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127 results on '"Yates, Joel A."'

1. Transcriptional profiling of matched patient biopsies clarifies molecular determinants of enzalutamide-induced lineage plasticity.

Author

Westbrook, Thomas C, Guan, Xiangnan, Rodansky, Eva, Flores, Diana, Liu, Chia Jen, Udager, Aaron M, Patel, Radhika A, Haffner, Michael C, Hu, Ya-Mei, Sun, Duanchen, Beer, Tomasz M, Foye, Adam, Aggarwal, Rahul, Quigley, David A, Youngren, Jack F, Ryan, Charles J, Gleave, Martin, Wang, Yuzhuo, Huang, Jiaoti, Coleman, Ilsa, Morrissey, Colm, Nelson, Peter S, Evans, Christopher P, Lara, Primo, Reiter, Robert E, Witte, Owen, Rettig, Matthew, Wong, Christopher K, Weinstein, Alana S, Uzunangelov, Vlado, Stuart, Josh M, Thomas, George V, Feng, Felix Y, Small, Eric J, Yates, Joel A, Xia, Zheng, and Alumkal, Joshi J

Subjects
Cell Line, Tumor, Humans, Benzamides, Nitriles, Phenylthiohydantoin, Receptors, Androgen, RNA, Biopsy, Drug Resistance, Neoplasm, Male, E2F1 Transcription Factor, Androgen Receptor Antagonists, Prostatic Neoplasms, Castration-Resistant, Prostate Cancer, Genetics, Urologic Diseases, Cancer, Clinical Research, 2.1 Biological and endogenous factors, Aetiology
Abstract

The androgen receptor (AR) signaling inhibitor enzalutamide (enza) is one of the principal treatments for metastatic castration-resistant prostate cancer (CRPC). Several emergent enza clinical resistance mechanisms have been described, including lineage plasticity in which the tumors manifest reduced dependency on the AR. To improve our understanding of enza resistance, herein we analyze the transcriptomes of matched biopsies from men with metastatic CRPC obtained prior to treatment and at progression (n = 21). RNA-sequencing analysis demonstrates that enza does not induce marked, sustained changes in the tumor transcriptome in most patients. However, three patients' progression biopsies show evidence of lineage plasticity. The transcription factor E2F1 and pathways linked to tumor stemness are highly activated in baseline biopsies from patients whose tumors undergo lineage plasticity. We find a gene signature enriched in these baseline biopsies that is strongly associated with poor survival in independent patient cohorts and with risk of castration-induced lineage plasticity in patient-derived xenograft models, suggesting that tumors harboring this gene expression program may be at particular risk for resistance mediated by lineage plasticity and poor outcomes.

Published
2022

2. Recent Advances in Epigenetic Biomarkers and Epigenetic Targeting in Prostate Cancer.

Author

Kumaraswamy, Anbarasu, Welker Leng, Katherine, Westbrook, Thomas, Yates, Joel, Zhao, Shuang, Evans, Christopher, Feng, Felix, Morgan, Todd, and Alumkal, Joshi

Subjects
BET bromodomain, Chromatin, DNA methylation, DNA methyltransferase, Epigenetics, Histone acetyltransferase, Histone deacetylase, Histone demethylase, Histone methyltransferase, Prostate cancer, Ten-Eleven Translocation, Biomarkers, DNA Methylation, Epigenesis, Genetic, Humans, Male, Pharmaceutical Preparations, Prostatic Neoplasms
Abstract

CONTEXT: In addition to genetic alterations, epigenetic alterations play a crucial role during prostate cancer progression. A better understanding of the epigenetic factors that promote prostate cancer progression may lead to the design of rational therapeutic strategies to target prostate cancer more effectively. OBJECTIVE: To systematically review recent literature on the role of epigenetic factors in prostate cancer and highlight key preclinical and translational data with epigenetic therapies. EVIDENCE ACQUISITION: We performed a systemic literature search in PubMed. At the request of the editors, we limited our search to articles published between January 2015 and August 2020 in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-analyses (PRISMA) guidelines. Clinical trials targeting epigenetic factors were retrieved from clinicaltrials.gov. EVIDENCE SYNTHESIS: We retrieved 1451 articles, and 62 were finally selected for review. Twelve additional foundational studies outside this time frame were also included. Findings from both preclinical and clinical studies were reviewed and summarized. We also discuss 12 ongoing clinical studies with epigenetic targeted therapies. CONCLUSIONS: Epigenetic mechanisms impact prostate cancer progression. Understanding the role of specific epigenetic factors is critical to determine how we may improve prostate cancer treatment and modulate resistance to standard therapies. Recent preclinical studies and ongoing or completed clinical studies with epigenetic therapies provide a useful roadmap for how to best deploy epigenetic therapies clinically to target prostate cancer. PATIENT SUMMARY: Epigenetics is a process by which gene expression is regulated without changes in the DNA sequence itself. Oftentimes, epigenetic changes influence cellular behavior and contribute to cancer development or progression. Understanding how epigenetic changes occur in prostate cancer is the first step toward therapeutic targeting in patients. Importantly, laboratory-based studies and recently completed and ongoing clinical trials suggest that drugs targeting epigenetic factors are promising. More work is necessary to determine whether this class of drugs will add to our existing treatment arsenal in prostate cancer.

