN-amplified neuroblastomas in the patients’ corresponding peripheral blood and bone marrow samples. Thus, we believe AFS-PCR could become a powerful and nevertheless feasible personalized diagnostic tool applicable to a large number of cancer patients, including children with MYCN-amplified neuroblastomas.

Authors

Axel Weber, Sylvia Taube, Sven Starke, Eckhard Bergmann, Nina Merete Christiansen, Holger Christiansen

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Tumor endothelin-1 enhances metastatic colonization of the lung in mouse xenograft models of bladder cancer
Neveen Said, Steven Smith, Marta Sanchez-Carbayo, Dan Theodorescu
Neveen Said, Steven Smith, Marta Sanchez-Carbayo, Dan Theodorescu
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Tumor endothelin-1 enhances metastatic colonization of the lung in mouse xenograft models of bladder cancer

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Abstract

Many patients with advanced bladder cancer develop lethal metastases to the lung. The vasoconstricting protein endothelin-1 (ET-1) has been implicated in this process, although the mechanism(s) by which it promotes metastasis remains unclear. Here, we have evaluated whether tumor ET-1 expression can serve as a biomarker for lung metastasis and whether it is required for metastatic disease. Evaluation of ET-1 mRNA and protein expression in four patient cohorts revealed that levels of ET-1 are higher in patients with muscle-invasive bladder cancers, which are associated with higher incidence of metastasis, and that high ET-1 levels are associated with decreased disease-specific survival. Consistent with its proinflammatory activity, we found that tumor-derived ET-1 acts through endothelin-1 receptor A (ETAR) to enhance migration and invasion of both tumor cells and macrophages and induces expression of inflammatory cytokines and proteases. Using human and mouse cancer cells depleted of ET-1 and pharmacologic blockade of ET receptors in lung metastasis models, we found that tumor ET-1 expression and ETAR activity are necessary for metastatic lung colonization and that this process is preceded by and dependent on macrophage infiltration of the lung. In contrast, tumor ET-1 expression and ETAR activity appeared less important in established primary or metastatic tumor growth. These findings strongly suggest that ETAR inhibitors might be more effective as adjuvant therapeutic agents than as initial treatment for advanced primary or metastatic disease.

Authors

Neveen Said, Steven Smith, Marta Sanchez-Carbayo, Dan Theodorescu

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The α2β1 integrin is a metastasis suppressor in mouse models and human cancer
Norma E. Ramirez, Zhonghua Zhang, Aasakiran Madamanchi, Kelli L. Boyd, Lynda D. O’Rear, Abudi Nashabi, Zhengzi Li, William D. Dupont, Andries Zijlstra, Mary M. Zutter
Norma E. Ramirez, Zhonghua Zhang, Aasakiran Madamanchi, Kelli L. Boyd, Lynda D. O’Rear, Abudi Nashabi, Zhengzi Li, William D. Dupont, Andries Zijlstra, Mary M. Zutter
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The α2β1 integrin is a metastasis suppressor in mouse models and human cancer

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Abstract

Integrins regulate cell-cell and cell-matrix adhesion and thereby play critical roles in tumor progression and metastasis. Although work in preclinical models suggests that β1 integrins may stimulate metastasis of a number of cancers, expression of the β1 subunit alone has not been shown to be a useful prognostic indicator in human cancer patients. Here we have demonstrated that the α2β1 integrin suppresses metastasis in a clinically relevant spontaneous mouse model of breast cancer. These data are consistent with previous studies indicating high expression of α2β1 integrin in normal breast epithelium and loss of α2β1 in poorly differentiated breast cancer. They are also consistent with our systematic analysis of microarray databases of human breast and prostate cancer, which revealed that decreased expression of the gene encoding α2 integrin, but not genes encoding α1, α3, or β1 integrin, was predictive of metastatic dissemination and decreased survival. The predictive value of α2 expression persisted within both good-risk and poor-risk cohorts defined by estrogen receptor and lymph node status. Thus, the α2β1 integrin functionally inhibits breast tumor metastasis, and α2 expression may serve as an important biomarker of metastatic potential and patient survival.

