Your search keyword '"Wong, Kwok"' showing total 13 results

1. Author Correction: Mechanisms and clinical activity of an EGFR and HER2 exon 20–selective kinase inhibitor in non–small cell lung cancer

Author

Robichaux, Jacqulyne P., Elamin, Yasir Y., Tan, Zhi, Carter, Brett W., Zhang, Shuxing, Liu, Shengwu, Li, Shuai, Chen, Ting, Poteete, Alissa, Estrada-Bernal, Adriana, Le, Anh T., Truini, Anna, Nilsson, Monique B., Sun, Huiying, Roarty, Emily, Goldberg, Sarah B., Brahmer, Julie R., Altan, Mehmet, Lu, Charles, Papadimitrakopoulou, Vassiliki, Politi, Katerina, Doebele, Robert C., Wong, Kwok-Kin, and Heymach, John V.

Published

2024

2. Tumor innate immunity primed by specific interferon-stimulated endogenous retroviruses

Author

Cañadas, Israel, Thummalapalli, Rohit, Kim, Jong Wook, Kitajima, Shunsuke, Jenkins, Russell William, Christensen, Camilla Laulund, Campisi, Marco, Kuang, Yanan, Zhang, Yanxi, Gjini, Evisa, Zhang, Gao, Tian, Tian, Sen, Debattama Rai, Miao, Diana, Imamura, Yu, Thai, Tran, Piel, Brandon, Terai, Hideki, Aref, Amir Reza, Hagan, Timothy, Koyama, Shohei, Watanabe, Masayuki, Baba, Hideo, Adeni, Anika Elise, Lydon, Christine Anne, Tamayo, Pablo, Wei, Zhi, Herlyn, Meenhard, Barbie, Thanh Uyen, Uppaluri, Ravindra, Sholl, Lynnette Marie, Sicinska, Ewa, Sands, Jacob, Rodig, Scott, Wong, Kwok Kin, Paweletz, Cloud Peter, Watanabe, Hideo, and Barbie, David Allen

Subjects

Genetics, Cancer, Vaccine Related, Immunization, 2.1 Biological and endogenous factors, Aetiology, Inflammatory and immune system, Animals, Cell Line, Tumor, Endogenous Retroviruses, Gene Expression Regulation, Neoplastic, Humans, Immunity, Innate, Interferons, Mice, Nude, Neoplasms, RNA, Antisense, Medical and Health Sciences, Immunology

Abstract

Mesenchymal tumor subpopulations secrete pro-tumorigenic cytokines and promote treatment resistance1-4. This phenomenon has been implicated in chemorefractory small cell lung cancer and resistance to targeted therapies5-8, but remains incompletely defined. Here, we identify a subclass of endogenous retroviruses (ERVs) that engages innate immune signaling in these cells. Stimulated 3 prime antisense retroviral coding sequences (SPARCS) are oriented inversely in 3' untranslated regions of specific genes enriched for regulation by STAT1 and EZH2. Derepression of these loci results in double-stranded RNA generation following IFN-γ exposure due to bi-directional transcription from the STAT1-activated gene promoter and the 5' long terminal repeat of the antisense ERV. Engagement of MAVS and STING activates downstream TBK1, IRF3, and STAT1 signaling, sustaining a positive feedback loop. SPARCS induction in human tumors is tightly associated with major histocompatibility complex class 1 expression, mesenchymal markers, and downregulation of chromatin modifying enzymes, including EZH2. Analysis of cell lines with high inducible SPARCS expression reveals strong association with an AXL/MET-positive mesenchymal cell state. While SPARCS-high tumors are immune infiltrated, they also exhibit multiple features of an immune-suppressed microenviroment. Together, these data unveil a subclass of ERVs whose derepression triggers pathologic innate immune signaling in cancer, with important implications for cancer immunotherapy.

Published

2018

3. Small-molecule targeting of brachyury transcription factor addiction in chordoma

Author

Sharifnia, Tanaz, Wawer, Mathias J., Chen, Ting, Huang, Qing-Yuan, Weir, Barbara A., Sizemore, Ann, Lawlor, Matthew A., Goodale, Amy, Cowley, Glenn S., Vazquez, Francisca, Ott, Christopher J., Francis, Joshua M., Sassi, Slim, Cogswell, Patricia, Sheppard, Hadley E., Zhang, Tinghu, Gray, Nathanael S., Clarke, Paul A., Blagg, Julian, Workman, Paul, Sommer, Josh, Hornicek, Francis, Root, David E., Hahn, William C., Bradner, James E., Wong, Kwok K., Clemons, Paul A., Lin, Charles Y., Kotz, Joanne D., and Schreiber, Stuart L.