Published
2021

8. LSD1 promotes prostate cancer reprogramming by repressing TP53 signaling independently of its demethylase function

Author

Kumaraswamy, Anbarasu, primary, Duan, Zhi, additional, Flores, Diana, additional, Zhang, Chao, additional, Sehrawat, Archana, additional, Hu, Ya-Mei, additional, Swaim, Olivia A., additional, Rodansky, Eva, additional, Storck, William K., additional, Kuleape, Joshua A., additional, Bedi, Karan, additional, Mannan, Rahul, additional, Wang, Xiao-Ming, additional, Udager, Aaron, additional, Ravikumar, Visweswaran, additional, Bankhead, Armand, additional, Coleman, Ilsa, additional, Lee, John K., additional, Morrissey, Colm, additional, Nelson, Peter S., additional, Chinnaiyan, Arul M., additional, Rao, Arvind, additional, Xia, Zheng, additional, Yates, Joel A., additional, and Alumkal, Joshi J., additional

Published
2023
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9. Blood–Brain Barrier Remodeling in an Organ‐on‐a‐Chip Device Showing Dkk1 to be a Regulator of Early Metastasis

Author

Westerhof, Trisha M., primary, Yang, Benjamin A., additional, Merrill, Nathan M., additional, Yates, Joel A., additional, Altemus, Megan, additional, Russell, Liam, additional, Miller, Anna J., additional, Bao, Liwei, additional, Wu, Zhifen, additional, Ulintz, Peter J., additional, Aguilar, Carlos A., additional, Morikawa, Aki, additional, Castro, Maria G., additional, Merajver, Sofia D., additional, and Oliver, Christopher R., additional

Published
2023
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11. Supplementary Figure S3 from BET Bromodomain Inhibition Blocks an AR-Repressed, E2F1-Activated Treatment-Emergent Neuroendocrine Prostate Cancer Lineage Plasticity Program

Author

Kim, Dae-Hwan, primary, Sun, Duanchen, primary, Storck, William K., primary, Welker Leng, Katherine, primary, Jenkins, Chelsea, primary, Coleman, Daniel J., primary, Sampson, David, primary, Guan, Xiangnan, primary, Kumaraswamy, Anbarasu, primary, Rodansky, Eva S., primary, Urrutia, Joshua A., primary, Schwartzman, Jacob A., primary, Zhang, Chao, primary, Beltran, Himisha, primary, Labrecque, Mark P., primary, Morrissey, Colm, primary, Lucas, Jared M., primary, Coleman, Ilsa M., primary, Nelson, Peter S., primary, Corey, Eva, primary, Handelman, Samuel K., primary, Sexton, Jonathan Z., primary, Aggarwal, Rahul, primary, Abida, Wassim, primary, Feng, Felix Y., primary, Small, Eric J., primary, Spratt, Daniel E., primary, Bankhead, Armand, primary, Rao, Arvind, primary, Gesner, Emily M., primary, Attwell, Sarah, primary, Lakhotia, Sanjay, primary, Campeau, Eric, primary, Yates, Joel A., primary, Xia, Zheng, primary, and Alumkal, Joshi J., primary

Published
2023
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12. Supplementary Table S3 from BET Bromodomain Inhibition Blocks an AR-Repressed, E2F1-Activated Treatment-Emergent Neuroendocrine Prostate Cancer Lineage Plasticity Program