Authors

Norma E. Ramirez, Zhonghua Zhang, Aasakiran Madamanchi, Kelli L. Boyd, Lynda D. O’Rear, Abudi Nashabi, Zhengzi Li, William D. Dupont, Andries Zijlstra, Mary M. Zutter

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Wt1 ablation and Igf2 upregulation in mice result in Wilms tumors with elevated ERK1/2 phosphorylation
Qianghua Hu, Fei Gao, Weihua Tian, E. Cristy Ruteshouser, Yaqing Wang, Alexander Lazar, John Stewart, Louise C. Strong, Richard R. Behringer, Vicki Huff
Qianghua Hu, Fei Gao, Weihua Tian, E. Cristy Ruteshouser, Yaqing Wang, Alexander Lazar, John Stewart, Louise C. Strong, Richard R. Behringer, Vicki Huff
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Wt1 ablation and Igf2 upregulation in mice result in Wilms tumors with elevated ERK1/2 phosphorylation

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Abstract

Wilms tumor (WT) is a genetically heterogeneous childhood kidney tumor. Several genetic alterations have been identified in WT patients, including inactivating mutations in WT1 and loss of heterozygosity or loss of imprinting at 11p15, which results in biallelic expression of IGF2. However, the mechanisms by which one or a combination of genetic alterations results in tumorigenesis has remained challenging to determine, given the lack of a mouse model of WT. Here, we engineered mice to sustain mosaic, somatic ablation of Wt1 and constitutional Igf2 upregulation, mimicking a subset of human tumors. Mice with this combination of genetic alterations developed tumors at an early age. Mechanistically, Wt1 ablation blocked mesenchyme differentiation, and increased Igf2 expression upregulated ERK1/2 phosphorylation. Importantly, a subset of human tumors similarly displayed upregulation of ERK1/2 phosphorylation, which suggests ERK signaling might contribute to WT development. Thus, we have generated a biologically relevant mouse model of WT and defined one combination of driver alterations for WT. This mouse model will provide a powerful tool to study the biology of WT initiation and progression and to investigate therapeutic strategies for cancers with IGF pathway dysregulation.

Authors

Qianghua Hu, Fei Gao, Weihua Tian, E. Cristy Ruteshouser, Yaqing Wang, Alexander Lazar, John Stewart, Louise C. Strong, Richard R. Behringer, Vicki Huff

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Thioredoxin-like 2 regulates human cancer cell growth and metastasis via redox homeostasis and NF-κB signaling
Ying Qu, Jinhua Wang, Partha S. Ray, Hua Guo, Jian Huang, Miyung Shin-Sim, Bolanle A. Bukoye, Bingya Liu, Adrian V. Lee, Xin Lin, Peng Huang, John W. Martens, Armando E. Giuliano, Ning Zhang, Ning-Hui Cheng, Xiaojiang Cui
Ying Qu, Jinhua Wang, Partha S. Ray, Hua Guo, Jian Huang, Miyung Shin-Sim, Bolanle A. Bukoye, Bingya Liu, Adrian V. Lee, Xin Lin, Peng Huang, John W. Martens, Armando E. Giuliano, Ning Zhang, Ning-Hui Cheng, Xiaojiang Cui
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Thioredoxin-like 2 regulates human cancer cell growth and metastasis via redox homeostasis and NF-κB signaling

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Abstract

Cancer cells have an efficient antioxidant system to counteract their increased generation of ROS. However, whether this ability to survive high levels of ROS has an important role in the growth and metastasis of tumors is not well understood. Here, we demonstrate that the redox protein thioredoxin-like 2 (TXNL2) regulates the growth and metastasis of human breast cancer cells through a redox signaling mechanism. TXNL2 was found to be overexpressed in human cancers, including breast cancers. Knockdown of TXNL2 in human breast cancer cell lines increased ROS levels and reduced NF-κB activity, resulting in inhibition of in vitro proliferation, survival, and invasion. In addition, TXNL2 knockdown inhibited tumorigenesis and metastasis of these cells upon transplantation into immunodeficient mice. Furthermore, analysis of primary breast cancer samples demonstrated that enhanced TXNL2 expression correlated with metastasis to the lung and brain and with decreased overall patient survival. Our studies provided insight into redox-based mechanisms underlying tumor growth and metastasis and suggest that TXNL2 could be a target for treatment of breast cancer.