Published

2019

4. Targeting wild-type KRAS-amplified gastroesophageal cancer through combined MEK and SHP2 inhibition

Author

Wong, Gabrielle S., Zhou, Jin, Liu, Jie Bin, Wu, Zhong, Xu, Xinsen, Li, Tianxia, Xu, David, Schumacher, Steven E., Puschhof, Jens, McFarland, James, Zou, Charles, Dulak, Austin, Henderson, Les, Xu, Peng, O’Day, Emily, Rendak, Rachel, Liao, Wei-li, Cecchi, Fabiola, Hembrough, Todd, Schwartz, Sarit, Szeto, Christopher, Rustgi, Anil K., Wong, Kwok-Kin, Diehl, J. Alan, Jensen, Karin, Graziano, Francesco, Ruzzo, Annamaria, Fereshetian, Shaunt, Mertins, Philipp, Carr, Steven A., Beroukhim, Rameen, Nakamura, Kenichi, Oki, Eiji, Watanabe, Masayuki, Baba, Hideo, Imamura, Yu, Catenacci, Daniel, and Bass, Adam J.

Published

2018

5. Mechanisms and clinical activity of an EGFR and HER2 exon 20–selective kinase inhibitor in non–small cell lung cancer

Author

Robichaux, Jacqulyne P., Elamin, Yasir Y., Tan, Zhi, Carter, Brett W., Zhang, Shuxing, Liu, Shengwu, Li, Shuai, Chen, Ting, Poteete, Alissa, Estrada-Bernal, Adriana, Le, Anh T., Truini, Anna, Nilsson, Monique B., Sun, Huiying, Roarty, Emily, Goldberg, Sarah B., Brahmer, Julie R., Altan, Mehmet, Lu, Charles, Papadimitrakopoulou, Vassiliki, Politi, Katerina, Doebele, Robert C., Wong, Kwok-Kin, and Heymach, John V.

Published

2018

6. Prostate cancer-associated SPOP mutations confer resistance to BET inhibitors through stabilization of BRD4

Author

Dai, Xiangpeng, Gan, Wenjian, Li, Xiaoning, Wang, Shangqian, Zhang, Wei, Huang, Ling, Liu, Shengwu, Zhong, Qing, Guo, Jianping, Zhang, Jinfang, Chen, Ting, Shimizu, Kouhei, Beca, Francisco, Blattner, Mirjam, Vasudevan, Divya, Buckley, Dennis L, Qi, Jun, Buser, Lorenz, Liu, Pengda, Inuzuka, Hiroyuki, Beck, Andrew H, Wang, Liewei, Wild, Peter J, Garraway, Levi A, Rubin, Mark A, Barbieri, Christopher E, Wong, Kwok-Kin, Muthuswamy, Senthil K, Huang, Jiaoti, Chen, Yu, Bradner, James E, and Wei, Wenyi

Subjects

Gene mutation -- Physiological aspects -- Research, Drug resistance -- Genetic aspects -- Research, Prostate cancer -- Genetic aspects -- Drug therapy -- Research, Biological sciences, Health

Abstract

Author(s): Xiangpeng Dai [1]; Wenjian Gan [1]; Xiaoning Li [1, 2]; Shangqian Wang [3]; Wei Zhang [4, 5]; Ling Huang [6]; Shengwu Liu [7, 8]; Qing Zhong [9]; Jianping Guo [...]

Published

2017

7. Rescue of Hippo coactivator YAP1 triggers DNA damage-induced apoptosis in hematological cancers

Author

Cottini, Francesca, Hideshima, Teru, Xu, Chunxiao, Sattler, Martin, Dori, Martina, Agnelli, Luca, ten Hacken, Elisa, Bertilaccio, Maria Teresa, Antonini, Elena, Neri, Antonino, Ponzoni, Maurilio, Marcatti, Magda, Richardson, Paul G., Carrasco, Ruben, Kimmelman, Alec C., Wong, Kwok-Kin, Caligaris-Cappio, Federico, Blandino, Giovanni, Kuehl, W. Michael, Anderson, Kenneth C., and Tonon, Giovanni

Subjects

Leukemia -- Risk factors -- Genetic aspects -- Research, Tumor suppressor genes -- Physiological aspects -- Research, DNA damage -- Physiological aspects -- Research, Biological sciences, Health