Author

Kim, Dae-Hwan, primary, Sun, Duanchen, primary, Storck, William K., primary, Welker Leng, Katherine, primary, Jenkins, Chelsea, primary, Coleman, Daniel J., primary, Sampson, David, primary, Guan, Xiangnan, primary, Kumaraswamy, Anbarasu, primary, Rodansky, Eva S., primary, Urrutia, Joshua A., primary, Schwartzman, Jacob A., primary, Zhang, Chao, primary, Beltran, Himisha, primary, Labrecque, Mark P., primary, Morrissey, Colm, primary, Lucas, Jared M., primary, Coleman, Ilsa M., primary, Nelson, Peter S., primary, Corey, Eva, primary, Handelman, Samuel K., primary, Sexton, Jonathan Z., primary, Aggarwal, Rahul, primary, Abida, Wassim, primary, Feng, Felix Y., primary, Small, Eric J., primary, Spratt, Daniel E., primary, Bankhead, Armand, primary, Rao, Arvind, primary, Gesner, Emily M., primary, Attwell, Sarah, primary, Lakhotia, Sanjay, primary, Campeau, Eric, primary, Yates, Joel A., primary, Xia, Zheng, primary, and Alumkal, Joshi J., primary

Published
2023
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13. Supplementary Data from BET Bromodomain Inhibition Blocks an AR-Repressed, E2F1-Activated Treatment-Emergent Neuroendocrine Prostate Cancer Lineage Plasticity Program

Author

Kim, Dae-Hwan, primary, Sun, Duanchen, primary, Storck, William K., primary, Welker Leng, Katherine, primary, Jenkins, Chelsea, primary, Coleman, Daniel J., primary, Sampson, David, primary, Guan, Xiangnan, primary, Kumaraswamy, Anbarasu, primary, Rodansky, Eva S., primary, Urrutia, Joshua A., primary, Schwartzman, Jacob A., primary, Zhang, Chao, primary, Beltran, Himisha, primary, Labrecque, Mark P., primary, Morrissey, Colm, primary, Lucas, Jared M., primary, Coleman, Ilsa M., primary, Nelson, Peter S., primary, Corey, Eva, primary, Handelman, Samuel K., primary, Sexton, Jonathan Z., primary, Aggarwal, Rahul, primary, Abida, Wassim, primary, Feng, Felix Y., primary, Small, Eric J., primary, Spratt, Daniel E., primary, Bankhead, Armand, primary, Rao, Arvind, primary, Gesner, Emily M., primary, Attwell, Sarah, primary, Lakhotia, Sanjay, primary, Campeau, Eric, primary, Yates, Joel A., primary, Xia, Zheng, primary, and Alumkal, Joshi J., primary

Published
2023
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14. Supplementary Table S8-S12 from BET Bromodomain Inhibition Blocks an AR-Repressed, E2F1-Activated Treatment-Emergent Neuroendocrine Prostate Cancer Lineage Plasticity Program

Author

Kim, Dae-Hwan, primary, Sun, Duanchen, primary, Storck, William K., primary, Welker Leng, Katherine, primary, Jenkins, Chelsea, primary, Coleman, Daniel J., primary, Sampson, David, primary, Guan, Xiangnan, primary, Kumaraswamy, Anbarasu, primary, Rodansky, Eva S., primary, Urrutia, Joshua A., primary, Schwartzman, Jacob A., primary, Zhang, Chao, primary, Beltran, Himisha, primary, Labrecque, Mark P., primary, Morrissey, Colm, primary, Lucas, Jared M., primary, Coleman, Ilsa M., primary, Nelson, Peter S., primary, Corey, Eva, primary, Handelman, Samuel K., primary, Sexton, Jonathan Z., primary, Aggarwal, Rahul, primary, Abida, Wassim, primary, Feng, Felix Y., primary, Small, Eric J., primary, Spratt, Daniel E., primary, Bankhead, Armand, primary, Rao, Arvind, primary, Gesner, Emily M., primary, Attwell, Sarah, primary, Lakhotia, Sanjay, primary, Campeau, Eric, primary, Yates, Joel A., primary, Xia, Zheng, primary, and Alumkal, Joshi J., primary

Published
2023
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15. Supplementary Table S2 S4 S6 S7 from BET Bromodomain Inhibition Blocks an AR-Repressed, E2F1-Activated Treatment-Emergent Neuroendocrine Prostate Cancer Lineage Plasticity Program