Authors

Ying Qu, Jinhua Wang, Partha S. Ray, Hua Guo, Jian Huang, Miyung Shin-Sim, Bolanle A. Bukoye, Bingya Liu, Adrian V. Lee, Xin Lin, Peng Huang, John W. Martens, Armando E. Giuliano, Ning Zhang, Ning-Hui Cheng, Xiaojiang Cui

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XPC silencing in normal human keratinocytes triggers metabolic alterations that drive the formation of squamous cell carcinomas
Hamid Reza Rezvani, Arianna L. Kim, Rodrigue Rossignol, Nsrein Ali, Meaghan Daly, Walid Mahfouf, Nadège Bellance, Alain Taïeb, Hubert de Verneuil, Frédéric Mazurier, David R. Bickers
Hamid Reza Rezvani, Arianna L. Kim, Rodrigue Rossignol, Nsrein Ali, Meaghan Daly, Walid Mahfouf, Nadège Bellance, Alain Taïeb, Hubert de Verneuil, Frédéric Mazurier, David R. Bickers
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XPC silencing in normal human keratinocytes triggers metabolic alterations that drive the formation of squamous cell carcinomas

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Abstract

DNA damage is a well-known initiator of tumorigenesis. Studies have shown that most cancer cells rely on aerobic glycolysis for their bioenergetics. We sought to identify a molecular link between genomic mutations and metabolic alterations in neoplastic transformation. We took advantage of the intrinsic genomic instability arising in xeroderma pigmentosum C (XPC). The XPC protein plays a key role in recognizing DNA damage in nucleotide excision repair, and patients with XPC deficiency have increased incidence of skin cancer and other malignancies. In cultured human keratinocytes, we showed that lentivirus-mediated knockdown of XPC reduced mitochondrial oxidative phosphorylation and increased glycolysis, recapitulating cancer cell metabolism. Accumulation of unrepaired DNA following XPC silencing increased DNA-dependent protein kinase activity, which subsequently activated AKT1 and NADPH oxidase-1 (NOX1), resulting in ROS production and accumulation of specific deletions in mitochondrial DNA (mtDNA) over time. Subcutaneous injection of XPC-deficient keratinocytes into immunodeficient mice led to squamous cell carcinoma formation, demonstrating the tumorigenic potential of transduced cells. Conversely, simultaneous knockdown of either NOX1 or AKT1 blocked the neoplastic transformation induced by XPC silencing. Our results demonstrate that genomic instability resulting from XPC silencing results in activation of AKT1 and subsequently NOX1 to induce ROS generation, mtDNA deletions, and neoplastic transformation in human keratinocytes.

Authors

Hamid Reza Rezvani, Arianna L. Kim, Rodrigue Rossignol, Nsrein Ali, Meaghan Daly, Walid Mahfouf, Nadège Bellance, Alain Taïeb, Hubert de Verneuil, Frédéric Mazurier, David R. Bickers

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Enigma negatively regulates p53 through MDM2 and promotes tumor cell survival in mice
Cho-Rok Jung, Jung Hwa Lim, Yoonjung Choi, Dae-Ghon Kim, Koo Jeong Kang, Seung-Moo Noh, Dong-Soo Im
Cho-Rok Jung, Jung Hwa Lim, Yoonjung Choi, Dae-Ghon Kim, Koo Jeong Kang, Seung-Moo Noh, Dong-Soo Im
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Enigma negatively regulates p53 through MDM2 and promotes tumor cell survival in mice