Abstract

Oncogene-induced DNA damage elicits genomic instability in epithelial cancer cells, but apoptosis is blocked through inactivation of the tumor suppressor p53. In hematological cancers, the relevance of ongoing DNA damage and the mechanisms by which apoptosis is suppressed are largely unknown. We found pervasive DNA damage in hematologic malignancies, including multiple myeloma, lymphoma and leukemia, which leads to activation of a p53-independent, proapoptotic network centered on nuclear relocalization of ABL1 kinase. Although nuclear ABL1 triggers cell death through its interaction with the Hippo pathway coactivator YAP1 in normal cells, we show that low YAP1 levels prevent nuclear ABL1-induced apoptosis in these hematologic malignancies. YAP1 is under the control of a serine-threonine kinase, STK4. Notably, genetic inactivation of STK4 restores YAP1 levels, triggering cell death in vitro and in vivo. Our data therefore identify a new synthetic-lethal strategy to selectively target cancer cells presenting with endogenous DNA damage and low YAP1 levels., In epithelial cancers, rampant DNA double-strand break (DSB) formation followed by activation of the DNA damage response (DDR) occurs in both premalignant and malignant conditions. However, in precancerous settings, senescence [...]

Published

2014

8. Compromised CDK1 activity sensitizes BRCA-proficient cancers to PARP inhibition

Author

Johnson, Neil, Li, Yu-Chen, Walton, Zandra E., Cheng, Katherine A., Li, Danan, Rodig, Scott J., Moreau, Lisa A., Unitt, Christine, Bronson, Roderick T., Thomas, Huw D., Newell, David R., D'Andrea, Alan D., Curtin, Nicola J., Wong, Kwok-Kin, and Shapiro, Geoffrey I.

Subjects

Phosphotransferases -- Physiological aspects -- Research, Phosphorylation -- Research, Cellular proteins -- Physiological aspects -- Research, Biological sciences, Health

Abstract

Cells that are deficient in homologous recombination, such as those that lack functional breast cancer-associated 1 (BRCA1) or BRCA2, are hypersensitive to inhibition of poly(ADP-ribose) polymerase (PARP). However, BRCA-deficient tumors represent only a small fraction of adult cancers, which might restrict the therapeutic utility of PARP inhibitor monotherapy. Cyclin-dependent kinase 1 (Cdk1) phosphorylates BRCA1, and this is essential for efficient formation of BRCA1 foci. Here we show that depletion or inhibition of Cdk1 compromises the ability of cells to repair DNA by homologous recombination. Combined inhibition of Cdk1 and PARP in BRCA-wild-type cancer cells resulted in reduced colony formation, delayed growth of human tumor xenografts and tumor regression with prolonged survival in a mouse model of lung adenocarcinoma. Inhibition of Cdk1 did not sensitize nontransformed cells or tissues to inhibition of PARP. Because reduced Cdk1 activity impaired BRCA1 function and consequently, repair by homologous recombination, inhibition of Cdk1 represents a plausible strategy for expanding the utility of PARP inhibitors to BRCA-proficient cancers., Cdk1 is a core component of the cell cycle machinery, and forms complexes with cyclins A and B to promote S, G2 and M phase progression (1-3). Cdkl and other [...]

Published

2011

9. Neutrophil elastase-mediated degradation of IRS-1 accelerates lung tumor growth

Author

Houghton, A. McGarry, Rzymkiewicz, Danuta M., Ji, Hongbin, Gregory, Alyssa D., Egea, Eduardo E., Metz, Heather E., Stolz, Donna B., Land, Stephanie R., Marconcini, Luiz A., Kliment, Corrine R., Jenkins, Kimberly M., Beaulieu, Keith A., Mouded, Majd, Frank, Stuart J., Wong, Kwok K., and Shapiro, Steven D.