Author

Kim, Dae-Hwan, primary, Sun, Duanchen, primary, Storck, William K., primary, Welker Leng, Katherine, primary, Jenkins, Chelsea, primary, Coleman, Daniel J., primary, Sampson, David, primary, Guan, Xiangnan, primary, Kumaraswamy, Anbarasu, primary, Rodansky, Eva S., primary, Urrutia, Joshua A., primary, Schwartzman, Jacob A., primary, Zhang, Chao, primary, Beltran, Himisha, primary, Labrecque, Mark P., primary, Morrissey, Colm, primary, Lucas, Jared M., primary, Coleman, Ilsa M., primary, Nelson, Peter S., primary, Corey, Eva, primary, Handelman, Samuel K., primary, Sexton, Jonathan Z., primary, Aggarwal, Rahul, primary, Abida, Wassim, primary, Feng, Felix Y., primary, Small, Eric J., primary, Spratt, Daniel E., primary, Bankhead, Armand, primary, Rao, Arvind, primary, Gesner, Emily M., primary, Attwell, Sarah, primary, Lakhotia, Sanjay, primary, Campeau, Eric, primary, Yates, Joel A., primary, Xia, Zheng, primary, and Alumkal, Joshi J., primary

Published
2023
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18. Abstract 3189: Characterization of secretory cues that promote brain metastasis using a microfluidic blood brain niche (BBN) device

Author

Oliver, Christopher Ryan, primary, Westerhof, Trisha M., additional, Yang, Benjamin A., additional, Merrill, Nathan M., additional, Yates, Joel A., additional, Russell, Liam, additional, Miller, Anna J., additional, Ulintz, Peter J., additional, Aguilar, Carlos A., additional, Morikawa, Aki, additional, Castro, Maria G., additional, and Merajver, Sofia M., additional

Published
2022
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19. Transcriptional profiling of matched biopsies reveals molecular determinants of enzalutamide resistance.

Author

Westbrook, Thomas, primary, Guan, Xiangnan, additional, Udager, Aaron M., additional, Haffner, Michael, additional, Beer, Tomasz M., additional, Aggarwal, Rahul Raj, additional, Ryan, Charles J., additional, Gleave, Martin, additional, Huang, Jiaoti, additional, Evans, Christopher P., additional, Reiter, Robert Evan, additional, Witte, Owen, additional, Rettig, Matthew, additional, Stuart, Josh, additional, Thomas, George V., additional, Feng, Felix Y, additional, Small, Eric Jay, additional, Yates, Joel, additional, Xia, Zheng, additional, and Alumkal, Joshi J., additional

Published
2022
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22. BET Bromodomain Inhibition Blocks an AR-Repressed, E2F1-Activated Treatment-Emergent Neuroendocrine Prostate Cancer Lineage Plasticity Program

Author

Kim, Dae-Hwan, primary, Sun, Duanchen, additional, Storck, William K., additional, Welker Leng, Katherine, additional, Jenkins, Chelsea, additional, Coleman, Daniel J., additional, Sampson, David, additional, Guan, Xiangnan, additional, Kumaraswamy, Anbarasu, additional, Rodansky, Eva S., additional, Urrutia, Joshua A., additional, Schwartzman, Jacob A., additional, Zhang, Chao, additional, Beltran, Himisha, additional, Labrecque, Mark P., additional, Morrissey, Colm, additional, Lucas, Jared M., additional, Coleman, Ilsa M., additional, Nelson, Peter S., additional, Corey, Eva, additional, Handelman, Samuel K., additional, Sexton, Jonathan Z., additional, Aggarwal, Rahul, additional, Abida, Wassim, additional, Feng, Felix Y., additional, Small, Eric J., additional, Spratt, Daniel E., additional, Bankhead, Armand, additional, Rao, Arvind, additional, Gesner, Emily M., additional, Attwell, Sarah, additional, Lakhotia, Sanjay, additional, Campeau, Eric, additional, Yates, Joel A., additional, Xia, Zheng, additional, and Alumkal, Joshi J., additional

Published
2021
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23. Norstictic Acid Is a Selective Allosteric Transcriptional Regulator

Author

Garlick, Julie M., primary, Sturlis, Steven M., additional, Bruno, Paul A., additional, Yates, Joel A., additional, Peiffer, Amanda L., additional, Liu, Yejun, additional, Goo, Laura, additional, Bao, LiWei, additional, De Salle, Samantha N., additional, Tamayo-Castillo, Giselle, additional, Brooks, Charles L., additional, Merajver, Sofia D., additional, and Mapp, Anna K., additional

Published
2021
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25. Radial_Migration_SI – Supplemental material for Development of an Enhanced-Throughput Radial Cell Migration Device

Author

C. Ryan Oliver, Little, Andrew C., Westerhof, Trisha M., Pragathi Pathanjeli, Yates, Joel A., and Merajver, Sofia D.

Subjects
FOS: Clinical medicine, 111599 Pharmacology and Pharmaceutical Sciences not elsewhere classified
Abstract