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Abstract

The human E3 ubiquitin ligase murine double minute 2 (MDM2) targets the tumor suppressor p53 for ubiquitination and degradation but also promotes its own ubiquitination and subsequent degradation. As the balance between MDM2 and p53 levels plays a crucial role in regulating cell proliferation and apoptosis, we sought to identify factors selectively inhibiting MDM2 self-ubiquitination. Here we have shown that the LIM domain protein Enigma directly interacts with MDM2 to form a ternary complex with p53 in vitro and in human hepatoma and colon carcinoma cell lines and mouse embryonic fibroblasts. We found that Enigma elicited p53 degradation by inhibiting MDM2 self-ubiquitination and increasing its ubiquitin ligase activity toward p53 in cells. Moreover, mitogenic stimuli such as serum, FGF, and HGF increased Enigma transcription via induction of serum response factor (SRF), leading to MDM2 stabilization and subsequent p53 degradation. We observed similar results in the livers of mice treated with HGF. In humans, we found SRF and Enigma coexpressed with MDM2 but not p53 in several liver and stomach tumors. Finally, we showed that Enigma promoted cell survival and chemoresistance by suppressing p53-mediated apoptosis in both cell lines and a mouse xenograft model. Our findings suggest a role for Enigma in tumorigenesis and uncover a mechanism whereby mitogens attenuate p53 antiproliferative activity through an SRF/Enigma/MDM2 pathway.

Authors

Cho-Rok Jung, Jung Hwa Lim, Yoonjung Choi, Dae-Ghon Kim, Koo Jeong Kang, Seung-Moo Noh, Dong-Soo Im

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Deregulation of the Pit-1 transcription factor in human breast cancer cells promotes tumor growth and metastasis
Isabel Ben-Batalla, Samuel Seoane, Tomas Garcia-Caballero, Rosalia Gallego, Manuel Macia, Luis O. Gonzalez, Francisco Vizoso, Roman Perez-Fernandez
Isabel Ben-Batalla, Samuel Seoane, Tomas Garcia-Caballero, Rosalia Gallego, Manuel Macia, Luis O. Gonzalez, Francisco Vizoso, Roman Perez-Fernandez
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Deregulation of the Pit-1 transcription factor in human breast cancer cells promotes tumor growth and metastasis

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Abstract

The Pit-1 transcription factor (also know as POU1F1) plays a critical role in cell differentiation during organogenesis of the anterior pituitary in mammals and is a transcriptional activator for pituitary gene transcription. Increased expression of Pit-1 has been reported in human tumorigenic breast cells. Here, we found that Pit-1 overexpression or knockdown in human breast cancer cell lines induced profound phenotypic changes in the expression of proteins involved in cell proliferation, apoptosis, and invasion. Some of these protumorigenic effects of Pit-1 were mediated by upregulation of Snai1, an inductor of the epithelial-mesenchymal transition. In immunodeficient mice, Pit-1 overexpression induced tumoral growth and promoted metastasis in lung. In patients with invasive ductal carcinoma of the breast and node-positive tumor, high expression of Pit-1 was significantly correlated with Snai1 positivity. Notably, in these patients elevated expression of Pit-1 was significantly and independently associated with the occurrence of distant metastasis. These findings suggest that Pit-1 could help to make a more accurate prognosis in patients with node-positive breast cancer and may represent a new therapeutic target.

Authors

Isabel Ben-Batalla, Samuel Seoane, Tomas Garcia-Caballero, Rosalia Gallego, Manuel Macia, Luis O. Gonzalez, Francisco Vizoso, Roman Perez-Fernandez

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BCL6 repression of EP300 in human diffuse large B cell lymphoma cells provides a basis for rational combinatorial therapy
Leandro C. Cerchietti, Katerina Hatzi, Eloisi Caldas-Lopes, Shao Ning Yang, Maria E. Figueroa, Ryan D. Morin, Martin Hirst, Lourdes Mendez, Rita Shaknovich, Philip A. Cole, Kapil Bhalla, Randy D. Gascoyne, Marco Marra, Gabriela Chiosis, Ari Melnick
Leandro C. Cerchietti, Katerina Hatzi, Eloisi Caldas-Lopes, Shao Ning Yang, Maria E. Figueroa, Ryan D. Morin, Martin Hirst, Lourdes Mendez, Rita Shaknovich, Philip A. Cole, Kapil Bhalla, Randy D. Gascoyne, Marco Marra, Gabriela Chiosis, Ari Melnick
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BCL6 repression of EP300 in human diffuse large B cell lymphoma cells provides a basis for rational combinatorial therapy