Subjects

Platelet-derived growth factor -- Growth -- Physiological aspects -- Research, Lung cancer -- Care and treatment -- Research, Cellular signal transduction -- Research, Elastases -- Physiological aspects -- Research, Company growth, Biological sciences, Health

Abstract

Lung cancer is the leading cause of cancer death worldwide (1). Recent data suggest that tumor-associated inflammatory cells may modify lung tumor growth and invasiveness (2,3). To determine the role of neutrophil elastase (encoded by Elane) on tumor progression, we used the loxP-Stop-loxP [K-ras.sup.G12D] (LSL-K-ras) model of mouse lung adenocarcinoma (4) to generate [LSL-K-ras-Elane.sup.-/-] mice. Tumor burden was markedly reduced in [LSL-K-ras-Elane.sup.-/-] mice at all time points after induction of mutant K-ras expression. Kaplan-Meier survival analysis showed that whereas all [LSL-K-ras-Elane.sup.+/+] mice died, none of the mice lacking neutrophil elastase died. Neutrophil elastase directly induced tumor cell proliferation in both human and mouse lung adenocarcinomas by gaining access to an endosomal compartment within tumor cells, where it degraded insulin receptor substrate-1 (IRS-1). Immunoprecipitation studies showed that, as neutrophil elastase degraded IRS-1, there was increased interaction between phosphatidylinositol 3-kinase (PI3K) and the potent mitogen platelet-derived growth factor receptor (PDGFR), thereby skewing the PI3K axis toward tumor cell proliferation. The inverse relationship identified between neutrophil elastase and IRS-1 in LSL-K-ras mice was also identified in human lung adenocarcinomas, thus translating these findings to human disease. This study identifies IRS-1 as a key regulator of PI3K within malignant cells. Additionally, to our knowledge, this is the first description of a secreted proteinase gaining access to the inside of a cell and altering intracellular signaling., Lung cancer is the leading cause of cancer-related deaths worldwide, with dismal ~15% five-year survival rates despite therapeutic advances over the past few decades (1). A better understanding of tumor-associated [...]

Published

2010

10. Effective use of PI3K and MEK inhibitors to treat mutant Kras G12D and PIK3CA H1047R murine lung cancers

Author

Engelman, Jeffrey A., Chen, Liang, Tan, Xiaohong, Crosby, Katherine, Guimaraes, Alexander R., Upadhyay, Rabi, Maira, Michel, McNamara, Kate, Perera, Samanthi A., Song, Youngchul, Chirieac, Lucian R., Kaur, Ramneet, Lightbown, Angela, Simendinger, Jessica, Li, Timothy, Padera, Robert F., Garcia-Echeverria, Carlos, Weissleder, Ralph, Mahmood, Umar, Cantley, Lewis C., and Wong, Kwok-Kin

Subjects

Antimitotic agents -- Dosage and administration, Antimitotic agents -- Research, Antineoplastic agents -- Dosage and administration, Antineoplastic agents -- Research, Lung cancer -- Genetic aspects, Lung cancer -- Care and treatment, Lung cancer -- Research, Protein kinases -- Genetic aspects, Protein kinases -- Health aspects, Protein kinases -- Research

Abstract

Somatic mutations that activate phosphoinositide 3-kinase (PI3K) have been identified in the p1 10-a catalytic subunit (encoded by PIK3CA) (1). They are most frequently observed in two hotspots: the helical domain (E545K and E542K) and the kinase domain (H1047R). Although the p110-[alpha] mutants are transforming in vitro, their oncogenic potential has not been assessed in genetically engineered mouse models. Furthermore, clinical trials with PI3K inhibitors have recently been initiated, and it is unknown if their efficacy will be restricted to specific, genetically defined malignancies. In this study, we engineered a mouse model of lung adenocarcinomas initiated and maintained by expression of p110-[alpha] H1047R. Treatment of these tumors with NVP-BEZ235, a dual pan-PI3K and mammalian target of rapamycin (mTOR) inhibitor in clinical development, led to marked tumor regression as shown by positron emission tomography-computed tomography, magnetic resonance imaging and microscopic examination. In contrast, mouse lung cancers driven by mutant Kras did not substantially respond to single-agent NVP-BEZ235. However, when NVP-BEZ235 was combined with a mitogen-activated protein kinase kinase (MEK) inhibitor, ARRY-142886, there was marked synergy in shrinking these Kras-mutant cancers. These in vivo studies suggest that inhibitors of the PI3K-mTOR pathway may be active in cancers with PIK3CA mutations and, when combined with MEK inhibitors, may effectively treat KRAS mutated lung cancers., To generate mice with inducible expression of human p110[alpha] H1047R, we injected a DNA segment consisting of seven direct repeats of the tetracycline operator (Tet-op) sequence, followed by human PIK3CA [...]