Supplemental material, Radial_Migration_SI for Development of an Enhanced-Throughput Radial Cell Migration Device by C. Ryan Oliver, Andrew C. Little, Trisha M. Westerhof, Pragathi Pathanjeli, Joel A. Yates and Sofia D. Merajver in SLAS Technology

Published
2020
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30. Molecular determinants of drug response in TNBC cell lines

Author

Merrill, Nathan M., primary, Lachacz, Eric J., additional, Vandecan, Nathalie M., additional, Ulintz, Peter J., additional, Bao, Liwei, additional, Lloyd, John P., additional, Yates, Joel A., additional, Morikawa, Aki, additional, Merajver, Sofia D., additional, and Soellner, Matthew B., additional

Published
2019
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34. Abstract 4363: Effects of the small GTPase RhoC on inflammatory breast cancer metabolism

Author

Goo, Laura E., primary, Yates, Joel A., additional, Little, Andrew C., additional, Kremer, Daniel, additional, Kovalenko, Ilya, additional, Oliver, Christopher R., additional, Westerhof, Trisha, additional, Wu, Zhifen, additional, Vandecan, Nathalie, additional, Bao, Liwei, additional, Ulintz, Peter J., additional, Lyssiotis, Costas A., additional, and Merajver, Sofia D., additional

Published
2019
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36. A platform for artificial intelligence based identification of the extravasation potential of cancer cells into the brain metastatic niche

Author

Oliver, C. Ryan, primary, Altemus, Megan A., additional, Westerhof, Trisha M., additional, Cheriyan, Hannah, additional, Cheng, Xu, additional, Dziubinski, Michelle, additional, Wu, Zhifen, additional, Yates, Joel, additional, Morikawa, Aki, additional, Heth, Jason, additional, Castro, Maria G., additional, Leung, Brendan M., additional, Takayama, Shuichi, additional, and Merajver, Sofia D., additional

Published
2019
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41. Loss of PTEN promotes formation of signaling-capable clathrin-coated pits

Author

Rosselli-Murai, Luciana K., primary, Yates, Joel A., additional, Yoshida, Sei, additional, Bourg, Julia, additional, Ho, Kenneth K. Y., additional, White, Megan, additional, Prisby, Julia, additional, Tan, Xinyu, additional, Altemus, Megan, additional, Bao, Liwei, additional, Wu, Zhi-Fen, additional, Veatch, Sarah, additional, Swanson, Joel, additional, Merajver, Sofia, additional, and Liu, Allen P., additional

Published
2018
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43. Loss of PTEN promotes formation of signaling-capable clathrin-coated pits

Author

Rosselli-Murai, Luciana K, primary, Yates, Joel A, additional, Yoshida, Sei, additional, Bourg, Julia, additional, Ho, Kenneth K.Y., additional, White, Megan, additional, Prisby, Julia, additional, Tan, Xinyu, additional, Altemus, Megan, additional, Bao, Liwei, additional, Wu, Zhi-Fen, additional, Veatch, Sarah, additional, Swanson, Joel, additional, Merajver, Sofia, additional, and Liu, Allen P, additional

Published
2017
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47. Cyber Warfare: An Evolution in Warfare not Just War Theory

Author

MARINE CORPS COMMAND AND STAFF COLL QUANTICO VA, Yates, Joel A, MARINE CORPS COMMAND AND STAFF COLL QUANTICO VA, and Yates, Joel A

Abstract

As the Internet increasingly allows people, businesses, governments, militaries, and organizations to network computing systems, it also opens an avenue for nefarious actors to wage cyber attacks against all who use the Internet. National infrastructures, government and military systems, and financial institutions that operate as networked systems are vulnerable to cyber attacks. Nation-states or non-state actors that threaten the security of other nation-states by cyber attacks can cause lethal effects that must be evaluated for the ethical and moral impacts. The Just War Theory has played a large role in evaluating the ethical and moral use of new weapons throughout history; cyber is not different. The application of Just War Theory to cyber warfare is greatly debated. While some argue that Just War Theory is irrelevant to cyber warfare, a careful analysis demonstrates that it is a useful tool for considering the morality of cyber warfare. This paper examines the application of Just War Theory to cyber warfare and contends that Just War Theory is a useful tool for considering the morality of cyber warfare.

Published
2013

50. Revitalizing Neighborhoods.

Author

Dantico, Marilyn and Yates, Joel

Subjects
*QUALITY, *HOUSING, *NEIGHBORHOODS
Abstract

This paper looks at housing quality and other data to assess effects of comprehensive neighborhood initiatives in Phoenix, AZ. ..PAT.-Conference Proceeding [ABSTRACT FROM AUTHOR]

Published
2006

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