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Abstract

B cell lymphoma 6 (BCL6), which encodes a transcriptional repressor, is a critical oncogene in diffuse large B cell lymphomas (DLBCLs). Although a retro-inverted BCL6 peptide inhibitor (RI-BPI) was recently shown to potently kill DLBCL cells, the underlying mechanisms remain unclear. Here, we show that RI-BPI induces a particular gene expression signature in human DLBCL cell lines that included genes associated with the actions of histone deacetylase (HDAC) and Hsp90 inhibitors. BCL6 directly repressed the expression of p300 lysine acetyltransferase (EP300) and its cofactor HLA-B–associated transcript 3 (BAT3). RI-BPI induced expression of p300 and BAT3, resulting in acetylation of p300 targets including p53 and Hsp90. Induction of p300 and BAT3 was required for the antilymphoma effects of RI-BPI, since specific blockade of either protein rescued human DLBCL cell lines from the BCL6 inhibitor. Consistent with this, combination of RI-BPI with either an HDAC inhibitor (HDI) or an Hsp90 inhibitor potently suppressed or even eradicated established human DLBCL xenografts in mice. Furthermore, HDAC and Hsp90 inhibitors independently enhanced RI-BPI killing of primary human DLBCL cells in vitro. We also show that p300-inactivating mutations occur naturally in human DLBCL patients and may confer resistance to BCL6 inhibitors. Thus, BCL6 repression of EP300 provides a basis for rational targeted combinatorial therapy for patients with DLBCL.

Authors

Leandro C. Cerchietti, Katerina Hatzi, Eloisi Caldas-Lopes, Shao Ning Yang, Maria E. Figueroa, Ryan D. Morin, Martin Hirst, Lourdes Mendez, Rita Shaknovich, Philip A. Cole, Kapil Bhalla, Randy D. Gascoyne, Marco Marra, Gabriela Chiosis, Ari Melnick

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E2F8 keeps liver cancer at bay
Alain de Bruin, Gustavo Leone, and colleagues find that the E2F8-mediated transcriptional repression in the developing liver suppresses hepatocellular carcinoma later in life …
Published July 25, 2016
Scientific Show StopperOncology

AIDing and abetting UV-independent skin cancer
Taichiro Nonaka and colleagues find that AID plays a role in the development of inflammation-driven, non-UV skin cancer
Published March 14, 2016
Scientific Show StopperOncology

CD37 keeps B cell lymphoma at bay
Charlotte de Winde, Sharon Veenbergen, and colleagues demonstrate that loss of CD37 expression relieves SOCS3-mediated suppression of IL-6 signaling and supports the development of B cell lymphoma…
Published January 19, 2016
Scientific Show StopperOncology

Maintaining endometrial epithelial barrier function
Jessica Bowser and colleagues identify a mechanism by which loss of CD73 promotes endometrial cancer progression…
Published December 7, 2015
Scientific Show StopperOncology

Sleuthing out the cellular source of hepatocellular carcinoma
Xueru Mu, Regina Español-Suñer, and colleagues show that tumors in murine hepatocellular carcinoma models are derived from hepatocytes and not from other liver resident cells …
Published September 8, 2015
Scientific Show StopperOncology

Live animal imaging in the far red
Ming Zhang and colleagues developed a far-red-absorbing reporter/probe system that can be used to image live animals and overcomes imaging limitations associated with conventional systems that use lower wavelengths of light…
Published September 8, 2015
Scientific Show StopperTechnical AdvanceOncology

Cancer cells fight off stress with ATF4
Souvik Dey, Carly Sayers, and colleagues reveal that activation of heme oxygenase 1 by ATF4 protects cancer cells from ECM detachment-induced death and promotes metastasis…
Published May 26, 2015
Scientific Show StopperOncology

Smothering Von Hippel-Lindau syndrome-associated phenotypes
Ana Metelo and colleagues demonstrate that specific inhibition of HIF2a ameliorates VHL-associated phenotypes and improves survival in a zebrafish model of disease…
Published April 13, 2015
Scientific Show StopperOncology

Blazing the trail for metastasis
Jill Westcott, Amanda Prechtl, and colleagues identify an epigenetically distinct population of breast cancer cells that promotes collective invasion…
Published April 6, 2015
Scientific Show StopperOncology

Dynamic focal adhesions
Wies van Roosmalen, Sylvia E. Le Dévédec, and colleagues screen for genes that alter cancer cell migration and demonstrate that SRPK1 promotes metastasis...
Published March 16, 2015
Scientific Show StopperOncology
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