Published

2008

11. Sensitive mutation detection in heterogeneous cancer specimens by massively parallel picoliter reactor sequencing

Author

Thomas, Roman K, Nickerson, Elizabeth, Simons, Jan F, Janne, Pasi A, Tengs, Torstein, Yuza, Yuki, Garraway, Levi A, LaFramboise, Thomas, Lee, Jeffrey C, Shah, Kinjal, O'Neill, Keith, Sasaki, Hidefumi, Lindeman, Neal, Wong, Kwok-Kin, Borras, Ana M, Gutmann, Edward J, Dragnev, Konstantin H, DeBiasi, Ralph, Chen, Tzu-Hsiu, Glatt, Karen A, Greulich, Heidi, Desany, Brian, Lubeski, Christine K, Brockman, William, Alvarez, Pablo, Hutchison, Stephen K, Leamon, J H, Ronan, Michael T, Turenchalk, Gregory S, Egholm, Michael, Sellers, William R, Rothberg, Jonathan M, and Meyerson, Matthew

Abstract

The sensitivity of conventional DNA sequencing in tumor biopsies is limited by stromal contamination and by genetic heterogeneity within the cancer. Here, we show that microreactor-based pyrosequencing can detect rare cancer-associated sequence variations by independent and parallel sampling of multiple representatives of a given DNA fragment. This technology can thereby facilitate accurate molecular diagnosis of heterogeneous cancer specimens and enable patient selection for targeted cancer therapies. NOTE:: In the version of this article initially published, it should have been acknowledged that Jan F. Simons, in addition to Roman K. Thomas and Elizabeth Nickerson, contributed equally to this work. The error has been corrected in the HTML and PDF versions of the article., Author(s): Roman K Thomas [1, 2, 12]; Elizabeth Nickerson [3, 12]; Jan F Simons [3, 11, 12]; Pasi A Janne [1]; Torstein Tengs [1, 2]; Yuki Yuza [1]; Levi A [...]

Published

2006

12. Author Correction: Targeting wild-type KRAS-amplified gastroesophageal cancer through combined MEK and SHP2 inhibition

Author

Wong, Gabrielle S., primary, Zhou, Jin, additional, Bin Liu, Jie, additional, Wu, Zhong, additional, Xu, Xinsen, additional, Li, Tianxia, additional, Xu, David, additional, Schumacher, Steven E., additional, Puschhof, Jens, additional, McFarland, James, additional, Zou, Charles, additional, Dulak, Austin, additional, Henderson, Les, additional, Xu, Peng, additional, O’Day, Emily, additional, Rendak, Rachel, additional, Liao, Wei-li, additional, Cecchi, Fabiola, additional, Hembrough, Todd, additional, Schwartz, Sarit, additional, Szeto, Christopher, additional, Rustgi, Anil K., additional, Wong, Kwok-Kin, additional, Diehl, J. Alan, additional, Jensen, Karin, additional, Graziano, Francesco, additional, Ruzzo, Annamaria, additional, Fereshetian, Shaunt, additional, Mertins, Philipp, additional, Carr, Steven A., additional, Beroukhim, Rameen, additional, Nakamura, Kenichi, additional, Oki, Eiji, additional, Watanabe, Masayuki, additional, Baba, Hideo, additional, Imamura, Yu, additional, Catenacci, Daniel, additional, and Bass, Adam J., additional

Published

2018

13. Rationale for co-targeting IGF-1R and ALK in ALK fusion–positive lung cancer

Author

Lovly, Christine M, primary, McDonald, Nerina T, additional, Chen, Heidi, additional, Ortiz-Cuaran, Sandra, additional, Heukamp, Lukas C, additional, Yan, Yingjun, additional, Florin, Alexandra, additional, Ozretić, Luka, additional, Lim, Diana, additional, Wang, Lu, additional, Chen, Zhao, additional, Chen, Xi, additional, Lu, Pengcheng, additional, Paik, Paul K, additional, Shen, Ronglai, additional, Jin, Hailing, additional, Buettner, Reinhard, additional, Ansén, Sascha, additional, Perner, Sven, additional, Brockmann, Michael, additional, Bos, Marc, additional, Wolf, Jürgen, additional, Gardizi, Masyar, additional, Wright, Gavin M, additional, Solomon, Benjamin, additional, Russell, Prudence A, additional, Rogers, Toni-Maree, additional, Suehara, Yoshiyuki, additional, Red-Brewer, Monica, additional, Tieu, Rudy, additional, de Stanchina, Elisa, additional, Wang, Qingguo, additional, Zhao, Zhongming, additional, Johnson, David H, additional, Horn, Leora, additional, Wong, Kwok-Kin, additional, Thomas, Roman K, additional, Ladanyi, Marc, additional, and Pao, William, additional

Published

2014